TW200826974A - Stable lyophilized pharmaceutical preparation comprising antibody - Google Patents
Stable lyophilized pharmaceutical preparation comprising antibody Download PDFInfo
- Publication number
- TW200826974A TW200826974A TW096133613A TW96133613A TW200826974A TW 200826974 A TW200826974 A TW 200826974A TW 096133613 A TW096133613 A TW 096133613A TW 96133613 A TW96133613 A TW 96133613A TW 200826974 A TW200826974 A TW 200826974A
- Authority
- TW
- Taiwan
- Prior art keywords
- antibody
- preparation
- alanine
- polyol
- mass
- Prior art date
Links
Classifications
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K39/00—Medicinal preparations containing antigens or antibodies
- A61K39/395—Antibodies; Immunoglobulins; Immune serum, e.g. antilymphocytic serum
- A61K39/39591—Stabilisation, fragmentation
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K9/00—Medicinal preparations characterised by special physical form
- A61K9/14—Particulate form, e.g. powders, Processes for size reducing of pure drugs or the resulting products, Pure drug nanoparticles
- A61K9/19—Particulate form, e.g. powders, Processes for size reducing of pure drugs or the resulting products, Pure drug nanoparticles lyophilised, i.e. freeze-dried, solutions or dispersions
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P31/00—Antiinfectives, i.e. antibiotics, antiseptics, chemotherapeutics
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P35/00—Antineoplastic agents
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P37/00—Drugs for immunological or allergic disorders
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P37/00—Drugs for immunological or allergic disorders
- A61P37/02—Immunomodulators
Landscapes
- Health & Medical Sciences (AREA)
- Chemical & Material Sciences (AREA)
- Medicinal Chemistry (AREA)
- Life Sciences & Earth Sciences (AREA)
- Pharmacology & Pharmacy (AREA)
- Veterinary Medicine (AREA)
- Public Health (AREA)
- General Health & Medical Sciences (AREA)
- Animal Behavior & Ethology (AREA)
- Chemical Kinetics & Catalysis (AREA)
- General Chemical & Material Sciences (AREA)
- Organic Chemistry (AREA)
- Nuclear Medicine, Radiotherapy & Molecular Imaging (AREA)
- Immunology (AREA)
- Bioinformatics & Cheminformatics (AREA)
- Engineering & Computer Science (AREA)
- Epidemiology (AREA)
- Microbiology (AREA)
- Mycology (AREA)
- Communicable Diseases (AREA)
- Oncology (AREA)
- Medicines Containing Antibodies Or Antigens For Use As Internal Diagnostic Agents (AREA)
- Medicinal Preparation (AREA)
Abstract
Description
200826974 九、發明說明: 【發明所屬之技術領域】 本發明係與抗體之醫藥製劑領域有關。詳細而言,本發 明係關於-種含有抗體而安定的冷凍乾燥醫藥製劑。 【先前技術】 ^近年來生物玉程學之發展’運用重組dna技術,可 大量製造出純度優良之醫療用蛋白質。然而,與先前之化 $合成分子不同的是,蛋白質之分子量較大且其三維結構 =為複雜’因此’為了使如此之蛋白質於安定地保持之 狀匕、下保存女疋,必須有考慮其物性之特別的技術。安定 地保持蛋白質之製劑,必須保護蛋白質中所含有之許多不 同的吕月b基’ X ’必須保持與活性有關之多維結構;於蛋 白質醫藥品之領域,開發維持蛋白質之安定性及活性之兩 者的安定之製劑正成為一個大課題。 作為於醫療領域有用之蛋白質之一,有抗體,近年來, Q 單株抗體或多株抗體係供於人臨床試驗,其於以抗腫瘤或 ⑺療自身免疫疾患、感染症等各種疾病為目的之醫藥品領 域,正受到業界之關注。但是,經精製之單株抗體或多株 •抗體,被發現具有於溶液中易形成凝集物及粒狀不溶性微 、粒之性質,此情況成為抗體製劑開發中之問題。業者期望 不具有如此不期望之性質的經安定化之抗體製劑。 作為使抗體安定化之方法之一,例如,如國際公開第 W098/56418號案中,揭示有如下之水性醫藥製劑:其含 有事先未經冷凍乾炼且於治療方面有效之抗體、值維持 124402.doc 200826974 在5 ·0之醋酸緩衝劑、界面活性劑、及多元醇。溶液製劑 對於製造者而言,容易處理且最為經濟,又,投與給患者 最為容易。然而,一般而言,若為溶液製劑,則會受到化 學分解(去醯胺化反應或氧化反應)及物理劣化(凝集及沈 澱)的影響,因此,為保持安定性必須正確地控制儲藏條 件,對於安定性低之抗體而言,會成為其商業應用上之缺 點。 對此,於該技術領域已知有如下情況:將於溶液中比較 不安定之生成物進行冷凍乾燥,有可能獲得安定化之生成 物,因此,較溶液製劑具有更長之儲藏時間及安定性(參 照非專利文獻1)。於經乾燥之固體中,可避免分解反應, 或者數年保持安定之狀態。因此,作為冷凍乾燥之已知技 術,常常被應用於在水溶液中表現較差安定性之可注入之 醫藥品中。該工序必須進行冷凍乾燥(Freeze_drying),藉 此使得冰自經冷;東的溶液中昇華而殘留原液之固體經㈣ 之成分。該步驟,係將水性溶液以液體狀態進行加工且填 充於、、、口藥谷裔中’於低溫下進行乾燥,藉此排除有害的熱 影響,繼而其可於更安定之乾燥狀態下進行保存,因此具 有許夕優姑此外,經冷凍乾燥之生成物通常可迅速地溶 解,繼而可於投與給患者之前容易地再構成。 然而’為了製造出具有所期望特徵的經冷;東乾燥之生成 物’必須適§地注意選擇冷滚乾燥步驟中所使用之條件及 賦形劑。若無適當之賦形劑,則大部分之蛋白質製劑,會 因於冷來乾燥期間所遭遇之冷滚以及乾燥、脫水而至少有 124402.doc 200826974 部分產生變性。此外, 性的賦形劑。 %擇保證經乾燥固體之長期安定 關於含有抗體之冷凍乾 钇知、I劑,有以下之文獻。 專利文獻1中揭示有— ^ 田 檀3有抗體、糠或胺基糠、胺基 酸、及界面活性劑之凍 土 ? 製劑。但是,其並未提示包含 丙月女3文與多元醇之纟且人 、、、σ的冷凍乾燥製劑為適宜者。 專利文獻2中揭示古_ Μ 種僅由蛋白質、緩衝液、丙胺 酉文、及甘露醇構成之冷康 人二東乾燦製劑。但是,其並未提示包 έ丙胺酸與非晶質多亓 、疋知之組合的冷凍乾燥製劑為適宜 者。 專利文獻3中揭示有一 檀母1 mg人類單株抗體使用丨〜⑼ mg之D-甘露醇的安定 a入 文疋之冷凍乾燥製劑。但是,亦未提示 包含丙胺酸與非晶暂夕-^ 貝夕疋醇之組合的冷凍乾燥製劑為適宜 者’又’亦未提示抗體、丙胺酸、嚴糖之較好的混合比。 於蛋白貝之冷凍乾燥醫藥製劑中,有大量關於職形 劑對使蛋白質安定化> % 〇 疋化之效果的科學文獻。但是,關於冷 乾燥生成物之結構盥复容 、 ^ 再/、,、女疋性之間關係的理論,通常並不 被接受。同樣,單獨传用客_ 、 平询便用夕兀醇及胺基酸或該等之組合的 作用,並未依據_組普遍性質獲得揭示,依據所研究之蛋 白質及所使用之賦形劑的量’發現有相反之結果。 又於現有專利中所揭示之冷束乾燥製劑中,會發生有 ㈣產生、聚合物增加、氧化體增加等情況,未能發現安 疋之製劑°例^,如專利文獻4或專利文獻5所$,於含有 作為還原糖之麥芽糖的冷;東乾燥製劑中,尤其是於保存期 124402.doc 200826974 間可見氧化體增加。如專利文獻2或專利文獻3中所示,含 有甘露醇之冷凍乾燥製劑尤其於保存期間可見聚合物增 加0 Ο (, 專利文獻1:國際公開第W098/22136A2號案 專利文獻2:國際公開第WO97/17064號案 專利文獻3:日本專利特開平5-25058號公報 專利文獻4 ··曰本專利特表平3-504605 專利文獻5:國際公開第W089/11297號案 非專利文獻1 •『Remington’s Pharmaceutical Sciences』第 15版,Mack Publishing Co·,費城伊斯頓,第 1483-1485 頁 【發明内容】 發明所欲解決之問題 本發明之目的在於提供一種含有抗體而安定的冷凍乾燥 醫藥製劑。具體而言,本發明之目的在於提供一種安定的 冷凍乾燥醫藥製劑,其含有治療有效之量之抗體、作為結 晶性物質之丙胺酸、及為非還原性糖且為非晶質之多元 醇。 、 解決問題之技術手段 、本發明者們為獲得含有治療有效之量的抗體之安定的; 殊乾燥製劑,而進行了努力研究。其結果發現:藉由使: 療有效之量的抗體中,進而含有結晶性物質,及為非還. 性糖且為非晶質之客 劑中所…二 可獲得具有習知之冷來乾燥〗 丨中所不具備的抑制保存期間所產生之 果的冷象乾燥製劑,最終完成了本發明。 成心 124402.doc 200826974 即,本發明係如以下者。 [π 種冷凍乾燥製劑,其含有抗體,進而含有丙胺酸及 多元醇作為賦形劑。 [2]如[1]之冷凍乾燥製劑,其中多元醇為非還原性糖且 為非晶質之多元醇。 []如[1]之冷凍乾燥製劑,其中多元醇為非還原性糖且 為非晶質糖。200826974 IX. Description of the invention: [Technical field to which the invention pertains] The present invention relates to the field of pharmaceutical preparations of antibodies. In particular, the present invention relates to a freeze-dried pharmaceutical preparation which is stable with an antibody. [Prior Art] ^In recent years, the development of biological jade sciences has used the recombinant DNA technology to produce a large amount of medical proteins with excellent purity. However, unlike the previous synthetic molecules, the molecular weight of the protein is large and its three-dimensional structure is complex. Therefore, in order to keep such a protein in a stable state, it is necessary to consider it. Special technology for physical properties. To maintain a stable protein preparation, it is necessary to protect the many different Luyue b-based 'X' contained in the protein must maintain the multi-dimensional structure related to activity; in the field of protein medicine, develop and maintain the stability and activity of the protein. The formulation of the stability of the person is becoming a big issue. As one of the proteins useful in the medical field, there are antibodies. In recent years, Q monoclonal antibodies or multiple anti-systems have been put into clinical trials for the purpose of anti-tumor or (7) autoimmune diseases and infectious diseases. The pharmaceutical industry is receiving attention from the industry. However, the purified monoclonal antibody or a plurality of antibodies have been found to have a property of forming agglomerates and granular insoluble microparticles and granules in a solution, which is a problem in the development of antibody preparations. It is expected that a stabilized antibody preparation that does not have such undesirable properties will be desired. As one of the methods for stabilizing an antibody, for example, in the case of International Publication No. W098/56418, there is disclosed an aqueous pharmaceutical preparation containing an antibody which has been previously freeze-dried and is therapeutically effective, and has a value of 124402. .doc 200826974 Acetate buffer, surfactant, and polyol in 5.0. Solution formulations are easy to handle and most economical for the manufacturer, and are most easily administered to patients. However, in general, if it is a solution preparation, it is affected by chemical decomposition (deamination reaction or oxidation reaction) and physical deterioration (aggregation and precipitation). Therefore, in order to maintain stability, it is necessary to properly control storage conditions. For antibodies with low stability, it will become a disadvantage in their commercial applications. In view of this, it is known in the art that a relatively unstable product in a solution is freeze-dried, and it is possible to obtain a stable product, thereby having a longer storage time and stability than a solution preparation. (Refer to Non-Patent Document 1). In the dried solids, the decomposition reaction can be avoided, or it can be kept stable for several years. Therefore, as a known technique for freeze-drying, it is often applied to an injectable pharmaceutical which exhibits poor stability in an aqueous solution. This process must be freeze-dried (Freeze_drying), whereby the ice is subcooled; the solid solution in the east is sublimed and the solids of the residual liquid are passed through the components of (4). In this step, the aqueous solution is processed in a liquid state and filled in, and dried, at a low temperature, to eliminate harmful heat effects, and then it can be preserved in a more stable dry state. In addition, the lyophilized product is usually rapidly dissolved and can be easily reconstituted before administration to a patient. However, in order to produce a cold, east dried product having the desired characteristics, it is necessary to pay attention to the conditions and excipients used in the cold roll drying step. Without proper excipients, most of the protein preparations will be denatured at least by the cold rolling and drying and dehydration encountered during cold drying. In addition, sexual excipients. % Select to ensure the long-term stability of the dried solid. For the freeze-dried antibody containing the antibody, the I agent has the following literature. Patent Document 1 discloses that -Tan Tan 3 has a frozen earth preparation of an antibody, an anthracene or an amino group, an amino acid, and a surfactant. However, it does not suggest that a lyophilized preparation containing human, sigma, and sigma is suitable. Patent Document 2 discloses that the cold medicinal saponin is composed of only protein, a buffer solution, propylamine, and mannitol. However, it does not suggest that a freeze-dried preparation comprising a combination of alanine and amorphous polysaccharides is known. Patent Document 3 discloses that a sandalwood 1 mg human monoclonal antibody is used as a lyophilized preparation of 疋~(9) mg of D-mannitol. However, it has not been suggested that a lyophilized preparation comprising a combination of alanine and amorphous sulphate is suitable as a 'and' does not suggest a better mixing ratio of antibody, alanine or sulphur. In the freeze-dried pharmaceutical preparation of protein shell, there is a large amount of scientific literature on the effect of the agent on the stabilization of the protein > % 〇 疋. However, the theory of the relationship between the structure of the cold-dried product, the re-recovery, the re-/, and the relationship between the female and the female, is usually not accepted. Similarly, the use of _, the use of sputum alcohol and amino acid or the combination of these is not disclosed according to the general nature of the group, depending on the protein being studied and the excipients used. The quantity 'discovered has the opposite result. Further, in the cold-dried preparation disclosed in the prior patent, there are cases in which (4) production, polymer increase, and oxidized body increase occur, and the preparation of the ampoule is not found, such as Patent Document 4 or Patent Document 5. $, in the cold; East dry preparation containing as a reducing sugar maltose, especially during the storage period 124402.doc 200826974 increased oxidant. As shown in Patent Document 2 or Patent Document 3, the freeze-dried preparation containing mannitol is particularly increased by 0 Ο during storage. Patent Document 1: International Publication No. WO098/22136A2 Patent Document 2: International Publication No. Patent Document No. WO97/17064, Japanese Patent Laid-Open No. Hei 5-25058, Patent Document 4, Japanese Patent Application Laid-Open No. Hei No. 3-504605 Patent Document 5: Non-Patent Document 1 of International Publication No. WO 89/11297 Remington's Pharmaceutical Sciences, 15th Edition, Mack Publishing Co., Easton, Philadelphia, pp. 1483-1485 [Invention] The problem to be solved by the present invention is to provide a freeze-dried pharmaceutical preparation which is stable with an antibody. Specifically, it is an object of the present invention to provide a stable freeze-dried pharmaceutical preparation comprising a therapeutically effective amount of an antibody, a proline which is a crystalline substance, and a non-reducing sugar and an amorphous polyol. The technical means for solving the problem, the inventors have made efforts to obtain a stable and effective preparation of a therapeutically effective amount of the antibody; As a result of the study, it has been found that a therapeutically effective amount of the antibody further contains a crystalline substance, and is a non-returnable sugar and an amorphous guest agent. The present invention has finally been completed by a cold-dried preparation which does not have a fruit which is produced in the sputum and which inhibits the fruit produced during storage. Chengxin 124402.doc 200826974 That is, the present invention is as follows. [π kinds of freeze-dried preparations, [2] The lyophilized preparation according to [1], wherein the polyol is a non-reducing sugar and is an amorphous polyol. [] [1] A lyophilized formulation wherein the polyol is a non-reducing sugar and is an amorphous sugar.
