JP2666214B2 - Antibody and method for producing anti-caries agent containing the same as an active ingredient - Google Patents
Antibody and method for producing anti-caries agent containing the same as an active ingredientInfo
- Publication number
- JP2666214B2 JP2666214B2 JP63070331A JP7033188A JP2666214B2 JP 2666214 B2 JP2666214 B2 JP 2666214B2 JP 63070331 A JP63070331 A JP 63070331A JP 7033188 A JP7033188 A JP 7033188A JP 2666214 B2 JP2666214 B2 JP 2666214B2
- Authority
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- Prior art keywords
- antibody
- water
- gtf
- producing
- fraction
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Classifications
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61Q—SPECIFIC USE OF COSMETICS OR SIMILAR TOILETRY PREPARATIONS
- A61Q11/00—Preparations for care of the teeth, of the oral cavity or of dentures; Dentifrices, e.g. toothpastes; Mouth rinses
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K8/00—Cosmetics or similar toiletry preparations
- A61K8/18—Cosmetics or similar toiletry preparations characterised by the composition
- A61K8/30—Cosmetics or similar toiletry preparations characterised by the composition containing organic compounds
- A61K8/64—Proteins; Peptides; Derivatives or degradation products thereof
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61K—PREPARATIONS FOR MEDICAL, DENTAL OR TOILETRY PURPOSES
- A61K8/00—Cosmetics or similar toiletry preparations
- A61K8/18—Cosmetics or similar toiletry preparations characterised by the composition
- A61K8/96—Cosmetics or similar toiletry preparations characterised by the composition containing materials, or derivatives thereof of undetermined constitution
- A61K8/99—Cosmetics or similar toiletry preparations characterised by the composition containing materials, or derivatives thereof of undetermined constitution from microorganisms other than algae or fungi, e.g. protozoa or bacteria
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- Health & Medical Sciences (AREA)
- Life Sciences & Earth Sciences (AREA)
- Veterinary Medicine (AREA)
- Animal Behavior & Ethology (AREA)
- General Health & Medical Sciences (AREA)
- Public Health (AREA)
- Birds (AREA)
- Epidemiology (AREA)
- Oral & Maxillofacial Surgery (AREA)
- Engineering & Computer Science (AREA)
- Biotechnology (AREA)
- Tropical Medicine & Parasitology (AREA)
- Cosmetics (AREA)
- Medicines Containing Antibodies Or Antigens For Use As Internal Diagnostic Agents (AREA)
Description
【発明の詳細な説明】 (産業上の利用分野) 本発明は、齲蝕を誘発する病原菌であるストレプトコ
ッカス・ミュータンス(Streptococcus mutans)が産
生する水不溶性グルカン合成酵素(グルコシルトランス
フェラーゼ,GTF−1と略記する)に対して阻害活性を有
する抗体及び該抗体を有効成分として含む齲蝕予防剤の
製造方法に関する。The present invention relates to a water-insoluble glucan synthase (glucosyltransferase, GTF-1) produced by Streptococcus mutans, a pathogenic bacterium that induces dental caries. The present invention relates to an antibody having an inhibitory activity against C.) and a method for producing a caries preventive agent comprising the antibody as an active ingredient.
(従来の技術) 齲蝕の発生において、S.mutansの歯面への付着過程が
重要な役割を果たしていることが既に知られており、S.
mutansの口腔内への定着(歯面への付着)を制御して、
齲蝕を予防しようとする種々の試みが成されている。(Prior art) It is already known that the attachment process of S. mutans to the tooth surface plays an important role in the development of dental caries.
By controlling mutans' fixation in the oral cavity (adhesion to the tooth surface)
Various attempts have been made to prevent caries.