Ο [][3]之冷凍乾燥製劑,其中多元醇為蔗糖或海藻 糖0 [5]^[1]至[4]中任_項之冷束乾燦製劑,其中相對於抗 體貝里1,丙胺酸及多元醇之質量為5/6〜5 0。 [][]之冷凍乾燥製劑,其中多元醇質量/丙胺酸質量 之比為0.5〜2.5。 []如[5]或[6]之冷;東乾燥製劑,其中抗體質量/丙胺酸質 量之比為0.05〜3。 ' [8] 如[1]至[7]中任一 丙胺酸質量與蔗糖質量 [9] 如[1]至[8]中任一 衝液。 項之冷凍乾燥製劑,其中抗體質量與 之3成分之質量比為1:0.3〜20:0.5〜30。 員之冷凍乾燥製劑,其進而含有緩 [10]如[9]之冷凍乾燥製劑, 液0 其中缓衝液為麵胺酸緩衝 其中緩衝液之濃度為10 问如m或⑽之冷涞乾燥_ mM 〇 [12]如[1]至[11]中任一 、7凍乾燥製劑,其進而含有界 124402.doc 200826974 面活性劑 性劑為聚山梨醇 =3]如间之冷奸⑽製劑,^界心 趣製劑,其係含有抗體 Π4]如⑴至[13]中任—項之冷μ 作為有效成分之醫藥製劑。 其包括··於抗 问一種製衫定的冷“燥^之方法 鑑中添加叫酸及乡 ί ,问之製造冷滚乾燥製劑之= … 還原性糖且為非晶質之夕_ ▲ 中夕元醇為非 、 夕及* 。 之方法,其中多元醇為非 Η7]如"Μ之製造冷康乾燥製劑 還原性糖且為非晶質糖。 [18] 如[16]之製造冷;東乾_@ ^ 糖或海藻糖。 ’ ’,、中多元醇為蔗 [19] 如[15]至[18]中任—項之 其中相對於抗體質量丨,、、凍乾燥製劑之方法, 5/6〜50。 两胺酸及多元醇之質量為 元醇質量/ [2〇]如U9]之製造冷滚乾燦製劑 丙胺酸質量之比為0.5〜2.5。 / ,其中多 燥製劑 之方法,其中抗體 [21] 如[19]或[20]之製 質量/丙胺酸質量之比為〇〇5\3 [22] 如[15]至[21]中任一項之 、 其中抗體質量與丙胺g曼質息、、冷來乾燥製劑之方法, 之3成分之質量比 、里與蔗糖質| 為 1:0.3〜20:〇·5〜30 〇 發明之效果 124402.doc 200826974 如只&例所示’本申請案之含有抗體之製劑,即使於 25 C或40 C下保持3個月,於保存期間,抗體之聚合物、 分解物、去醯胺體、及氧化體亦不會增加,其為安定, 又’其抗體亦確認保持有生物學活性。本申請案之製劑, 至少於低溫(2°C至8。〇下保持1年以上之安定,又,至少於 25 C下保持3個月及/或於4(rc下保持1個月之安定。 本說明書包含作為本申請案之優先權之基礎的曰本專利 申請2006-243 144號說明書及/或圖式中所記載之内容。 【實施方式】 與本發明有關之揭示之說明 「安定的製劑」,係不含對投與該製劑之患者有毒性之 成刀又,藉由添加除儘量不干擾患者之生理恆常性之活 性成分以外之添加物,而使其中的活性成分於保存時保持 化學及/或物理及/或生物學安定性者。所謂「除儘量不干 擾μ者之生理恆常性之活性成分以外之添加物」,係指根 據過去之實際治療成果而確認有充分之安全性者、或者於 過去無實際投與成果之物質中,藉由對細胞、動物之毒性 砰價或者利用其他方法,可充分預測其安全性者。又,所 明保持患者之生理恆常性」,包括:除活性成分以外之 添加劑不具有對患者所不容許之生物活性,及/或若有可 能則為等滲(具有與人類血液本質上相同之滲透壓)等。 冷凍乾燥(lyophilization),係於製備醫藥品中經常使用 之冷凍乾燥(Freeze drying)法。製備液體組合物,繼而進 仃冷凍乾燥,形成乾燥之餅狀製品。該方法,一般而古, 124402.doc -12- 200826974 糸:已冷束之試料於真空中進行乾燥卩除去;水,以粉末或 餅狀物質之形態而直接殘㈣水性成分。經料乾燥之生 成物’可在不喪失其生物活性下長期於高溫下保存,可藉 由加入適當之稀釋劑而容易地復原為不含粒狀物之溶液: 適當的稀釋劑,係生物學所容許之任意液體,且係冷;東乾 燥粉末可於其中完全溶解之液體。水,尤其是注射用水^ 合適之稀釋劑’其原因在於’其不含有對抗體之安定性產 生影響之鹽或其他物f。冷;東乾燥之優點為:使水分含量 (水分於長期保存中會使製品變得不安定)降低至使各種: 子事件大幅降低之程度。又,冷凍乾燥製劑容易耐受輸送 之物理性壓力。經復原之製品不含粒狀物,因此可不預先 進行m非經口投予給被試㈣,㈣的是進行靜脈内 或肌内或皮下投與。 冷束乾燥製劑之重要特徵為’係製品之復原時間、或進 行再水合所必需之時間。為可非常快速且完全地進行再水 合’重要的是具有高多孔性結構之餅。餅結構,係包括蛋 白質濃度、賦形劑之種類及濃度、及冷来乾燥循環之製程 參數在内的許多參數的函數。一般而言,若蛋白質濃度上 升則復原時間上升,因此較短之復原時間,於高濃度冷凍 乾燥抗體製劑之開發中,係重要之目標。較長之復原時 間,因蛋白質被更長時間曝露於進一步濃縮之溶液中,故 使製品之品質產生劣化。進而,從使用者之角度出發,直 至製品被完全再水合之前無法進行投予。丨目的在於確保 製品不含粒狀物、投予正確之用4、其無菌性不受影響。 124402.doc -13- 200826974 即’迅速之再水合對患者及醫生均有利。 蛋白質之安定性,係利用各種分析方法進行測定。例 如,於「新蛋白質精製法理論與實際」(RK Sc〇pes著, 京出版)中所概述者。蛋白質之安定性包 括化學安定性、物理安定性及生物學安定性。「化學安定 . 性」,可藉由檢測蛋白質之化學變化狀態而進行鑑定。化 學變化,例如包括:可利用大小排斥層析或 ζ-s 仃评價之剪切等尺寸修飾、或可利用離子交換層析進行評 價之電荷狀態之變化(例如產生去醯胺之結果)以及可利用 疏水層析進行評價之親水性/疏水性狀態之變化(例如產生 氧化之結果)等。「物理安定性」,包括可利用顏色及/或透 明性的目視檢查及/或可利用大小排斥層析進行評價之, 不產生不溶性微粒子及/或混濁及/或凝集體之情形。「生物 學安定性」,例如可藉由對可利用利用大小排斥層析或 ELISA等進行評價之與抗原的結合活性進行鑑定,而進行 U 評價。 於治療用途有用之蛋白質可包含抗體。業者正在嘗試將 抗體與在細胞表面所表達之蛋白質相結合、且對細胞而言 ,具有誘導細胞死亡或傷害的作用之抗體應用於癌症等之治 療中。目前’以細胞膜上所存在之受體即CD20為靶之嵌 合抗體(Rituximab)、以Her2/neu為靶之人類化抗體等單株 抗體係以惡性腫瘤作為對象疾病而進行使用,並可見其治 療效果。又’如國際公開第w〇2〇〇3/〇33538號案中所公 開,可認為針對作為一種π型主要組織親合性基因複合體 124402.doc •14- 200826974 (MHC)分子之HLA-DR抗體的單株抗體(抗HLa_dr抗體)亦 有效。抗體具有血中半衰期長、對抗原之特異性高之特 徵,其作為抗腫瘤劑特別有效。例如,若係以腫瘤特異性 抗原為靶之抗體,則推測所投予之抗體會聚集於腫瘤2, 因而可期待免疫系統藉由補體依賴性細胞毒殺活性(CDC) 或抗體依賴性細胞毒殺活性(ADCC)對癌細胞進行攻擊。 又亦可預料·藉由將放射性核種或細胞毒性物質等藥劑 p 與其抗體結合,可高效率地將所結合之藥劑送達腫瘤部 位,同時可藉由減少該藥劑到達非特異性組織之量,而減 輕副作用。又,於具有對腫瘤特異性抗原誘導細胞死亡的 活性之情形時,可藉由投與具有激動活性之抗體,而期待 腫瘤特異性抗體之聚集,及因抗體活性而產生之腫瘤生長 停止或萎縮。如上所述,抗體根據其特徵可認為可用作抗 腫瘤劑。 如上所述,於適用於治療用途之大量抗體經研究、開 C, 發、實用化,而頻繁使用於醫療場所,於該現狀下,可認 為含有安定性更為優異之抗體的冷凍乾燥製劑於該領域已 成為必需。 ,本專利所含有之所謂「冷凍乾燥製劑」,係具有藥效之 i 抗體即活性成分經冷凍乾燥之形態,且係於固體中將活性 成分製成具有明確效果者之形態,且係不含有可干擾製劑 所投與之患者之生理恆常性之其他成分者。此處,所謂 「將活性成分製成具有明確效果者」,係指所含有之活性 成分維持其活性,而不喪失藥效。 124402.doc -15- 200826974 所謂「除儘量不干擾患者之生理怪常性之活性成分以外 之添加齊!」,係指根據過去之實際治療成1而確認有充分 之安全性者,或者於過去無實際投予成果之物質中,藉由 對細胞、動物之毒性評㈣者_其他方法,可充分預測 其安全性者。#,本發明之冷來乾燥醫藥製劑,可包含: 作為具有藥效之抗體之活性成分,及醫藥學所容許之其他 添加劑。又’所謂「保持患者的生理怪常性」,包括:除 活性成分以外之添加劑不具有對患者所不容許之生物活 性,及/或若有可能則為等滲(具有與人類血液本質上相同 之滲透壓)等。 所謂「安定的製劑」,係指其中的活性成分於保存時保 持化學及/或物理及/或生物學安定性者。較好的是,至少 於低溫(2。〇至8。〇下保持丨年以上之安定,又,較好的是, 於25°C下至少保持3個月及/或於4〇t下至少保持_月:安 定,對製劑之冷减融解、光照射及振動為安定。蛋白質之 女疋性,係利用各種分析方法進行測定。「化學安定性、 可藉由檢測定量蛋白質的化學變化之狀態而進行鑑定。」化 學變化’例如包括:可利用大小排斥層析或犯^細進 行評價之剪切等尺寸修飾、可利用離子交換層析進行評價 之電荷變化(例如產生去醯胺之結果)、及可利用疏水層: 進行評價之親水性/疏水性狀態之變化(例如產生氧化:結 果)等。「物理安定性」’包括可利用顏色及/或透明性的目。 視檢查及/或可利用大小排斥層析進行評價之不產 、〜 性微粒子及/或混濁及/或凝集體之情形。繼而,「生::: 124402.doc -16- 200826974 J性二例如可藉由對可藉利用大小排斥層析或EUSA等 > m之與抗原的結合活性進行鑑^,而進行評價。於 $體經受化學或物理變化之情形時,其抗體保持生物學安 疋f生。因此,於製劑中之抗體保持化學安定性及物理安定 :之 '形時’可認為其製劑為安定。即,製劑是否為安 σ藉由測疋所含抗體是否產生化學及物理特性之變化 而得^。衫之製劑中,抗體之聚合物、分解物、去醯胺 體、乳化體等於保存中不會增加至降低製劑之藥效的程 度,又,亦未發現不溶性異物或混濁。本發明之安定之!y 劑,即使至少於低溫(2t至8。〇下保存i年以上、或者至= ;C下保存3個月、或者即使於40°C下保存1個月,抗體 聚泛物刀解物、去酿胺體、氧化體亦不會增加至降低 U之藥效的程度。又’即使將製劑進行冷束融解或者施 加振動,抗體之聚合物、分解物、去醯胺體、氧化體亦不 -i曰加至P牛低製劑之藥效的程度。本發明之安定之製劑中 的抗體之聚合物’於保存中無增加,例如於25。〇或⑽。C下 保存1個月後’以大小排斥層析進行測定之情形時,較好 的是聚合物相對於製劑中之抗體的比例較小。X,本發明 之安定的製劑中之抗體分解物,於保存中無大幅增加,例 如於加或听下保存1個月,較好的是分解物相對於製 劑中之抗體的比例較小。又,本發明之安定之製劑中的抗 體之去醯胺體的量,於保存中無大幅增加,例如於抑或 40 C下保存1個月’較好的是去醯胺體相對於製劑中之抗 體的比例車乂小進而,本發明之安定的製劑中之抗體之氧 124402.doc -17- 200826974 化體’於保存中益士 Τ…、大幅增加,例如於25。〇或40。 個月,鲂杯从H t I r 1示仔1 季乂好的疋軋化體相對於製劑中之抗體的比例較小。 本發明之冷凍乾燥製劑 < w <符倣在於·於保存中由抗體而形 成之聚合物的量並不增加。聚合物含量及分解物含量,例 士可利用大小排斥層析進行敎,·去醢胺體含量,例如可 利用離子交換層析進行敎;氧化體含量,例如可利用疏 水HPLC進行測定。冷冻 [] [3] a lyophilized preparation, wherein the polyol is a cold-dried dry preparation of sucrose or trehalose 0 [5]^[1] to [4], wherein, relative to the antibody Berry 1, The mass of alanine and polyol is 5/6~50. The freeze-dried preparation of [][] wherein the ratio of the mass of the polyol to the mass of the alanine is from 0.5 to 2.5. [] Cold as in [5] or [6]; East dry preparation in which the ratio of antibody mass/alanine mass is 0.05 to 3. ' [8] As in any of [1] to [7], the quality of alanine and the quality of sucrose [9] such as [1] to [8]. The lyophilized preparation of the invention wherein the mass ratio of the antibody mass to the component 3 is 1:0.3 to 20:0.5 to 30. a lyophilized preparation, which further comprises a lyophilized preparation according to [10], [9], wherein the buffer is a face acid buffer in which the concentration of the buffer is 10, such as m or (10), cold 涞 dry _ mM 〇[12], such as any one of [1] to [11], 7 freeze-dried preparation, which further contains a boundary 124402.doc 200826974 surfactant agent is polysorbate = 3] such as the cold rape (10) preparation, ^ A pharmaceutical preparation containing the antibody Π4] such as the cold μ of any one of (1) to [13] as an active ingredient. It includes ···································································· The method is a method in which the polyol is non-Η7], such as "Μ, the manufacture of a cold-drying preparation, a reducing sugar, and an amorphous sugar. [18] ;东干_@ ^ Sugar or trehalose. ' ', medium polyol is sugar cane [19] such as [15] to [18], which is relative to the quality of the antibody, lyophilized preparation method 5/6~50. The mass of the bis-acid and the polyol is the mass of the alcohol / [2〇] such as U9] The ratio of the mass of the cold-rolled dry preparation alaline is 0.5~2.5. The method wherein the antibody [21] such as [19] or [20] has a mass/alanine mass ratio of 〇〇5\3 [22], wherein any one of [15] to [21], wherein the antibody The quality and the propylamine g-management, the method of cold drying the preparation, the mass ratio of the three components, the inner and the sucrose quality | is 1:0.3~20: 〇·5~30 〇 the effect of the invention 124402.doc 200826974 & clinic The antibody-containing preparation of the present application, even if kept at 25 C or 40 C for 3 months, does not increase the polymer, decomposition product, deamamine, and oxidant of the antibody during storage. For stability, and 'the antibody is also confirmed to remain biologically active. The preparation of the present application, at least at low temperature (2 ° C to 8. Under the armpit for more than 1 year, and at least 3 at 25 C) The month and/or the stability of one month at 4 rc. This specification contains the contents described in the specification and/or drawings of the patent application No. 2006-243 144, which is the priority of the present application. [Embodiment] The description of the disclosure relating to the present invention, "a stable preparation", does not include a knife which is toxic to a patient who is administered the preparation, and adds activity which does not interfere with the physiological constantity of the patient as much as possible. Additions other than the ingredients, and the active ingredients therein are kept chemically and/or physically and/or biologically stable during storage. The so-called "additions other than the active ingredients that do not interfere with the physiological constants of the person as much as possible" ", according to the past Among the substances that have been confirmed to have sufficient safety, or those that have not actually been used in the past, can be fully predicted by the toxicity of cells or animals, or by other methods. Keeping the physiological constants of the patient, including: additives other than the active ingredient do not have biological activity that is not acceptable to the patient, and/or isotonic if possible (having essentially the same osmotic pressure as human blood) Lyophilization is a freeze-drying method often used in the preparation of pharmaceuticals. A liquid composition is prepared, which is then lyophilized to form a dried cake. This method, generally and ancient, 124402.doc -12- 200826974 糸: The sample which has been cold-blown is dried and removed in a vacuum; the water is directly residual (4) aqueous component in the form of a powder or a cake-like substance. The dried product can be stored for a long time at high temperature without losing its biological activity, and can be easily restored to a solution containing no granules by adding a suitable diluent: Suitable diluent, biological Any liquid that is tolerated and is cold; a liquid in which the East dry powder can be completely dissolved. Water, especially water for injection, is a suitable diluent because it does not contain a salt or other substance f which affects the stability of the antibody. Cold; the advantage of East Drying is that the moisture content (the moisture will become unstable during long-term storage) is reduced to the extent that the sub-events are greatly reduced. Further, the freeze-dried preparation is easily resistant to the physical pressure of the transport. The reconstituted product does not contain granules, so that it can be administered orally (4) without oral administration, or (4) by intravenous or intramuscular or subcutaneous administration. An important feature of the cold-bundled formulation is the recovery time of the article or the time necessary for rehydration. In order to be rehydrated very quickly and completely, what is important is a cake having a highly porous structure. The cake structure is a function of many parameters including protein concentration, type and concentration of excipients, and process parameters for the cold drying cycle. In general, if the protein concentration rises, the recovery time increases, so a short recovery time is an important target in the development of high-concentration freeze-dried antibody preparations. The longer the recovery time, the better the quality of the product is caused by the protein being exposed to the further concentrated solution for a longer period of time. Further, from the user's point of view, the product cannot be administered until the product is completely rehydrated. The aim is to ensure that the product is free of granules, is administered correctly, and that its sterility is not affected. 124402.doc -13- 200826974 ie Rapid rehydration is beneficial to both patients and doctors. The stability of the protein is determined by various analytical methods. For example, it is outlined in "The Theory and Practice of New Protein Refinement" (RK Sc〇pes, Beijing Publishing). Protein stability includes chemical stability, physical stability, and biological stability. "Chemical stability. Sex" can be identified by detecting the chemical state of a protein. Chemical changes include, for example, size modifications such as size exclusion chromatography or ζ-s 仃 evaluation, or changes in charge states that can be evaluated by ion exchange chromatography (for example, results of dedeamine production) and Hydrophobic chromatography can be used to evaluate changes in the hydrophilic/hydrophobic state (for example, the result of oxidation). "Physical stability" includes visual inspection using color and/or transparency and/or evaluation by size exclusion chromatography without insoluble microparticles and/or turbidity and/or agglomeration. The "biological stability" can be evaluated, for example, by identifying the antigen-binding activity which can be evaluated by size exclusion chromatography or ELISA. Proteins useful for therapeutic use may comprise antibodies. The manufacturer is attempting to combine an antibody with a protein expressed on the surface of a cell, and an antibody having an action of inducing cell death or injury to a cell is used in the treatment of cancer or the like. At present, a monoclonal antibody such as a chimeric antibody (Rituximab) targeting the receptor which is present on the cell membrane, and a human antibody targeting Her2/neu is used as a target disease, and it can be seen. treatment effect. Further, as disclosed in the case of International Publication No. WO〇2〇〇3/〇33538, it can be considered as HLA- as a π-type main tissue affinity gene complex 124402.doc •14-200826974 (MHC) molecule. A monoclonal antibody (anti-HLa_dr antibody) of the DR antibody is also effective. The antibody has a long half-life in blood and a high specificity to an antigen, and is particularly effective as an antitumor agent. For example, if an antibody targeting a tumor-specific antigen is used, it is presumed that the administered antibody will accumulate in the tumor 2, and thus the immune system may be expected to be complement-dependent cytotoxic activity (CDC) or antibody-dependent cytotoxic activity. (ADCC) attacks cancer cells. It is also expected that by combining a drug p such as a radioactive nucleus or a cytotoxic substance with an antibody, the bound drug can be efficiently delivered to the tumor site while reducing the amount of the agent reaching the non-specific tissue. Reduce side effects. Further, in the case of having an activity for inducing cell death by a tumor-specific antigen, it is expected that aggregation of a tumor-specific antibody, and tumor growth or atrophy due to antibody activity can be expected by administering an antibody having agonistic activity. . As described above, an antibody can be considered to be useful as an antitumor agent depending on its characteristics. As described above, a large number of antibodies suitable for therapeutic use have been studied, opened, and put into practical use, and are frequently used in medical facilities. In this case, a freeze-dried preparation containing an antibody having more stability is considered as This area has become a necessity. The so-called "freeze-dried preparation" contained in this patent is a form in which the active ingredient, which is a pharmaceutical effect, is freeze-dried, and is in a form in which the active ingredient is made into a solid effect, and does not contain Other components that can interfere with the physiological constants of the patient to which the formulation is administered. Here, the phrase "the active ingredient is made to have a clear effect" means that the active ingredient contained therein maintains its activity without losing the effect. 124402.doc -15- 200826974 The so-called "additional ingredients other than the active ingredients that do not interfere with the physiology of the patient as much as possible" means that the person has confirmed that there is sufficient safety according to the actual treatment in the past, or in the past Among the substances that have no actual results, the safety of cells and animals can be fully predicted by other methods. #, The cold-dried pharmaceutical preparation of the present invention may comprise: an active ingredient as a medicinal antibody, and other additives permitted by the medicinal means. Also, 'the so-called "maintaining the physiology of the patient" includes: the additive other than the active ingredient does not have biological activity that is not acceptable to the patient, and/or isotonic if possible (having essentially the same as human blood) Osmotic pressure) and the like. By "stable preparation" is meant one in which the active ingredient remains chemically and/or physically and/or biologically stable during storage. Preferably, it is at least low temperature (2. 〇 to 8. 〇 under the 丨 under the stability of the leap year, and, more preferably, at 25 ° C for at least 3 months and / or at 4 〇 t at least Keep _ month: stability, the formulation of cold reduction, light irradiation and vibration is stable. The female virginity of the protein is determined by various analytical methods. "Chemical stability, the state of chemical change by quantitative detection of protein For the purpose of identification, "chemical changes" include, for example, size modification such as size exclusion chromatography or shear evaluation, and charge change that can be evaluated by ion exchange chromatography (for example, the result of producing deguanamine) And the use of a hydrophobic layer: a change in the hydrophilic/hydrophobic state (for example, oxidation: result), etc. The "physical stability" includes the color and/or transparency of the object. Size exclusion chromatography can be used to evaluate the situation of non-productive, non-micron particles and/or turbidity and/or agglomerates. Then, "Life::: 124402.doc -16- 200826974 J can be used, for example, by Borrowing The small exclusion chromatography or the binding activity of EUSA and the like to the antigen is evaluated and evaluated. When the body undergoes chemical or physical changes, the antibody retains biological ampoule. Therefore, in the preparation The antibody in the chemical stability and physical stability: the 'form time' can be considered to be stable in the formulation. That is, whether the preparation is An sigma by measuring whether the antibody contained in the sputum produces chemical and physical properties changes. In the preparation, the polymer of the antibody, the decomposition product, the deamidamine, and the emulsifier are equal to the extent that the effect of the preparation is not increased until the preparation is reduced, and no insoluble foreign matter or turbidity is found. The stability of the present invention! y agent, even if it is stored at least at low temperature (2t to 8 〇 under the armpit for more than i years, or until =; C for 3 months, or even at 40 ° C for 1 month, antibody polymerized knives, The removal of the amine and the oxidant will not increase to the extent that the effect of U is lowered. In addition, even if the preparation is subjected to cold beam melting or vibration, the polymer, decomposition product, deacetylamine or oxidant of the antibody is not -i曰 added to P cattle low preparation effect To the extent that the polymer of the antibody in the stable preparation of the present invention does not increase in storage, for example, at 25 ° C or (10). After storage for 1 month at C, it is better to measure by size exclusion chromatography. The ratio of the polymer to the antibody in the preparation is small. X, the antibody decomposition product in the stable preparation of the present invention does not increase significantly during storage, for example, for 1 month after adding or listening, preferably The ratio of the decomposition product to the antibody in the preparation is small. Further, the amount of the deamidamine of the antibody in the stable preparation of the present invention is not greatly increased during storage, for example, at 40 C for one month. 'It is preferred that the ratio of the valeramine to the antibody in the preparation is small and the oxygen of the antibody in the stable preparation of the present invention is 124402.doc -17-200826974. , a substantial increase, for example at 25. 〇 or 40. In the month, the ratio of the cups from H t I r 1 to the number of antibodies in the preparation was small. The lyophilized preparation of the present invention <w <RTIgt; is that the amount of the polymer formed by the antibody during storage does not increase. The content of the polymer and the content of the decomposition product can be determined by size exclusion chromatography, for example, by deionization, for example, by ion exchange chromatography; the content of the oxide can be determined, for example, by hydrophobic HPLC.