例えば、S.mutansに対する免疫活性を有する抗体を用
いた齲蝕予防方法が知られており、英国特許第1505513
号明細書には、S.mutansの菌体で免疫した牛から得られ
た母乳をS.mutansの口腔内定着の制御に用いる方法が、
又特開昭60−38327号公報には、S.mutansの培養から得
た細胞壁等の画分を哺乳動物に免疫することによって得
られた抗血清及び/又は乳と、グルコシルトランスフェ
ラーゼインヒビター、プロテアーゼ及びデキストラナー
ゼからなる群より選ばれる1種以上のシネルギストとを
組み合わせた齲蝕予防剤が掲載されている。For example, a method of preventing dental caries using an antibody having immunological activity against S. mutans is known, and is disclosed in British Patent No. 1505513.
The specification describes a method of using breast milk obtained from a cow immunized with S. mutans cells for controlling the oral colonization of S. mutans,
Japanese Patent Application Laid-Open No. 60-38327 discloses an antiserum and / or milk obtained by immunizing a mammal with a fraction such as a cell wall obtained from a culture of S. mutans, a glucosyltransferase inhibitor, a protease and An anti-caries agent is described in combination with one or more synergists selected from the group consisting of dextranase.
(発明が解決しようとする課題) しかしながら、従来のS.mutansに免疫活性を有する抗
体の齲蝕予防効果は必ずしも十分ではなく、又、従来の
抗体は、免疫した哺乳動物の乳やその抗血清から調製さ
れるので、量産性に欠け、生産コストも高いなどの欠点
を有し、実用的ではない場合が多い。(Problems to be solved by the invention) However, the anti-caries effect of the conventional antibody having immunological activity on S. mutans is not always sufficient, and the conventional antibody cannot be obtained from milk of an immunized mammal or its antiserum. Since it is prepared, it has disadvantages such as lack of mass productivity and high production cost, and is often impractical.
本発明者らは、このような従来技術における問題を解
決すべく種々の検討を行った結果、鶏を用いた抗体の調
製方法に、後述の理化学的特性を有するS.mutansの水不
溶性グルカン合成酵素を抗原として組み合わせて用いる
ことによって、S.mutansの歯面への付着に対する十分な
阻害効果を有し、上述したような欠点のない抗体を製造
し得るとの新たな知見を得るに到り、本発明を完成し
た。The present inventors have conducted various studies to solve such problems in the prior art, and as a result, a method for preparing an antibody using chickens has been described. The use of the enzyme in combination as an antigen has a new finding that it has a sufficient inhibitory effect on the adhesion of S. mutans to the tooth surface and can produce an antibody without the above-mentioned disadvantages. Thus, the present invention has been completed.
特に、鶏を用いた抗体の製造においては、必ずしも免
疫した抗原に特異的に反応する抗体が十分量得られると
は限らない。例えば、ウイルス抗原を免疫した場合、十
分なる抗体価が得られなかった。In particular, in the production of antibodies using chickens, it is not always possible to obtain a sufficient amount of antibodies specifically reacting with the immunized antigen. For example, when a virus antigen was immunized, a sufficient antibody titer was not obtained.
従って、鶏に免疫する際には、抗原を十分に吟味し、
抗体価の高いものが得られるように検討しなければなら
ない。Therefore, when immunizing chickens, carefully examine the antigen,
Care must be taken to obtain a high antibody titer.
従って、S.mutansの産生する水不溶性グルカン合成酵
素で鶏を免疫して、十分に高い抗体価を有する抗体が得
られるという知見は、本発明者らによって初めて得られ
たものである。Therefore, the knowledge that an antibody having a sufficiently high antibody titer can be obtained by immunizing a chicken with the water-insoluble glucan synthase produced by S. mutans was first obtained by the present inventors.
本発明の目的は、S.mutansに対する免疫活性を示し、
S.mutansの歯面への付着に対する十分な阻害効果を有
し、量産性にも優れ、生産コストが低く、安定性にも優
れ、齲蝕予防剤の有効成分として有用な抗体及び抗体を
含む齲蝕予防剤の製造方法を提供することにある。An object of the present invention is to show an immune activity against S. mutans,
It has a sufficient inhibitory effect on the adhesion of S. mutans to the tooth surface, is excellent in mass productivity, has low production cost, is excellent in stability, and is useful as an active ingredient of an anti-caries agent and a caries containing antibody. An object of the present invention is to provide a method for producing a prophylactic agent.