Ο 本發明之抗體之所謂「治療有效之量」,係指抗體對可 有效々療之疾病之預防或治療有效的量。所謂「疾病」, 係才曰因利用抗體進行治療而獲利之任意症狀。纟包括:包 括V致哺礼類動物之疾病的病理狀態在内的慢性及急性疾 患或疾病。製劑中所存在之抗體的治療有效量,例如可考 慮理想的用1及投與形態而確定。製劑中之例示性抗體濃 度,為約1 mg/mL至約200 mg/mL,較好的是約5 mg/mL至 約50 mg/mL,最好的是約1〇㈤“㈤乙及/或約2〇 mg/mL。 本專利所含有之所謂「抗體」,係於最廣泛之意義中使 用,尤其包括單株抗體、多株抗體、多重特異性抗體,或 者只要保持所期望的生物活性可包括抗體片段。又,本專 利所包含之抗體’只要可與所期望之抗原結合,則無特別 限制,可適宜使用:小白鼠抗體、大白鼠抗體、兔抗體、 綿羊抗體、駱駝抗體、雞抗體、嵌合抗體、人類化抗體、 人類抗體等。抗體可為多株抗體,亦可為單株抗體。 本發明係關於一種含有抗體而安定的冷凍乾燥醫藥製 劑。製劑中之抗體,可使用為產生抗體而用於該領域之為 124402.doc -18- 200826974 業者所周知之技術,而進行製備。至於例示性單株抗體之 製備方法,可舉出:(1 )作為免疫原而使用之生物體高分子 之精製及/或於細胞表面過量表達抗原蛋白質之細胞的製 作;(2)藉由將抗原注射入動物細胞而進行免疫,然後採集 . 血液而檢定其抗體價,以決定摘出脾臟等之時刻,再製備 • 抗體產生細胞之工序;(3)骨髓瘤細胞(myeloma)之製備; (4)抗體產生細胞與骨髓瘤細胞之細胞融合;(5)對產生目 ( 心抗體之融合瘤群的選擇;(6)分離成單一細胞株(選殖); (7)視情況對用於大量製造單株抗體之融合瘤的培養、或者 對移植融合瘤之動物的飼養;(8)視情況自融合瘤等抗體產 生細胞中選殖編碼人類單株抗體的基因,將其重組入適當 之載體中,再導入至宿主(例如哺乳類細胞細胞株、大腸 桿菌、酵母細胞、昆蟲細胞、植物細胞等)中,製備利用 基因重組技術所產生之重組型抗體;(9)以如此方式而獲得 之抗體之精製;(10)對以如此方式所製造之單株抗體的生 G 理活性及其識別特異性之研究、或者對作為標記藥之特性 之分析等。進而,對於多株抗體,亦可同樣地利用為業者 所周知之方法進行製作。 本專利所含之抗體亦包括:由於抗體之重鏈及/或輕鏈 之各胺基酸序列中,有1個或數個胺基酸產生缺失、置換 或者附加的胺基酸序列之重鏈及/或輕鏈所構成之抗體。 對本發明之抗體之胺基酸序列中之,如前述之胺基酸的部 分改變(缺失、置換、插入、附加),可藉由對編碼此胺基 酸序列之鹼基序列進行部分改變而導入。該鹼基序列之部 124402.doc •19- 200826974 分改變,可利用已知的部位特異性變異導入法(site specific mutagenesis)且利用通用方法進行導入(Proc Natl Acad Sci USA.,1984,第 181 卷·· 5662)。本專利所含有之 抗體中,亦包括任意之免疫球蛋白類及具有同型之抗體。 抗體亦包括重組入亞型之改型抗體、或者進而改變重鏈固 定區域之改型抗體。進而,亦包括使其與碘、釔、銦、鉻 (technetium)等放射性核種(J. W. Goding,Monoclonal Antibodies: principles and practice,1993 Academic Press), 如綠膿桿菌毒素、白喉毒素(diphteria toxin)、蓖麻毒素 (ricin)之細菌毒素,以及滅殺除癌(methotrexate)、絲裂黴 素、卡奇黴素(Calicheamicin)等化學療法劑(D.J.King, Applications and Engineering of Monoclonal Antibodies·, 1998 T. J.Intenational Ltd·; M.L.Grossbard·,Monoclonal Antibody-Base Therapy of Cancer·,1998 Marcel Dekker Inc),進而與 Maytansinoid 等前驅藥(Chari et al,Cancer Res., 1992 Vol. 52: 127; Liu et al.5 Proc. Natl. Acad. Sci. USA,1996 Vol· 93: 8681)等結合,藉此進一步增強對癌等 疾病之治療效果者。 又,本專利所包含之抗體,亦包括抗體之功能性片段。 所謂該「功能性片段」,係指抗體之一部分(部分片段),意 指保持1個以上之抗體對抗原之作用者,具體可舉出: F(abf)2、Fab’、Fab、Fv、二硫化物鍵結 Fv、單鏈 Fv(scFv)、雙功能抗體、以及該等之聚合物等(D. J· King, Applications and Engineering of Monoclonal Antibodies·, 124402.doc -20- 200826974 1998 Τ· J. International Ltd) 〇 本專利所包含之抗體,係多株抗體或/及單株抗體,較 好的是人類抗體、人類化抗體或嵌合抗體。該抗體較好的 是IgG,IgG之亞型較好的是IgGl、IgG2、IgG4中之任一 者。又,IgG,亦可為藉由對固定區域之胺基酸序列的一 部分進行基因改變,而經胺基酸缺失及/或置換及/或插入 之 IgG 〇 又,更好的是,國際公開第W02003/033538號案中所記 載之抗HLA-DR人類單株抗體即HD3、HD4、HD6、HD7、 HD8、HD10、HD4G1、HD4G2Ser、HD4G4、HD8G1、 HD8GlSer、HD8G2、HD8G2Ser、HD8G4。其中,產生 HD4、HD6、HD8及HD10之融合瘤,分別係以FERM BP-7771 、 FERM BP-7772、FERM BP-7773、FERM BP-7774 之編號,於2001年10月11日,國際寄託於獨立行政法人 產業技術綜合研究所專利生物寄託中心(日本國茨城縣築 波市東1 丁目1番地1中央第6)。又,產生HD3及HD7之融 合瘤,係分別以 FERM BP-08534、FERM BP-08536 之編 號,於2003年10月31日,國際寄託於相同之中心。進而, 本專利亦包含針對CD40之人類單株抗體,較好的是國際 公開第W02002/088186號案中所記載之抗CD40拮抗抗體即 KM281小10、KM281-2-10-1-2、KM283-5、KM225-2-56、KM292小24、KM341-6-9、4D11、5H10、11E1、 5G3、3811、3411、3417、F4-465,以及抗CD40激動抗體 即 KM302-1、KM341 小 19、KM643-4-11、2053、2105、 -21- 124402.doc 200826974The "therapeutically effective amount" of the antibody of the present invention means an amount of the antibody which is effective for the prevention or treatment of a disease which can be effectively treated. The so-called "disease" is any symptom that is profitable by treatment with antibodies.纟 Includes: Chronic and acute diseases or diseases including the pathological state of V-feeding animals. The therapeutically effective amount of the antibody present in the formulation can be determined, for example, by considering the desired use 1 and the form of administration. Exemplary antibody concentrations in the formulation range from about 1 mg/mL to about 200 mg/mL, preferably from about 5 mg/mL to about 50 mg/mL, most preferably about 1 〇 (5) "(5) B and / Or about 2 〇mg/mL. The so-called "antibody" contained in this patent is used in the broadest sense, including, in particular, monoclonal antibodies, polyclonal antibodies, multispecific antibodies, or as long as the desired biological activity is maintained. Antibody fragments can be included. Further, the antibody 'included in the present invention' is not particularly limited as long as it can bind to a desired antigen, and can be suitably used: a mouse antibody, a rat antibody, a rabbit antibody, a sheep antibody, a camel antibody, a chicken antibody, a chimeric antibody. , human antibodies, human antibodies, etc. The antibody may be a plurality of antibodies or a monoclonal antibody. The present invention relates to a freeze-dried pharmaceutical preparation which is stable with an antibody. The antibody in the preparation can be prepared by using a technique known in the art for producing antibodies and being used in the art as 124402.doc -18-200826974. Examples of the method for producing an exemplary monoclonal antibody include: (1) purification of a biological polymer used as an immunogen and/or production of cells overexpressing antigenic proteins on a cell surface; (2) The antigen is injected into the animal cell for immunization, and then the blood is collected and the antibody price is determined to determine the time at which the spleen is removed, and the process of preparing the antibody-producing cells; (3) preparation of myeloma cells; (4) The antibody-producing cells are fused with the cells of the myeloma cells; (5) for the production of the target (the selection of the fusion group of cardiac antibodies; (6) the isolation into a single cell strain (selection); (7) as appropriate for a large number of Production of fusion tumors of monoclonal antibodies or breeding of animals for transplantation of fusion tumors; (8) Selection of genes encoding human monoclonal antibodies from antibody-producing cells such as fusion tumors, and recombining them into appropriate vectors Then, it is introduced into a host (for example, a mammalian cell strain, Escherichia coli, yeast cells, insect cells, plant cells, etc.) to prepare a recombinant antibody produced by genetic recombination technology. (9) Purification of antibodies obtained in such a manner; (10) Studies on the G-activity and specificity of recognition of monoclonal antibodies produced in such a manner, or analysis of characteristics as a marker drug Further, a plurality of antibodies can be produced in the same manner as those known to the manufacturer. The antibodies contained in the patent also include: among the amino acid sequences of the heavy and/or light chains of the antibody, An antibody comprising one or more amino acids which produces a heavy chain and/or a light chain of a deletion, substitution or addition of an amino acid sequence. In the amino acid sequence of the antibody of the invention, such as the aforementioned amine group Partial changes (deletions, substitutions, insertions, additions) of the acid can be introduced by partially altering the base sequence encoding the amino acid sequence. The base sequence of the base sequence is changed to 124402.doc •19-200826974, The known site-specific mutagenesis can be used and introduced by a general method (Proc Natl Acad Sci USA., 1984, Vol. 181 · 5662). The antibodies contained in this patent are also included. Any of the immunoglobulins and antibodies having the same type. The antibody also includes a modified antibody that is recombined into the subtype, or a modified antibody that further changes the heavy chain immobilization region. Further, it also includes iodine, bismuth, indium, JC Goding, Monoclonal Antibodies: principles and practice, 1993 Academic Press, such as Pseudomonas aeruginosa toxin, diphteria toxin, ricin, bacterial toxins, and killing Chemotherapy agents such as cancer (methotrexate), mitomycin, and calicheamicin (DJKing, Applications and Engineering of Monoclonal Antibodies, 1998 TJIntenational Ltd.; MLGrossbard, Monoclonal Antibody-Base Therapy of Cancer · 1998 Marcel Dekker Inc), and further with prodrugs such as Maytansinoid (Chari et al, Cancer Res., 1992 Vol. 52: 127; Liu et al. 5 Proc. Natl. Acad. Sci. USA, 1996 Vol 93: 8681) and the like, thereby further enhancing the therapeutic effect on diseases such as cancer. Further, the antibody encompassed by this patent also includes a functional fragment of the antibody. The term "functional fragment" refers to a part (partial fragment) of an antibody, and means that one or more antibodies are allowed to act on an antigen, and specifically, F(abf)2, Fab', Fab, Fv, Disulfide-bonded Fv, single-chain Fv (scFv), bifunctional antibody, and the like (D. J. King, Applications and Engineering of Monoclonal Antibodies, 124402.doc -20- 200826974 1998 Τ· J. International Ltd) The antibody contained in this patent is a plurality of antibodies or/and monoclonal antibodies, preferably human antibodies, humanized antibodies or chimeric antibodies. The antibody is preferably IgG, and the subtype of IgG is preferably any of IgG1, IgG2, and IgG4. Further, the IgG may be an IgG 〇 which is genetically altered by a part of the amino acid sequence of the immobilization region, and which is deleted and/or substituted and/or inserted by the amino acid, and more preferably, the international publication The anti-HLA-DR human monoclonal antibodies described in WO2003/033538 are HD3, HD4, HD6, HD7, HD8, HD10, HD4G1, HD4G2Ser, HD4G4, HD8G1, HD8GlSer, HD8G2, HD8G2Ser, and HD8G4. Among them, the fusion tumors of HD4, HD6, HD8 and HD10 were produced, which were numbered by FERM BP-7771, FERM BP-7772, FERM BP-7773, and FERM BP-7774, respectively. On October 11, 2001, the international pinned on The patented bio-receiving center of the Industrial and Technological Research Institute of the National Institute of Industrial and Technological Affairs (the sixth in the center of the 1st, 1st, 1st, 1st, 1st, 1st, 1st, 1st, In addition, the fusion tumors of HD3 and HD7 were produced under the numbers FERM BP-08534 and FERM BP-08536, respectively, and the international center was placed at the same center on October 31, 2003. Further, the present patent also includes a human monoclonal antibody against CD40, and preferably an anti-CD40 antagonist antibody described in International Publication No. WO2002088186, that is, KM281 small 10, KM281-2-10-1-2, KM283. -5, KM225-2-56, KM292 small 24, KM341-6-9, 4D11, 5H10, 11E1, 5G3, 3811, 3411, 3417, F4-465, and anti-CD40 agonistic antibodies ie KM302-1, KM341 small 19 , KM643-4-11, 2053, 2105, -21- 124402.doc 200826974
3821、3822、285、110、115、F1 -102、F2-103、F5-77、 F5-157。其中融合瘤株〖]^302-1、1(:]^281-1_10、尺]^281-2-10-1-2,係於2001 年 5月 9 日分別以 FERM BP-75 78、FERM BP-7579、FERM BP-7580 之編號,株KM341-1-19 及 4D11 係、於 2001 年 9 月 27 日分另ij 以 FERM BP-7759、FERM BP-7758之編號,株2105係於2002年4月17日以FERM BP-8024 之編號,基於布達佩斯條約而國際寄託於獨立行政法人產 業技術綜合研究所專利生物寄託中心(茨城縣築波市東1 丁 目1番地1中央第6)。進而,具有F2-103、F5-77及F5-157的 重鏈及輕鏈的可變區域之質體,係於2001年4月19日分別 以 ATCC PTA-3302 (F2-103 重鏈)、ATCC PTA-3303 (F2-103 輕鏈)、ATCC PTA-3304 (F5-77 重鏈)、ATCC PTA-3305 (F5-77 輕鏈)、ATCC PTC-3306 (F5-157 重鏈)、及 ATCC PTA-3307 (F5-157輕鏈)之編號,融合瘤株F1-102及F4-465 係、於 2001 年 4月 24 日分別以 ATCC PTA-3337 及 ATCC PTA-3338之編號,基於布達佩斯條約而國際寄託於(American Type Culuture Collection, 10801 University Blvd., Manassas, Virginia,US A)(美國國立細菌培養收集所,美國維吉尼亞 州 20110-2209 馬那薩斯 10801 University Boulevard)。本 發明之冷凍乾燥製劑,於使用上述任意抗體時均為安定。 本發明之冷凍乾燥製劑,可藉由製備含有上述抗體及各 種添加劑作為有效成分之溶液製劑,其後將該溶液進行冷 凍乾燥,而製備。 根據本發明之較佳實施形態,冷凍乾燥製劑,除抗體 124402.doc -22- 200826974 外’亦含有多元醇、姓θ 活性劑。 〜曰性物質’進而含有緩衝劑及界面 7 ;束乾」經冷來乾操(lyophilized)」及「經冷;東乾 餘㈣叫娜」,意指首先將應乾燥之物質加以冷康, 其次使冰或冷;東溶劑於真空環境中昇華而將其除去之工 強保存中之冷康乾燥品之安定性,於冷凌乾燥3821, 3822, 285, 110, 115, F1 - 102, F2-103, F5-77, F5-157. Among them, the fusion tumor strain 〖]^302-1, 1(:]^281-1_10, 尺]^281-2-10-1-2, was based on FERM BP-75 78, FERM on May 9, 2001 BP-7579, FERM BP-7580, KM341-1-19 and 4D11, on September 27, 2001, ij with FERM BP-7759, FERM BP-7758, strain 2105 in 2002 On April 17th, the number of the FERM BP-8024 is based on the Budapest Treaty and is internationally affixed to the Patent Bio-Receiving Center of the Institute of Industrial Technology, the Independent Administrative Corporation (Tsukichi City, Tsukuba, 1st, 1st, 1st, 1st, Central). The plastids of the variable regions of the heavy and light chains of F2-103, F5-77 and F5-157 were based on ATCC PTA-3302 (F2-103 heavy chain) and ATCC PTA- on April 19, 2001. 3303 (F2-103 light chain), ATCC PTA-3304 (F5-77 heavy chain), ATCC PTA-3305 (F5-77 light chain), ATCC PTC-3306 (F5-157 heavy chain), and ATCC PTA-3307 (F5-157 light chain) No., fusion tumor strains F1-102 and F4-465, on April 24, 2001, under the number of ATCC PTA-3337 and ATCC PTA-3338, based on the Budapest Treaty and internationally (American Type Culuture Collection, 10801 University Blvd., Manassas, Virginia, US A) (National Bacterial Culture Collection, Manilas 10801 University Boulevard, Virginia 20110-2209). The lyophilized formulation of the present invention, using the above Any of the antibodies is stable. The lyophilized preparation of the present invention can be prepared by preparing a solution preparation containing the above antibody and various additives as an active ingredient, and then lyophilizing the solution, according to a preferred embodiment of the present invention. Morphological, lyophilized preparation, except for antibody 124402.doc -22- 200826974 'also contains polyol, surname θ active agent. ~ 曰 物质 substance' and then contains buffer and interface 7; bundled dry lyophilized "" and "cooling; Dongganyu (four) called Na" means that the substance to be dried is firstly cooled, followed by ice or cold; the solvent of East is sublimated in a vacuum environment and is removed. The stability of cold-dried products, dried in cold
則“I中亦可含有賦形劑。冷;東乾燥工序可藉由 知之方法實施。 本發明所包含之所^田「 斤口月添加劑」,包括除活性成分以外 之冷凍乾燥製劑中所包含之全部成分,例如包括:緩衝 劑、PH值調節劑、等渗劑、賦形劑、安定化劑、界面活性 劑、防腐劑等。又,,介4 k 仏、 、括一種添加劑成分顯示二種以上 效果者。 緩衝劑」,係指利用酸鹼共輛成分之作用使pH值變化 變得穩定的添加劑。緩衝劑濃度,根據其缓衝能力及/或 所期望之渗透壓,約為丨咖雜至⑽匪^,較好的是 j mmol/L至20 mm〇i/L,最好的是約1〇 _〇1/L。較好的缓 衝劑,&括麵胺酸鹽(例如麩胺酸納)、或#樣酸及其他有 機酸緩衝液。最好的是麵胺酸鹽。 夕兀醇」係具有多個羥基之物質,於冷凍乾燥製劑中 亦用作為賦形劑。「多元醇」包括:糖(還原及非還原性 糖)糖醇、及糖酸。此處,較好的多元醇,具有約小於 600 KD(例如約12〇 KD至約4〇〇 KD之範圍)之分子量。「還 原糖」,係可減少金屬離子、或具有可與蛋白質中之離胺 124402.doc -23- 200826974 酸及其他胺基進行共有反應之半縮醛基者;「非還原性 糖」’係不具有還原糖之該等性質者。至於還原糖之例, 有果糖、甘露糖、麥芽糖、乳糖、阿拉伯糖、木糖、核 糖、鼠李糖、半乳糖、及葡萄糖。至於非還原性糖之例, 有嚴糖、海藻糖、山梨糖、蜜三糖、及㈣糖等。至於糖 醇之例’為甘露醇、木糖醇、赤藻糖醇、蘇糖醇、山梨糖 醇、及甘油糖等。糖酸包括L-葡萄糖酸及其金屬鹽。將還 原糖使用於冷;東乾燥製劑,因會促進氧化體之生成,故不 仏。又,於針對冷康、乾燥所伴隨之壓力而保護蛋白質之 =下’使用多元醇之情料,較料的於進行冷束及乾 餘時形成非晶質(amorphous)結構者。至於進 非晶質結構之多开舻+ W U7术于办成 夕疋^之例不性者,有蔗糖、海 糖醇等。本發明 - 未概山木 質之多元酿 的是非還原性糖且為非晶 、 或者為非還原性糖且為非晶質之糖或糖醇等 之多元醇。更妬沾θ — , w 4糖鮮寺 更好的疋庶糖、海藻糖'山梨糖Then, "I may also contain an excipient. Cold; the east drying step can be carried out by a known method. The present invention includes the "Jiankouyue Additive", which includes the freeze-dried preparation other than the active ingredient. All of the components include, for example, a buffer, a pH adjuster, an isotonic agent, an excipient, a stabilizer, a surfactant, a preservative, and the like. Further, a combination of 4 k 仏 and one additive component exhibits two or more effects. "Buffer" means an additive which stabilizes the pH change by the action of the acid-base component. The buffer concentration, depending on its buffering capacity and/or the desired osmotic pressure, is about ( 杂 to (10) 匪 ^, preferably from j mmol / L to 20 mm 〇 i / L, and most preferably about 1 〇_〇1/L. A preferred buffer, & a faceted amine salt (such as sodium glutamate), or #acid and other organic acid buffers. The best is the face amine salt. "Inhibitor" is a substance having a plurality of hydroxyl groups and is also used as an excipient in a lyophilized preparation. "Polyol" includes: sugar (reduced and non-reducing sugar) sugar alcohols, and sugar acids. Here, preferred polyols have a molecular weight of less than about 600 KD (e.g., in the range of from about 12 KD to about 4 KD). "Reducing sugar" is a semi-acetal group which can reduce metal ions or have a co-reaction with the amine 124402.doc -23-200826974 acid and other amine groups in the protein; "non-reducing sugar" Those who do not have the properties of reducing sugar. As examples of reducing sugars, there are fructose, mannose, maltose, lactose, arabinose, xylose, ribose, rhamnose, galactose, and glucose. As examples of non-reducing sugars, there are strict sugar, trehalose, sorbose, raffinose, and (iv) sugar. Examples of the sugar alcohols are mannitol, xylitol, erythritol, threitol, sorbitol, and glycerin. Sugar acids include L-gluconic acid and its metal salts. The reducing sugar is used in cold; the east dry preparation is not suitable for promoting the formation of oxidants. Further, in the case of using a polyol for protecting the protein against the pressure accompanying the cold and drying, it is preferable to form an amorphous structure when performing cold bridging and drying. As for the non-opening of the amorphous structure + W U7, the case of the sputum is sucrose, sucrose and so on. The present invention - a non-reducing sugar which is non-reducing sugar and which is amorphous or non-reducing sugar and which is an amorphous sugar or a sugar alcohol. More 妒θ— , w 4 糖鲜寺 Better 疋庶 sugar, trehalose sorbose
L 棉籽糖等為非還原性糖且為非晶 ^-糖、及 糖及海藻糖。又,^ 最好的是嚴 元醇。 纟發明之冷来乾燥製劑亦可含有多種多 所謂「結晶柯私片斥 者即可,勺杠 貝」,若係於進行冷凍時成為結晶妹構 Γ::胺酸、甘胺酸等結晶性胺基酸等。= 的疋丙胺酸,1 文寻尤其好 mg/mL、更好 ^有5 40 mg/mL、較好的是10〜30 多元醇及結晶Γμ〜曾#、尤其好的是20_祉。 用。於本發明中1’可發揮作為賦形劑或等滲劑之作 ’所謂「賦形劑」’係具有指維持冷凌乾 124402.doc -24· 200826974 燥製劑之餅形狀之功能及 ή u a 飞針對冷凍、乾燥所伴隨之壓 力而保瘦蛋白質之功能的物 u ., 貝除多兀醇及結晶性物質以 外,作為用作賦形劑之普通 、 is ^ y- pd, 有礼糖。賦形劑於增強長 j保存時之蛋白質安定性 ^ +尬 心万面,可提供有用之性質。 又,该4物質亦可發揮等滲劑 Γ 、 敫為、采r 蜊爻作用。「等滲劑」,係指調 正透壓以使對象製劑具有 土 、八血,夜本質上相同之滲透壓 者。專滲製劑具有約25〇至L, such as raffinose, is a non-reducing sugar and is amorphous ^-sugar, and sugar and trehalose. Also, ^ is the best one. The cold-dried preparation of the invention may also contain a plurality of so-called "crystallized kelp repellers, spoons and scallops", and if it is frozen, it becomes a crystallized structure: crystallinity such as amino acid, glycine acid, etc. Amino acid and the like. = 疋 alanine, 1 search especially good mg / mL, better ^ 5 40 mg / mL, preferably 10 ~ 30 polyol and crystal Γ μ ~ Zeng #, especially good 20_祉. use. In the present invention, 1' can be used as an excipient or an isotonic agent as a "so-called "excipient"" and has the function of maintaining the shape of a cake of a dry preparation of 124402.doc -24·200826974 and ή ua It is a general-purpose, is ^ y-pd, ritual sugar used as an excipient, in addition to polyterpene alcohol and a crystalline substance, for the function of the protein to be used for freezing and drying. Excipients provide enhanced properties when enhanced protein stability during long-term preservation. In addition, the four substances can also function as isotonic agents Γ, 敫, and r. "Isotonic agent" refers to a method that modulates the osmotic pressure so that the subject preparation has soil, eight blood, and the same osmotic pressure in the night. The special osmotic preparation has about 25 〇 to
m〇sm/kg之滲透壓,較理想 將生理食鹽水之渗透壓設為1之渗透壓比約以。於 /明中,用作賦形劑之丙胺酸起維持餅狀之作用,多元 醇起針對冷滚、乾燥所伴隨之麼力而保護蛋白質之作用。 財發明中,如絲之多元醇,亦發揮作為針對抗體凝 一定化劑的作用,其就縮短於無粒狀物之溶液中之冷 康乾燥製劑的復原時間而言,係發揮重要之作用。多元 醇’係以根據製劑所期望的滲透壓而變化之量,而加二 製劑:。較好的是’復原後之冷;東乾燥製劑為等渗,但亦 可為南渗或低滲。 界面活性劑」包括如聚山梨醇酯(例如聚山梨醇酯 2〇、80 等)或 P〇L〇XAMER(例如 p〇L〇XAMER ⑻)之非離 子性界面活性劑。所添加之界面活性劑的量,係降低經製 劑化之抗體的凝集、及/或使製劑中之粒 及/或減少蛋白質於容器上之吸附的量。於本=化較 好的是含有聚山梨醇酯、最好的是含有聚山梨醇酯8〇作為 界面活性劑。界面活性劑,較好的是以0.02 11^/1111^至〇 j mg/mL、最好的是以約〇 〇5 mg/mL之量存在於製劑中。 124402.doc -25- 200826974 作為冷凍乾燥前之組合物的例子, α 丁 係包含約1 mg/mL至The osmotic pressure of m 〇 sm / kg is preferably an osmotic pressure ratio of osmotic pressure of physiological saline to 1. In the present invention, the alanine used as an excipient functions to maintain a cake shape, and the polyol acts to protect the protein against the force accompanying cold rolling and drying. In the invention, the silk polyol is also used as an anti-agglomerating agent, and it plays an important role in shortening the recovery time of the cold-drying preparation in the solution of the non-granular substance. The polyol ' is added in an amount that varies depending on the osmotic pressure desired for the formulation. Preferably, it is 'cooled after reconstitution; the east dry preparation is isotonic, but it may also be south or low permeability. Surfactants include nonionic surfactants such as polysorbates (e.g., polysorbate 2, 80, etc.) or P〇L XAMER (e.g., p〇L XAMER (8)). The amount of surfactant added is such that the agglutination of the formulated antibody and/or the granules in the formulation and/or the reduction of protein adsorption on the container are reduced. Preferably, it comprises a polysorbate, and most preferably a polysorbate 8 is used as a surfactant. The surfactant is preferably present in the formulation in an amount of from 0.02 11 / 1111 ^ to 〇 j mg / mL, preferably in an amount of about 5 mg / mL. 124402.doc -25- 200826974 As an example of a composition prior to lyophilization, the alpha butyl system comprises from about 1 mg/mL to
6〇 mg/mL 之 IgG抗體、約 1〇 mm〇1/L 主20 mmol/L之麩胺酸 鈉(pH 5.5)、約〇.〇5 mg/mL之聚山犁酿 f 呆知知80、以及作為賦 形劑之20 mg/mL之丙胺酸及5 mg/mL至5〇㈣祉之斧糖的 製劑。上述冷;東乾燦前之製冑,經冷隸燥而成為乾 定的粉末’其可容易地復原成適於投予給人類之不含粒狀 物之溶液。6〇mg/mL IgG antibody, about 1〇mm〇1/L main 20mmol/L sodium glutamate (pH 5.5), about 〇.〇5 mg/mL of poly mountain plow stuffing And a preparation of 20 mg/mL alanine and 5 mg/mL to 5 〇 (4) 斧 axe as an excipient. The above-mentioned cold; the dried sorghum is made into a dry powder by cold slag drying, which can be easily restored into a solution containing no granules suitable for administration to humans.
本發明係於抗體中添加結晶性物f (最好的是丙胺酸), 與為非還原性糖及非晶質之多元醇(最好的是心及海藻 糖)作為賦形劑,進行冷凍乾燥,藉此提供安定的冷凍軟 燥製劑。”上’可藉由包含結晶性物質結晶相而:持: 狀結構’且藉由包含抗體與非還原性糖及/或非晶質之多 元醇(最好的是薦糖及海藻糖)的非晶相而自冷来及乾燥中 之壓力下保護蛋白質’藉此而獲得安定的冷凍乾燥製劑。 本發明所使用之賦形劑之丙胺酸與絲之調配比及調配 量’可根據作為活性成分之抗體的濃度進行適當調整。 田於將R設為冷珠乾燥製劑中所存在之蔬糖與丙胺酸的質 1比(蔗糖質量/丙胺酸質量)或濃度比(蔗糖濃度/丙胺酸濃 度)時,女疋性良好之R為0.25以上,較好的是〇5至25, 更好的是1至2 ’最好的是1.5。 ’ 又’於將Q設為冷康乾燥製劑中所存在之抗體與丙胺酸 的質量比(抗體質量/丙胺酸質量)或濃度比(抗體濃度/丙胺 酸濃度)時,以R=l.5之比率含有廉糖/丙胺酸之冷来乾燥製 劑中,安定性良好之Q為〇·05至3,較好的是〇〇5至15。 124402.doc -26- 200826974 、以上述R與Q之組合包含抗體、丙胺酸、及蔗糖的安定 的冷4乾無性劑’其抗體質量與丙胺酸質量與蔗糖質量之 成刀的貝里比為1:〇.3〜2〇:〇5〜3〇。又,抗體質量相對於 丙胺馱與蔗糖之合計的比為〜。 . 本發明之冷凍乾燥製劑,係將其復原後使用。 * 人所明「復原」,係指於溶液中將冷凍乾燥製劑進行再水 °而形成無粒子之澄清化溶液;「復原時間」為其所必 C ]之時間。冷〉東乾燥製劑之重要特徵為,製品之復原時間 s、再X σ所必要之時間,要求為短時間。為了可非常快速 且完全地進行再水合,重要的是具有高多孔性結構之餅。 餅結構,係包括蛋白質濃度、賦形劑之種類及濃度、及冷 j乾燥循環之製程參數在㈣許多參數的函數。一般而 言,若蛋白質濃度上升則復原時間上升。因此,於復原時 間為長時間之情形時,因蛋白質被更長時間曝露於經進一 步濃縮之溶液中’故使製品品質產生劣化。進而,從使用 〇 纟之角度出發,直至將製品完全再水合後方可投與… 的在於藉由使其完全地再水合,而確保製品不含粒狀物、 投與正確之用量、無菌性不受影響。即,迅速之再水合對 患者與醫生均有利。 溶液製劑’可使用適當之乾燥參數進行冷康乾燥。冷來 乾燥製劍,可保持抗體生物活性之安定性,且保護以投盘 給人類被試驗體為目的之抗體,使其不會於最終製品尹產 生物理性及化學分解。 冷束乾燥製劑,於使用時以稀釋劑(例如注射用水谱其 124402.doc -27- 200826974 進行再水合,而提供不含粒狀物之溶液。經復原之抗體溶 液,即使於環境溫度下將冷凍乾燥餅長期保存後,亦不會 有粒狀物。經復原之溶液,可非經口投肖,較好的是靜^ 内或肌内或皮下投與給被試驗體。 本發明之組合物,可確保使含有免疫球蛋白之試藥中的 蛋白質凝集物及粒狀物之形成最小化,且即使時間推移溶 液中的抗體亦維持其免疫活性。組合物包括:於具有中性 或酸性PH值之緩衝液中包含抗體、丙胺酸、多㈣及界面 活性劑之,由水性冷;東乾燥前之㈣所製備之無菌之藥劑 學所容許的冷;東乾燥製#卜本發明之組合物,亦可進一步 含有丙胺酸及多元醇以外之賦形劑及/或等滲劑。In the present invention, a crystalline substance f (preferably alanine) is added to the antibody, and the non-reducing sugar and the amorphous polyol (preferably heart and trehalose) are used as excipients for freezing. Drying, thereby providing a stable frozen soft dry preparation. "Upper" can be obtained by including a crystalline phase of a crystalline material: a structure: and comprising an antibody and a non-reducing sugar and/or an amorphous polyol (preferably a sugar and trehalose) The amorphous phase protects the protein from the pressure of cooling and drying, thereby obtaining a stable freeze-dried preparation. The ratio of the alanine to the silk and the blending amount of the excipient used in the present invention can be based on the activity The concentration of the antibody of the component is appropriately adjusted. The ratio of the ratio of the sugar of the vegetable sugar to the alanine (the mass of the sucrose/the mass of the alanine) or the concentration (the sucrose concentration/alanine concentration) is set in the cold-dried formulation. When the raspberry sex is good, R is 0.25 or more, preferably 〇5 to 25, more preferably 1 to 2', and the best is 1.5. 'And' is to set Q as a cold-drying preparation. When the mass ratio of the antibody to the alanine (antibody mass/alanine mass) or the concentration ratio (antibody concentration/alanine concentration) is present, the cold sugar/alanine cold is used to dry the preparation in a ratio of R=l.5. The Q with good stability is 〇·05 to 3, preferably 〇〇5 to 15. 124402.doc -26- 200826974, a stable cold 4 dry asexual agent containing antibody, alanine, and sucrose in the combination of R and Q described above, the antibody mass and the quality of alanine and the quality of sucrose The ratio of the antibody mass to the total of prisin and sucrose is ~. The freeze-dried preparation of the present invention is used after being restored. The term "recovery" means that the lyophilized preparation is rehydrated in a solution to form a clarified solution free of particles; the "recovery time" is the time required for C]. An important feature of the cold-to-east dry preparation is that the time required for the recovery time s of the product and the re-X σ is required to be short. In order to be rehydrated very quickly and completely, it is important to have a cake having a highly porous structure. The cake structure is a function of the parameters of the protein concentration, the type and concentration of the excipients, and the process parameters of the cold j drying cycle in (iv). In general, if the protein concentration increases, the recovery time increases. Therefore, when the recovery time is long, the protein is deteriorated due to the protein being exposed to the further concentrated solution for a longer period of time. Furthermore, from the point of use of hydrazine, until the product is completely rehydrated, it can be administered by ensuring that the product is completely rehydrated, thereby ensuring that the product does not contain granules, is administered in the correct amount, and is not sterilized. Affected. That is, rapid rehydration is beneficial to both the patient and the doctor. The solution formulation ' can be cold-dried using appropriate drying parameters. Cold to dry the sword, can maintain the stability of the biological activity of the antibody, and protect the antibody for the purpose of the human body to be tested, so that it will not be biologically and chemically decomposed in the final product. The cold-dried preparation is rehydrated with a diluent (for example, water for injection, 124402.doc -27-200826974, to provide a solution free of granules. The reconstituted antibody solution, even at ambient temperature) After the long-term storage of the freeze-dried cake, there will be no granules. The reconstituted solution can be administered parenterally, preferably intramuscularly or intramuscularly or subcutaneously, to the test subject. The composition ensures that the formation of protein agglomerates and granules in the immunoglobulin-containing reagent is minimized, and the antibody in the solution maintains its immunological activity even over time. The composition includes: neutral or acidic PH value buffer contains antibody, alanine, poly(iv) and surfactant, which is water-cooled; aseptic medicinal preparation prepared by (4) before drying in East; The substance may further contain excipients and/or isotonic agents other than alanine and a polyhydric alcohol.