(課題を解決するための手段) 本発明に係るS.mutansの産生する水不溶性グルカン合
成酵素(以後GTF−Iと略称する)に対する阻害活性を
有する抗体は、下記理化学的特性を有する血清型がa,d
又はgであるS.mutansの産生するGTF−Iを免疫した鶏
が産生する卵より製造された免疫グロブリンとして得る
ことができる。(Means for Solving the Problems) An antibody having an inhibitory activity on water-insoluble glucan synthase (hereinafter abbreviated as GTF-I) produced by S. mutans according to the present invention is a serotype having the following physicochemical properties. a, d
Alternatively, it can be obtained as an immunoglobulin produced from eggs produced by chickens immunized with GTF-I produced by S. mutans g.
作用及び基質特異性 スクロースに作用し、水不溶性のグルカンを合成す
る。Action and substrate specificity Acts on sucrose to synthesize water-insoluble glucan.
分子量 SDS−ポリアクリルアミドゲル電気泳動により測定し
た分子量が、155k〜170kダルトンである。Molecular weight The molecular weight measured by SDS-polyacrylamide gel electrophoresis is between 155k and 170k daltons.
免疫原生 動物において免疫原となり、該酵素にたいする特異抗
体を生成させ得る。Immunogen Produces an immunogen in an animal and can generate specific antibodies to the enzyme.
なお、上記SDS−ポリアクリルアミドゲル電気泳動(S
DS−PAGE)は以下の操作に従って行ったものである。The SDS-polyacrylamide gel electrophoresis (S
DS-PAGE) was performed according to the following procedure.
SDS−PAGE操作条件; SDS−PAGEはレムリー(Laemuli)らの方法により行
う。SDS-PAGE operating conditions; SDS-PAGE is performed according to the method of Laemuli et al.
すなわち、後述の粗精製または精製標品を個々に2%
SDS、5%2−メルカプトエタノール及び20%グリセロ
ールを含む62.5mMのトリス塩酸緩衝液(pH6.8)中で100
℃、3分間処理する。That is, the crude purified or purified sample described below is individually
100% in 62.5 mM Tris-HCl buffer (pH 6.8) containing SDS, 5% 2-mercaptoethanol and 20% glycerol.
Treat at 3 ° C for 3 minutes.
電気泳動は、0.1%のSDSを含む7.5%の分離ゲルと、
4%の濃縮ゲル中、室温下、10mA、2時間の条件で行
う。なお、分子量マーカーとしては、フェリチン(ferr
itin、220kダルトン)、ホスフォリラーゼb(phosphor
ylase b、94kダルトン)、牛血清アルブミン(bovine
serus albumin、67kダルトン)、カタラーゼ(catalas
e、60kダルトン)、オブアルブミン(ovalbumin、43kダ
ルトン)及び乳酸脱水素酵素(lactase dehydrcgenas
e、36kダルトン)(いずれもファルマシア社製)を用
い、バンドの検出はクマシーブリリアントブルー(CB
B)による染色によって行うことができる。Electrophoresis was performed on a 7.5% separation gel containing 0.1% SDS,
The reaction is performed in a 4% concentrated gel at room temperature at 10 mA for 2 hours. In addition, as a molecular weight marker, ferritin (ferr
itin, 220k Dalton), phosphorylase b (phosphor
ylase b, 94k dalton, bovine serum albumin (bovine)
serus albumin, 67k dalton, catalase (catalas)
e, 60k dalton), ovalbumin (ovalbumin, 43k dalton) and lactase dehydrcgenas
e, 36k Dalton) (both manufactured by Pharmacia), and the band was detected using Coomassie Brilliant Blue (CB
This can be done by staining according to B).
本発明によって得られた抗体(以後抗GTF−Iと称す
る)を得るために用いるGTF−Iとしては、上記特性を
有する酵素であればどのようなものでも利用でき、例え
ば以下のようにしてS.mutansの培養上清から精製して得
ることができる。As the GTF-I used to obtain the antibody (hereinafter referred to as anti-GTF-I) obtained according to the present invention, any enzyme having the above-mentioned properties can be used. It can be obtained by purifying from the culture supernatant of .mutans.
即ち、血清型がa,d又はg型であるS.mutansを適当な
培地で培養し、その培養上清から精製される。That is, S. mutans whose serotype is a, d or g is cultured in an appropriate medium and purified from the culture supernatant.
ここで用いるg型菌としては、S.mutans 6715株,ATC
C 27351株等の公知で、容易に入手可能な菌を用いるこ
とができ、例えば、S.mutans 6715株は大阪大学歯学部
から、ATCC 27351株はアメリカン タイプ カルチャ
ー コレクション〔American Type Cultures Collec
tion(ATCC)〕から入手できる。又、a型菌やd型菌に
ついても公知の菌株を同様に入手して用いればよい。The g-type bacteria used here include S. mutans 6715 strain, ATC
Known and readily available bacteria such as C 27351 strain can be used.For example, S. mutans 6715 strain is from Osaka University School of Dentistry, ATCC 27351 strain is American Type Culture Collection (American Type Cultures Collec).
(ATCC)]. In addition, known strains may be similarly obtained and used for the a-type bacteria and the d-type bacteria.
又、培地としては、少なくともグルコースを含む培地
が利用でき、例えば、TTY培地(Trypticass、Tryptos
e、Yeast extractの複合培地)、BHI(Brain Heart
Infusion)培地、FMC培地などを用いることが出来る。As the medium, a medium containing at least glucose can be used. For example, a TTY medium (Trypticass, Tryptos
e, Yeast extract complex medium), BHI (Brain Heart
Infusion) medium, FMC medium and the like can be used.
又、培養温度は、菌体増殖が得られ、且つGTF−Iの
生産に適した範囲内であれば良いが、良好な菌体増殖と
GTF−Iの生産という点からは、通常37℃程度とすると
よい。Further, the culture temperature may be within a range in which cell growth can be obtained and suitable for the production of GTF-I.
From the viewpoint of production of GTF-I, the temperature is usually set to about 37 ° C.
又、培養時間は、培養温度、培地の種類等の培養条件
によって異なるが、GTF−Iの最適収量に達する時期を
選択して決定すれば良く、18〜24時間程度とすればよ
い。The culturing time varies depending on the culturing conditions such as the culturing temperature and the type of the medium, but may be determined by selecting the time when the optimum yield of GTF-I is reached, and may be about 18 to 24 hours.
又、その他の培養条件についても、上記の観点から適
宜選択すれば良い。Further, other culture conditions may be appropriately selected from the above viewpoint.
次に、菌体からGTF−Iを抽出する。 Next, GTF-I is extracted from the cells.
S.mutansのGTF−Iは、Furuta,T.らの方法〔Furuta,
T.,et al;J,General Microbiology.,131,235−293(1
985)〕に従い、BHI透析培地にS.mutansを植菌し、成育
後遠心分離により菌体を除去し、上清に硫酸アンモニウ
ムを加え50%硫酸アンモニウム画分の沈澱をHistidiae
−BCIに透析しクロマトフォーカシングカラムクロマト
グラフィーを行った後、ヒドロキシアパタイトのカラム
クロマトグラフィーを行い精製標品を得ることが出来
る。S. mutans GTF-I was obtained by the method of Furuta, T. et al. [Furuta,
T., et al; J, General Microbiology., 131, 235-293 (1
985)], inoculate S. mutans in a BHI dialysis medium, remove cells by centrifugation after growth, add ammonium sulfate to the supernatant, and precipitate a 50% ammonium sulfate fraction from Histidiae.
-After dialyzing against BCI and performing chromatofocusing column chromatography, hydroxyapatite column chromatography is performed to obtain a purified sample.