製劑可對必須㈣抗體進行治療之哺乳動物,較好的是 人,以已知方法,例如作為球劑,或者於一定時間内連病 注入之靜脈内投與、肌内、腹腔内、大腦内、皮下、心 内、滑液包内、蛛網膜下腔内、經口、局部、或者經由: 入途徑進行投與。於較好的實施樣態中,製劑可藉由靜脈 内投與而投與給哺乳動物。為達成如此㈣,例如使用注 射器或者經由點滴靜注管而將製劑注入。 〆 實施例 若參照以下實施 施例並非限制發 進行各種變更、 利用以下實施例更詳細地說明本發明。 例,則可充分理解本發明。但是,該等實 明之範圍者。基於本發明之記載,業者可 修飾,該等變更、修飾亦包含於本發明中 實施例1丙胺酸與各種賦形劑之組合 124402.doc -28 - 200826974 使用國際公開第W02003/033538號案中所記載之針對 HLA-DR之抗體(抗HLA-DR抗體、IgGl)作為抗體,製備冷 凍乾燥製劑。 於本實施例中,製備表1中所示之製劑,並對與丙胺酸 . 組合之合適的賦形劑進行詳細研究。 [表1] 供於本實施例之製劑一覽 抗體濃度 緩衝劑 賦形劑 界面活性劑 pH值 1 10 mg/mL 抗 HLA-DR 抗體 10 mmol/L 麩胺酸 20 mg/mL 丙胺酸 ^^ 0.05 mg/mL 聚山梨醇酯 80 5.5 2 30 mg/mL 海藻糖 3 蔗糖 4 氯化納 (1)製劑樣品之製備 本研究中所使用之試藥,係使用抗HLA-DR抗體(約 20mg/mL,依國際公開第W02003/0033538號案中所記載之 方法於日本麒麟啤酒公司醫藥生產技術研究所(2007年7月 1曰以後,於日本麒麟醫藥股份有限公司生產技術研究所) I 製備)、L-麩胺酸鈉一水合物(日本藥局方外醫藥品規格)、 丙胺酸(Ala,日本藥局方)、海藻糖(Tor,日本藥局方)、 蔗糖(Sue,曰本藥局方)、氯化鈉(NaC卜曰本藥局方)、鹽 酸(日本藥局方)、聚山梨醇酯80(日本藥局方)、注射用水 (曰本藥局方)。各製劑樣品,係藉由預先製作不含原藥之 偽藥溶液,使用NAP管柱(Pharmacia Biotech公司製)將抗 HLA-DR抗體溶液與製劑偽藥溶液進行置換,而製備。 又,蛋白質濃度係利用OD280 nm吸光度係數ε=1.4進行換 124402.doc -29- 200826974 算,而調整其濃度。 於無菌無塵工作臺(Clean Bench)内使用0.22 μηχ濾膜 (MHhpore公司製)對各製劑樣品進行無菌過濾,再將每1 mL濾液填充於5 mL玻璃小瓶(適合日本藥局方)中。於充填 後,以橡膠塞進行半加蓋,使用曰本真空技術公司製造之 冷束乾燥機進行冷;東乾燥。又,於無菌無塵工作臺中㈣ 0.22 μηι瓶蓋過濾器(Nalgene公司),將用於稀釋分析樣品 及分析之空白對照的不含抗HLA_DR抗體之溶液(偽藥劑° 進行無菌過濾。 (2)試驗條件 於本實施财,為了進行安定性評價,而錢以下條件 對各製劑樣品施加壓力。 / 熱安定性試驗:於溫度控制在40<t或25<t之培養箱 (TABAI ESPEC公司製)中,保存!個月及3個月。又,自進 行熱壓力負荷後至分析開始’將各樣品保存於溫度控制在 4 °C之低溫庫中。 (3)分析方法 目測外觀··於螢光燈下,以肉眼觀察餅形狀,且記述外 觀圖。 關於以下之分析,係於外觀目視後,用注射器加入j mL 注射用水進行再溶解,再進行分析。 不溶性異物及混濁:於白色光源正下方,於約5〇〇〇 — 之売度的位置,以肉眼觀查有無不溶性異物及混濁。 大小排斥HPLC鑑定(SEC):聚合物含量及分解物含量, 124402.doc -30 - 200826974 係利用大小排斥高速液體層析法而算出。根據需要將樣品 稀釋成1 mg/mL,於環境溫度下注入20 μι。分離係使用 TSK gel G3000 SWXL 30 Cmx7.8 mm (TOSOH公司製)管 柱,使用20 mmol/L磷酸鈉、500 mmol/L氯化鈉pH 7.0作為 移動相,於0.5 mL/分之流量、分析時間為30分之條件下, 於215 nm處進行檢測。再者,將於主峰前溶出者定義為聚 合物,將於主峰後溶出者定義為分解物。 陽離子交換HPLC鑑定(IEC):去醯胺體含量係利用陽離 子交換高速液體層析法而算出。注入60 pL適當稀釋成5 mg/mL之樣品。使用 TSK gel BIO Assist S (TOSOH公司製) 作為分離柱,於280 nm處進行檢測。作為移動相,對於A 相係使用20 mM酒石酸pH 4.5,對於B相係使用20 mM酒石 酸、1 Μ氯化鈉pH 4.5,利用最適宜之梯度條件進行分 析。再者,將於主峰前方溶出之劣化物定義為去醯胺體。 疏水HPLC鑑定(HIC) ··氧化體之含量係利用疏水層析法 而算出。注入20 pL之使用樣品處理液(2〇 mm〇i/L磷酸 鈉、0.984 mol/L硫酸銨、7.5 mmol/L蛋胺酸)適當稀釋成1 mg/mL的樣品。使用 TSK gel Butyl-NPR (TOSOH公司製)作 為分離柱,於215 nm處進行分析及檢測。移動相係使用2〇 mmol/L填酸鈉、ρΗ 6·5作為A相;使用20 mm〇i/L石粦酸鈉、 1.2 mol/L硫酸錄、ρΗ 6·5作為B相,利用最適宜之梯度條 件進行分析。再者,將於主峰前方溶出之劣化物定義為氧 化體。 還原SDS-PAGE鑑定··根據需要將樣品溶液稀釋成400 124402.doc -31- 200826974 pg/mL。於樣品溶液中力口入 SDS Sample Buffer (Invitrogen 公司製)、Sample Reducing Agent (Invitrogen製)、H2〇, 於95°C下加熱5分鐘,製成還原樣品溶液。於泳.動糟中裝 滿電泳用 Tris-Glycine SDS Running buffer (Invitrogen公司 製)。將5 μί試料溶液加至4〜20%Tris_Glycine Gel (Invitrogen公司製)中,於約125 V固定電壓下進行電泳, 直至試料溶液中所含之溴酚藍的藍色移動至凝膠下端附 近。對電泳結束後的凝膠進行銀染色且進行檢測。再者, 為判定樣品及劣化體的大致分子量,對分子量標記物(包 括 97 KDa、66 KDa、45 KDa、30 KDa、20 KDa、14 KDa 之蛋白質)同時進行電泳。 非還原SDS-PAGE鑑定:根據需要將樣品溶液稀釋成400 pg/mL 〇 於樣品溶液中力口入 LDS Sample Buffer (Invitrogen 公司製)、H20,製成非還原樣品溶液。於電泳糟中加滿電 泳用 Tris-Acetate SDS Running buffer (Invitrogen公司製)。 將 5 pL試料溶液供於 3〜8%Tris-Acetate Gel (Invitrogen公司 製),於約125 V固定電壓下進行電泳,直至試料溶液中所 含之溴酚藍之藍色移動至凝膠之下端付近。將電泳結束後 之凝膠進行銀染色,並進行檢測。再者,為判定樣品及劣 化體之大致分子量,而對分子量標記物(包括220 KDa、 116 KDa、97·4 KDa、63.3 KDa、54.4 KDa、36.5 KDa之蛋 白質)同時進行電泳。 滲透壓比:使用自動渗透壓測定裝置(Arkray公司製 OSMO STATION OM-6050)進行滲透壓測定,同時計算其 124402.doc -32- 200826974 相對於所測定之生理食鹽之水滲透壓的比。ρΗ值:使用自 動ΡΗ值測定裝置(METTLER T〇LEDc^v司製Μρ·23〇等)進 行pH值測定。於測定開始時使用阳值4、阳值7、值9之 標準溶液進行校正,然後進行測定。 水刀測疋·使用連接有自動水分氣化裝置(平沼產業公 司製LE-20SA)之微量水分測定裝置(平沼產業公司製外 2000)進行水分量測定,以計算含濕度。 ο υ (4)結果及考察 圖1表示將各冷凍乾燥製劑於25t及4〇t下保存時之聚 合物的變化。聚合物量係藉由大小排斥層析進行測定。於 僅將丙胺酸作為賦形劑之製劑中,於4Gt下保存丨個月確 認聚合物增加有約5%、於下保存3個月確認聚合物增 加有約9% 1丙胺酸及氯化納為賦形劑之製劑中,藉由 於再溶解後以肉眼進行目測檢查,而仙異物、混濁,日聚 合物的增加亦多’為不安定。與海藻糖、魏組合之製劑 中’即使於40t下保存3個月亦未確認聚合物之增加,為 非常,定。可明確,藉由將上述所使用之多元醇(海藻 糖、薦糖)組合入丙胺酸中,而戲劇性地抑制聚合物,提 示其安定性高。又’於其他分析項目(餅狀、異物、混 濁、分解物、不溶性微粒子、去醯胺體、氧化體)中,丙 胺酸與多元醇組合而成之製劑,於施加熱壓力負荷前後幾 乎未發現有變化,為安定。 根據本實施例,可判明以作為使抗體衫化的冷來乾燥 製劑的賦形劑’較好的是丙胺酸與多元醇之組合。較好的 124402.doc -33- 200826974 是使用非晶質之多元醇,更好的是使用為非還原且非晶質 之多元醇,最好的是使用海藻糖、蔗糖作為多元醇。 實施例2蔗糖/丙胺酸比 由實施例1可明瞭,作為與丙胺酸組合之多元醇,最好 的是海藻糖或蔗糖。 本實施例中,使用蔗糖作為多元醇,將丙胺酸濃度設為 固定,改變與丙胺酸混合之蔗糖濃度,而對抑制聚合物之 最佳濃度比率R進行研究。此處,R表示冷凍乾燥生成物 中所存在之蔗糖質量/丙胺酸質量。 使用國際公開第W02003/033538號案中所記載之針對 HLA-DR之抗體(抗HLA-DR抗體、IgGl)作為抗體,而製備 冷凍乾燥製劑。 本實施例中,製備表2中所表示之製劑,對與丙胺酸組 合之蔗糖之較好的濃度進行詳細研究。 [表2] 供於本實施例之製劑一覽 抗體濃度 緩衝劑 賦形劑 界面活性劑 pH值 R 1 10 mg/mL 抗 HLA-DR 抗體 10 mmol/L 麩胺酸 20 mg/mL 丙胺酸 50 mg/mL 蔗糖 0.05 mg/mL 聚山梨醇酯 80 5.5 2.5 2 40 mg/mL 2 3 35 mg/ml 1.75 4 30 mg/mL 1.5 5 25 mg/mL 1.25 6 20 mg/mL 1 7 15 mg/mL 0.75 8 10 mg/mL 0.5 9 5 mg/mL 0.25 10 0 (1)材料及方法 本實施例所使用之材料及分析方法,與實施例1中所示 124402.doc -34- 200826974 者相同。 (2)試驗條件 以與實施例!所表示方法同樣之方式,於溫度控制在 25 C或4(TC之培養箱(TABAI _c公司製)中保存^個月及 3個月,實施熱安定性試驗。又,自施加熱壓力負荷後至 分析開始,將各樣品保存於溫度控制在代之低溫庫中。 (3)結果及考察The preparation may be administered to a mammal, preferably a human, in a known manner, for example, as a globule, or intravenously administered intramuscularly, intraperitoneally, intracerebally, within a certain period of time. , subcutaneous, intracardiac, intratracheal, intraarachnoid, oral, topical, or via: infusion. In a preferred embodiment, the formulation can be administered to a mammal by intravenous administration. To achieve this (4), the formulation is injected, for example, using a syringe or via a drip tube.实施 Embodiments The present invention will be described in more detail with reference to the following embodiments without restricting the invention. For example, the invention can be fully understood. However, the scope of such inventions. Based on the description of the present invention, the modifications and modifications are also included in the present invention. The combination of alanine and various excipients of Example 1 is used in the case of the above-mentioned invention. 124402.doc -28 - 200826974, in the case of International Publication No. WO2003/033538 The antibody against HLA-DR (anti-HLA-DR antibody, IgG1) described above was used as an antibody to prepare a freeze-dried preparation. In this example, the formulations shown in Table 1 were prepared and a detailed study was conducted with suitable excipients in combination with alanine. [Table 1] List of preparations for use in this example Antibody concentration buffer Excipient surfactant pH 1 10 mg/mL Anti-HLA-DR antibody 10 mmol/L Glutamate 20 mg/mL Alanine ^^ 0.05 Mg/mL Polysorbate 80 5.5 2 30 mg/mL Trehalose 3 Sucrose 4 Preparation of sodium chloride (1) preparation sample The test used in this study was an anti-HLA-DR antibody (about 20 mg/mL). According to the method described in International Publication No. WO2003/0033538, at the Institute of Pharmaceutical Production Technology of Kirin Brewery Co., Ltd. (after July 1, 2007, at the Institute of Production Technology of Kirin Pharmaceutical Co., Ltd., Japan) I) L-glutamate monohydrate (Japanese Pharmacopoeia prescription), alanine (Ala, Japanese Pharmacopoeia), trehalose (Tor, Japanese Pharmacopoeia), sucrose (Sue, Pharmacy) Fang), sodium chloride (NaC 曰 曰 曰 曰 )), hydrochloric acid (Japanese Pharmacopoeia), polysorbate 80 (Japanese Pharmacopoeia), water for injection (曰 药 局). Each of the preparation samples was prepared by previously preparing a pseudo drug solution containing no original drug, and replacing the anti-HLA-DR antibody solution with the preparation pseudo drug solution using a NAP column (Pharmacia Biotech). Further, the protein concentration was adjusted by using the OD280 nm absorbance coefficient ε=1.4 for 124402.doc -29-200826974, and the concentration was adjusted. Each of the preparation samples was sterile-filtered using a 0.22 μηχ filter (manufactured by MHhpore) in a Clean Bench, and each 1 mL of the filtrate was filled in a 5 mL glass vial (suitable for the Japanese Pharmacopoeia). After filling, it was semi-capped with a rubber stopper, and cold-cooled using a cold beam dryer manufactured by Sakamoto Vacuum Technology Co., Ltd.; In addition, in a sterile dust-free workbench (4) 0.22 μηι bottle cap filter (Nalgene), the anti-HLA_DR antibody-containing solution (pseudo-pharmaceutical solution) used to dilute the analysis sample and the analysis blank is used for sterile filtration. (2) The test conditions were carried out in the present embodiment, and pressure was applied to each of the preparation samples under the following conditions for the stability evaluation. / Thermal stability test: an incubator with a temperature control of 40 < t or 25 < t (TABAI ESPEC) In the middle, save for months and 3 months. In addition, from the heat stress load to the start of the analysis, 'store each sample in a low temperature library controlled at 4 °C. (3) Analytical method Visual appearance ··· Under the light, the shape of the cake was observed with the naked eye, and the appearance was described. The following analysis was performed after visual observation, and then re-dissolved by adding j mL of water for injection, and then analyzed. Insoluble foreign matter and turbidity: white light source Below, at a position of about 5 〇〇〇 - to visually check for the presence or absence of insoluble foreign matter and turbidity. Size exclusion HPLC identification (SEC): polymer content and decomposition content, 12 4402.doc -30 - 200826974 is calculated by size exclusion high-speed liquid chromatography. The sample is diluted to 1 mg/mL as needed, and 20 μιη at ambient temperature. The separation system uses TSK gel G3000 SWXL 30 Cmx 7.8 mm. (TOSOH company) column, using 20 mmol / L sodium phosphate, 500 mmol / L sodium chloride pH 7.0 as the mobile phase, at a flow rate of 0.5 mL / min, analysis time of 30 minutes, at 215 nm The test will be carried out as a polymer before the main peak, and will be defined as a decomposition product after the main peak. Cation exchange HPLC identification (IEC): Deamination content using cation exchange high-speed liquid chromatography Calculated by injecting 60 pL into a sample diluted to 5 mg/mL. TSK gel BIO Assist S (manufactured by TOSOH) was used as a separation column and was detected at 280 nm. As a mobile phase, 20 mM tartaric acid was used for phase A. pH 4.5, for phase B using 20 mM tartaric acid, 1 Μ sodium chloride pH 4.5, using the most suitable gradient conditions for analysis. Furthermore, the degraded material that will elute in front of the main peak is defined as deammonium. (HIC) ·· The content of the oxidant was calculated by hydrophobic chromatography. The sample treatment solution (2 〇mm〇i/L sodium phosphate, 0.984 mol/L ammonium sulfate, 7.5 mmol/L methionine) was appropriately diluted into 20 pL. A sample of 1 mg/mL was used for analysis and detection at 215 nm using TSK gel Butyl-NPR (manufactured by TOSOH) as a separation column. The mobile phase system uses 2〇mmol/L sodium acetate and ρΗ 6·5 as phase A; using 20 mm〇i/L sodium citrate, 1.2 mol/L sulfuric acid, and ρΗ 6·5 as phase B, the most Analyze the gradient conditions as appropriate. Further, the deteriorated substance which is eluted in front of the main peak is defined as an oxide. Reduction SDS-PAGE Identification · The sample solution was diluted to 400 124402.doc -31 - 200826974 pg/mL as needed. SDS Sample Buffer (manufactured by Invitrogen), Sample Reducing Agent (manufactured by Invitrogen), and H2 oxime were placed in a sample solution, and heated at 95 ° C for 5 minutes to prepare a reduced sample solution. In the swimming turmoil, Tris-Glycine SDS Running buffer (Invitrogen) was used for electrophoresis. 5 μL of the sample solution was added to 4 to 20% Tris_Glycine Gel (manufactured by Invitrogen), and electrophoresis was carried out at a fixed voltage of about 125 V until the blue color of bromophenol blue contained in the sample solution was moved to the vicinity of the lower end of the gel. The gel after the completion of the electrophoresis was subjected to silver staining and detected. Further, in order to determine the approximate molecular weight of the sample and the deteriorated body, molecular weight markers (including proteins of 97 KDa, 66 KDa, 45 KDa, 30 KDa, 20 KDa, and 14 KDa) were simultaneously subjected to electrophoresis. Non-reducing SDS-PAGE identification: Dilute the sample solution to 400 pg/mL as needed. LInto the sample solution, insert LDS Sample Buffer (Invitrogen) and H20 to prepare a non-reducing sample solution. The electrophoresis was filled with Tris-Acetate SDS Running buffer (manufactured by Invitrogen). 5 pL of the sample solution was supplied to a 3 to 8% Tris-Acetate Gel (Invitrogen), and electrophoresis was carried out at a fixed voltage of about 125 V until the blue color of the bromophenol blue contained in the sample solution was moved to the lower end of the gel. Pay close. The gel after the completion of the electrophoresis was subjected to silver staining and detected. Further, in order to determine the approximate molecular weight of the sample and the inferior body, the molecular weight markers (including 220 KDa, 116 KDa, 97.4 KDa, 63.3 KDa, 54.4 KDa, 36.5 KDa protein) were simultaneously subjected to electrophoresis. Osmotic pressure ratio: The osmotic pressure measurement was carried out using an automatic osmotic pressure measuring device (OSMO STATION OM-6050, manufactured by Arkray Co., Ltd.), and the ratio of the water osmotic pressure of 124402.doc - 32 - 200826974 to the measured physiological salt was calculated. ρ Η value: The pH value was measured using an automatic enthalpy measuring device (METTLER T〇LEDc^v system Μρ·23〇, etc.). At the beginning of the measurement, the standard solution having a positive value of 4, a positive value of 7, and a value of 9 was used for the calibration, and then the measurement was carried out. The water-jet test was carried out, and the moisture content was measured using a trace moisture measuring device (manufactured by Hiranuma Sangyo Co., Ltd., LE-20SA) connected to an automatic moisture gasification device (manufactured by Hiranuma Sangyo Co., Ltd.) to calculate the moisture content. ο υ (4) Results and investigation Fig. 1 shows changes in the polymer when each lyophilized preparation was stored at 25 t and 4 Torr. The amount of polymer was determined by size exclusion chromatography. In the preparation containing only alanine as an excipient, it was confirmed to be stored at 4 Gt for 2 months, and it was confirmed that the polymer was increased by about 5%, and after 3 months of storage, it was confirmed that the polymer increased by about 9%. 1 Alanine and sodium chloride. In the preparation of the excipient, it was visually inspected by the naked eye after re-dissolution, and the increase in the foreign matter, turbidity, and daily polymer was also "unstable." In the preparations combined with trehalose and Wei, the increase in the polymer was not confirmed even after storage for 3 months at 40t, which was very high. It is clear that by incorporating the above-mentioned polyol (trehalose, ginseng) into alanine, the polymer is dramatically suppressed, indicating that the stability is high. In addition, in other analytical items (cakes, foreign bodies, turbidity, decomposition products, insoluble fine particles, deaminating substances, oxidants), a combination of alanine and a polyol was hardly found before and after applying a heat and pressure load. There are changes, for stability. According to the present embodiment, it is considered that the excipient which is a cold-dried preparation for tying the antibody is preferably a combination of alanine and a polyhydric alcohol. Preferably, 124402.doc -33- 200826974 is an amorphous polyol, more preferably a non-reducing and amorphous polyol, and most preferably trehalose or sucrose is used as the polyol. Example 2 sucrose/alanine ratio It is clear from Example 1. As the polyol in combination with alanine, trehalose or sucrose is preferred. In the present example, sucrose was used as a polyol, the concentration of alanine was fixed, and the sucrose concentration mixed with alanine was changed, and the optimum concentration ratio R of the inhibiting polymer was examined. Here, R represents the sucrose mass/alanine mass present in the freeze-dried product. A freeze-dried preparation was prepared by using an antibody against HLA-DR (anti-HLA-DR antibody, IgG1) described in International Publication No. WO2003/033538 as an antibody. In the present example, the preparations shown in Table 2 were prepared, and a better concentration of sucrose combined with alanine was studied in detail. [Table 2] List of preparations for this example Antibody concentration buffer Excipient surfactant pH value R 1 10 mg/mL Anti-HLA-DR antibody 10 mmol/L Glutamate 20 mg/mL Alanine 50 mg /mL Sucrose 0.05 mg/mL Polysorbate 80 5.5 2.5 2 40 mg/mL 2 3 35 mg/ml 1.75 4 30 mg/mL 1.5 5 25 mg/mL 1.25 6 20 mg/mL 1 7 15 mg/mL 0.75 8 10 mg/mL 0.5 9 5 mg/mL 0.25 10 0 (1) Materials and Methods The materials and analytical methods used in this example were the same as those shown in Example 1 of 124402.doc-34-200826974. (2) Test conditions and examples! In the same manner as the method indicated, the thermal stability test was carried out by holding the temperature control at 25 C or 4 (TC incubator (TABAI _c) for ^month and 3 months. Again, after applying the heat and pressure load At the beginning of the analysis, each sample was stored in a temperature controlled sub-zero reservoir. (3) Results and investigation
圖2表示將各冷凍乾燥製劑於25它及4〇它下保存時之聚 合物之變化。聚合物量係藉由大小排斥層析進行測定。可 明確,隨著所混合之餘f量增加可抑制聚合物生成,且 顯示出於純25至R=2.5之範圍内為安^。進而,於伽 PAGE分析中,亦獲得可見與以大小排斥層析而獲得之結 果相同之傾向的泳動圖像。 ,本實施例中所研究之任—濃度下,均形成餅狀,尤其是 形成R=1.5以下之完整的餅’表現出可經受長期保存之形 狀。又,於其他分析項目(異物、混濁、不溶性微粒子、 去酿胺體、氧化體)中’亦幾乎未確認熱壓力負荷前後之 變化,為安定。 於本實施财’明確有與作為使抗體安定化之冷殊乾燥 製劑之賦形劑的,與丙胺酸組合之最佳蔗糖質量比率以蔗 糖質量/丙胺酸質量)。安定性良好之尺為〇.25以上,較好= 是〇.5至2.5,更好的是丨至2,更好的是〇.75至2。最好的是 實施例3抗體濃度之影響研究 124402.doc -35- 200826974 使用國際公開第W02003/033538號案所記載之針對HLA-DR之抗體(抗HLA-DR抗體、IgGl)作為抗體,而製備冷凍 乾燥製劑。 本實施例中,製備表3中所表示之製劑,對使實施例2中 所獲得抗體安定化為最佳之蔗糖/丙胺酸處方(R= 1.5)對抗 體濃度不同之製劑所造成之影響進行評價。此處,將q作 為抗體質量與丙胺酸質量之比。即,Q表示冷凍乾燥製劑 中之抗體質量/丙胺酸質量。 [表3] 供於本實施例之製劑一覽 抗體濃度 抗體種類 賦形劑 界面活性劑 pH值 〇 1 60 mg/mL 抗 HLA-DR 抗體 20 mg/mL 丙胺酸 30 mg/mL 蔗糖 0.05 mg/mL 聚山梨醇酯80 5.5 V 3 1.5 0.5 0.05 2 30 mg/mL 3 10 mg/mL 4 1 mg/mL 5 10 mg/mL 0.5 -36 - 200826974 =二:聚合物量係利用大小排斥層析進行測定。抗 取兩漢度(抗體量亦最多)之㈣之製劑 下保存3個月後’聚合物約為2%。一般而言,已一 抗體濃度變高則聚合物生成量增加,且變得不安定右 實施例i之抗體濃度為1〇 一、丙胺酸單獨處方之: L可明I瞭’若考慮於赋下保存3個月後之聚合物量: :、"。貞可充分抑制聚合物生成。再者,關於抗體濃声 為最低濃度(抗體量為最少)iQ=〇.〇5之製劑,幾乎未確: 於施加壓力負荷前後之變化,為安定。又,於其他分析項^ 目(異物、混濁、分解物、去醯胺體、氧化體)中,亦幾乎 未發現施加壓力負荷前後之變化,為安定。 於本實施例中可明瞭,藉由含有相對於Q=〇〇5至3、以 R=1.5之比率含有丙胺酸/蔗糖,而獲得安定的冷凍乾燥製 劑。即,揭示有,安定的冷凍乾燥製劑,係以抗體質量與 丙胺酸質置與蔗糖質量之3成分之質量比為1:〇·3〜2〇:〇·5〜3〇 的範圍之冷凍乾燥製劑形式而獲得。於以抗體質量相對於 丙胺酸質量與蔗糖質量之合計的比來表示之情形時(將抗 體質量设為1) ’為1:5/6〜50,較好的是1:1〜2〇,更好的是 1:1〜10,尤其好的是1:5。 實施例4利用其他抗體之研究 本研究中,關於對使實施例2中所得抗體安定化之最佳 的丙胺酸/蔗糖處方(RU),係使用國際公報第 WOO563981號案中所公開之針對cd4〇之重組完全人類 IgG4抗體4D11(抗CD40抗體)來研究製劑之安定性。 124402.doc 37 200826974 示之製劑,評價抗體之種 本實施例中’製備表4中所表 類對製劑安定性造成之影響。 [表4] 供於本實施例之覽Figure 2 shows the change in polymer when each lyophilized formulation was stored under 25 ounces of it. The amount of polymer was determined by size exclusion chromatography. It is clear that the polymer formation is inhibited as the amount of f added increases, and it is shown to be in the range of 25 to R = 2.5. Further, in the gamma analysis, a swimming image in which the same tendency as that obtained by size exclusion chromatography was observed was also obtained. In the present embodiment, the cake was formed at any concentration, especially in the form of a whole cake having R = 1.5 or less, which exhibited a shape which can withstand long-term storage. In addition, in other analysis items (foreign matter, turbidity, insoluble fine particles, de-alcohol, oxidized body), the change before and after the heat stress load was hardly confirmed, and it was stable. In the present implementation, it is clear that the optimum sucrose mass ratio in combination with alanine as the excipient of the cold-stable dry preparation for stabilizing the antibody is sorbose mass/alanine mass). The measure of good stability is 〇.25 or more, preferably = 〇.5 to 2.5, more preferably 丨 to 2, more preferably 〇.75 to 2. The best effect of the antibody concentration in Example 3 is 124402.doc-35-200826974. The antibody against HLA-DR (anti-HLA-DR antibody, IgG1) described in International Publication No. WO2003/033538 is used as an antibody. A lyophilized preparation was prepared. In the present example, the preparations shown in Table 3 were prepared, and the effects of the preparation of the sucrose/alanine prescription (R = 1.5) which stabilized the antibody obtained in Example 2 on the preparations having different antibody concentrations were carried out. Evaluation. Here, q is taken as the ratio of the mass of the antibody to the mass of the alanine. Namely, Q represents the mass of the antibody/alanine in the freeze-dried preparation. [Table 3] List of preparations for this example Antibody concentration Antibody type Excipient surfactant pH 〇1 60 mg/mL Anti-HLA-DR antibody 20 mg/mL Alanine 30 mg/mL Sucrose 0.05 mg/mL Polysorbate 80 5.5 V 3 1.5 0.5 0.05 2 30 mg/mL 3 10 mg/mL 4 1 mg/mL 5 10 mg/mL 0.5 -36 - 200826974 = 2: The amount of polymer was determined by size exclusion chromatography. The compound (4) which was resistant to two degrees (the most antibody amount) was kept for 3 months and the polymer was about 2%. In general, when the concentration of an antibody becomes high, the amount of polymer produced increases, and it becomes unstable. The antibody concentration of the right example i is 1 、, and the apricotic acid is separately prescribed: L can be clearly I. The amount of polymer after 3 months of storage: :, ".贞 can sufficiently inhibit polymer formation. Furthermore, the formulation in which the antibody concentration is the lowest concentration (the minimum amount of antibody) iQ = 〇. 〇 5 is almost undefined: the change before and after the application of the pressure load is stability. Further, in the other analysis items (foreign matter, turbidity, decomposition product, deamamine, oxidized body), almost no change was observed before and after the application of the pressure load, and it was stable. In the present embodiment, it is understood that a stable freeze-dried preparation is obtained by containing alanine/sucrose in a ratio of R = 1.5 with respect to Q = 〇〇 5 to 3. That is, it is disclosed that the stable freeze-dried preparation is freeze-dried in a mass ratio of the mass of the antibody to the three components of the alanine and the sucrose mass of 1:1·3~2〇:〇·5~3〇. Obtained in the form of a preparation. In the case where the ratio of the antibody mass to the total of the mass of the alanine and the mass of the sucrose is expressed (the mass of the antibody is set to 1) '1:5/6 to 50, preferably 1:1 to 2 Å, Better is 1:1~10, especially good 1:5. Example 4 Study using other antibodies In this study, the best alanine/sucrose prescription (RU) for the stabilization of the antibody obtained in Example 2 was used for the cd4 disclosed in International Publication No. WO05563981. The recombinant human IgG4 antibody 4D11 (anti-CD40 antibody) was recombined to study the stability of the preparation. 124402.doc 37 200826974 Formulations shown, evaluation of antibody species In this example, the effects of the formulations shown in Table 4 on the stability of the formulation were determined. [Table 4] For the purpose of this embodiment
(1)材料及方法(1) Materials and methods
本實施例所使用之材斜乃八& 士 a t 一 何寸十及刀析方法,與貫施例丨中所表 示者相同。R=1.5, q=0.5,丙胺酸及嚴糖質量與抗體質量 之比為1:5。 (2) 試驗條件 以與實施例1中所揭示方法同樣之方式,於溫度控制在 25C或40°C之培養WTABAI ESpEC公司製)中保存i個月及 3個月,只鈿熱安定性試驗。又,自施加熱壓力負荷後至 刀析開始,將各樣品保存於溫度控制在4它之低溫庫中。 (3) 結果及考察 圖4表不將各冷凍乾燥製劑於40°C下保存時之聚合物之 文化(初始比·係除以冷凍乾燥前之聚合物量而獲得之 值,將冷凍乾燥前之值設為1)。聚合物量係利用大小排斥 HPLC進行測定。於抗CD4〇抗體中,於使用丙胺酸及蔗糖 作為賦形劑之製劑中,確認有對保存期間之聚合物生成之 抑制與_度及時間無關,本製劑中之抗體可安定地獲得 保持。又’於其他分析項目(異物、混濁、分解物、去醯 胺體、氧化體)中,亦幾乎未確認施加熱壓力負荷前後之 124402.doc -38- 200826974 變化’為安定。 於本實施例中可判明:以丙胺酸及薦糖為賦形劑之安定 的冷凍乾燥製劑,無論其抗體為何種類均安定。 將本說明書中所引用之全部出版物、專利及專利申請直 、 接作為參考而摘入本說明書中。 【圖式簡單說明】 圖1係表示於25。(:或40。(;下保存各冷凍乾燥製劑時聚合 Γ ?量之變化之®。聚合物量係制大小排斥HPLC進行測 定。於單獨使用丙胺酸時,顯示聚合物形成顯著,但與丙 胺酸與海藻糖及/或蔗糖之組合之製劑為安定。 圖2係表示於25t:或4(rc下保存各冷凍乾燥製劑時聚合 物畺之麦化之圖。聚合物量係利用大小排斥HpLc進行测 定。作為丙胺酸與所組合之蔗糖之比的尺為〇25至2·5之製 劑顯示為安定。 圖3係表不於25°C或40°C下保存各冷凍乾燥製劑時聚合 Ο 物量之變化之圖。聚合物量係利用大小排斥HPLC進行測 疋。Q(抗體質量與丙胺酸質量之比)為0 05至3之製劑顯示 為安定。 -圖4係表示於251或4(rc下保存各冷凍乾燥製劑時聚合 ,物量之變化之圖。聚合物量係利用大小排斥hplc進行測 疋。於抗HLA-DR抗體及抗CD40抗體中,以丙胺酸及蔗糖 為賦形劑之冷凍乾燥製劑顯示為安定。 124402.doc -39-The material used in this embodiment is the same as the one shown in the example. R = 1.5, q = 0.5, and the ratio of alanine and Yan sugar mass to antibody mass is 1:5. (2) The test conditions were stored in the same manner as in the method disclosed in Example 1 at a temperature controlled at 25 C or 40 ° C in a culture of WTABAI ESpEC) for one month and three months, and only the heat stability test was carried out. . Further, from the application of the heat and pressure load to the start of the knife-cutting, each sample was stored in a temperature-controlled low temperature reservoir. (3) Results and investigations Figure 4 shows the culture of the polymer when each lyophilized preparation was stored at 40 ° C (initial ratio was obtained by dividing the amount of polymer before lyophilization, before lyophilization) The value is set to 1). The amount of polymer was determined by size exclusion HPLC. Among the anti-CD4 〇 antibodies, in the preparation using alanine and sucrose as excipients, it was confirmed that the inhibition of the formation of the polymer during storage was independent of the degree and time, and the antibody in the preparation was stably maintained. Further, in other analysis items (foreign matter, turbidity, decomposition product, deaminating amine, oxidized body), it was hardly confirmed that the change of 124402.doc -38-200826974 before and after the application of the heat stress load was stability. In the present example, it was found that a stable freeze-dried preparation using alanine and a recommendation sugar as an excipient is stable regardless of the type of the antibody. All publications, patents and patent applications cited in this specification are hereby incorporated by reference. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is shown at 25. (: or 40. (;; the amount of change in the amount of polymerization enthalpy when each lyophilized preparation was stored. The amount of polymer was determined by size exclusion HPLC. When alanine was used alone, the polymer formation was marked, but with alanine The preparation with the combination of trehalose and/or sucrose is diazepam. Fig. 2 is a diagram showing the wheatification of the polymer oxime when each lyophilized preparation is stored at 25t: or 4 (rc). The amount of the polymer is determined by size exclusion HpLc. The formulation having a ratio of alanine to the combined sucrose of 〇25 to 2.5 showed stability. Figure 3 shows the amount of polymeric chelating agent when each lyophilized preparation was stored at 25 ° C or 40 ° C. The graph of the change. The amount of polymer was measured by size exclusion HPLC. The formulation of Q (the ratio of antibody mass to alanine mass) of 0 05 to 3 showed stability. - Figure 4 shows the preservation at 251 or 4 (rc) The graph of the polymerization and the amount of change in each freeze-dried preparation. The amount of the polymer was measured by size exclusion hplc. In the anti-HLA-DR antibody and anti-CD40 antibody, the freeze-dried preparation with alanine and sucrose as excipients showed For stability. 124402.do c -39-
Claims (1)
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2006243144 | 2006-09-07 |
Publications (1)
Publication Number | Publication Date |
---|---|
TW200826974A true TW200826974A (en) | 2008-07-01 |
Family
ID=39157331
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
TW096133613A TW200826974A (en) | 2006-09-07 | 2007-09-07 | Stable lyophilized pharmaceutical preparation comprising antibody |
Country Status (3)
Country | Link |
---|---|
JP (1) | JPWO2008029908A1 (en) |
TW (1) | TW200826974A (en) |
WO (1) | WO2008029908A1 (en) |
Families Citing this family (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP5515074B2 (en) * | 2008-12-08 | 2014-06-11 | 杏林製薬株式会社 | Orally rapidly disintegrating tablets |
WO2012028683A1 (en) | 2010-09-02 | 2012-03-08 | Novartis Ag | Antibody gel system for sustained drug delivery |
AU2011316111B2 (en) * | 2010-10-12 | 2015-05-28 | Merz Pharma Gmbh & Co. Kgaa | Formulation suitable for stabilizing proteins, which is free of mammalian excipients |
TR201909531T4 (en) | 2010-11-05 | 2019-07-22 | Novartis Ag | ANTI-IL-17 ANTIBODIES USING ANKILOSANE SPONDILITE TREATMENT METHODS |
US20210047407A1 (en) * | 2018-02-08 | 2021-02-18 | Amgen Inc. | Low ph pharmaceutical antibody formulation |
UA128098C2 (en) | 2019-02-18 | 2024-04-03 | Елі Ліллі Енд Компані | Therapeutic antibody formulation |
WO2024100130A1 (en) * | 2022-11-11 | 2024-05-16 | Merck Patent Gmbh | Thermostable vaccin formulations and process for preparing the same |
Family Cites Families (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP0852951A1 (en) * | 1996-11-19 | 1998-07-15 | Roche Diagnostics GmbH | Stable lyophilized monoclonal or polyclonal antibodies containing pharmaceuticals |
DE10163459A1 (en) * | 2001-12-21 | 2003-07-03 | Merck Patent Gmbh | Lyophilized preparation containing antibodies to EGF receptor |
-
2007
- 2007-09-07 TW TW096133613A patent/TW200826974A/en unknown
- 2007-09-07 WO PCT/JP2007/067481 patent/WO2008029908A1/en active Application Filing
- 2007-09-07 JP JP2008533208A patent/JPWO2008029908A1/en not_active Withdrawn
Also Published As
Publication number | Publication date |
---|---|
WO2008029908A1 (en) | 2008-03-13 |
JPWO2008029908A1 (en) | 2010-01-21 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
TWI353253B (en) | ||
US20210000954A1 (en) | Stable anti-pd-1 antibody pharmaceutical preparation and application thereof in medicine | |
KR102397713B1 (en) | Stable Liquid Pharmaceutical Formulation | |
ES2925992T3 (en) | Stable formulations of polypeptides | |
EP2648750B1 (en) | Antibody formulation | |
ES2827180T3 (en) | Stable Antibody Formulations | |
KR101782301B1 (en) | Highly concentrated pharmaceutical formulations comprising anti-cd20 antibody | |
JP7407118B2 (en) | Low pH pharmaceutical antibody preparation | |
TW201919710A (en) | Formulation of antibody-drug conjugate and lyophilization method thereof | |
WO2004071439A2 (en) | Immunoglobulin formulation and method of preparation thereof | |
TW200815029A (en) | Anti-IGF-1R human monoclonal antibody formulation | |
KR20160034307A (en) | Stabilized antibody compositions | |
CA2783715A1 (en) | Novel antibody formulation | |
TW200826974A (en) | Stable lyophilized pharmaceutical preparation comprising antibody | |
ES2974895T3 (en) | Liquid formulation comprising a GM-CSF neutralizing compound | |
KR20170065662A (en) | Anti-il-7r antibody compositions | |
KR20200128115A (en) | Anti-PD-1 antibody composition | |
CA3064470A1 (en) | Pharmaceutical composition comprising c-met antibody-drug conjugate and use thereof | |
CN111683681B (en) | Formulations comprising anti-OX 40 antibodies, methods of making, and uses thereof | |
KR20180069906A (en) | Anti-Factor D antibody preparation | |
CN112618482A (en) | Novel protein formulations |