抗体を得るための抗原として、以上の操作で得られた
菌体培養上清もしくは硫安濃縮標品、クロマトフォーカ
シング後の粗精製標品、もしくは、精製標品としてのGT
F−I等を用いることができる。As an antigen for obtaining an antibody, the bacterial cell culture supernatant or ammonium sulfate concentrated sample obtained by the above procedure, a crudely purified sample after chromatofocusing, or GT as a purified sample
FI or the like can be used.
次に、本発明の抗GTF−I抗体製造方法について詳述
する。Next, the method for producing an anti-GTF-I antibody of the present invention will be described in detail.
本発明に係る抗GTF−I抗体は、上述のGTF−Iで免疫
された鶏の卵から製造することができる。The anti-GTF-I antibody according to the present invention can be produced from chicken eggs immunized with the above-mentioned GTF-I.
免疫される鶏としては、特に制限はないが、抗体の量
産性という点からは、白色レグホーン等の卵用種を用い
ると良い。The chicken to be immunized is not particularly limited, but from the viewpoint of mass production of antibodies, it is preferable to use an egg seed such as a white leghorn.
又、GTF−Iによる免疫方法としては、皮下注射,筋
肉注射,腹腔内投与等による通常の方法や、点鼻,点眼
等の方法によって行うことができる。更に、GTF−Iの
投与量は、所望の抗体価が得られ、且つ鶏に対して悪影
響を与えない量を適宜選択すれば良い。In addition, the immunization method using GTF-I can be performed by a usual method such as subcutaneous injection, intramuscular injection, intraperitoneal administration, or a method such as nasal drop or eye drop. Furthermore, the dose of GTF-I may be appropriately selected so that a desired antibody titer is obtained and the dose does not adversely affect chickens.
通常、初回免疫から数週間で投与抗原に対して特異的
に反応する抗体が鶏卵(卵黄)中に得られる。Usually, an antibody that specifically reacts with the administered antigen is obtained in chicken eggs (yolk) within a few weeks after the initial immunization.
尚、必要に応じて例えばFCA(フロイント完全アジュ
バント),FIA(フロイント不完全アジュバント)等のア
ジュバントをGTF−Iと共に併用しても良い。If necessary, an adjuvant such as FCA (complete Freund's adjuvant) or FIA (incomplete Freund's adjuvant) may be used together with GTF-I.
免疫から1カ月以上経過した鶏から摂取した卵から本
発明の抗GTF−I抗体を調製することができる。The anti-GTF-I antibody of the present invention can be prepared from eggs ingested from chickens that have passed one month or more after immunization.
尚、卵黄中の抗体価は、酸素免疫吸着法(BLISA),
ラジオイムノアッセイ等を用いて測定することができ、
免疫後に2週間程度の間隔で抗体価を測定することによ
り抗体価の推移を追跡することができる。The antibody titer in the yolk was determined by oxygen immunosorbent assay (BLISA),
It can be measured using a radioimmunoassay or the like,
By measuring the antibody titer at intervals of about two weeks after immunization, the transition of the antibody titer can be tracked.
後述の実施例においては、ELISAでの測定により抗体
価の推移を追跡し、抗体価が十分に上昇した段階の卵を
採取して、本発明の抗GTF−I抗体を調製した。In the examples described below, changes in the antibody titer were traced by ELISA, and eggs at the stage where the antibody titer was sufficiently increased were collected to prepare the anti-GTF-I antibody of the present invention.
又、通常、約3カ月間にわたって高抗体価を得ること
ができる。Usually, a high antibody titer can be obtained for about 3 months.
尚、免疫後、抗体価の減少が見られた場合、適当な間
隔で適宜追加免疫することにより抗体価を高くすること
ができる。If the antibody titer decreases after immunization, the antibody titer can be increased by performing additional immunization at appropriate intervals.
本発明に係る抗GTF−I抗体は、例えば上記のように
して免疫した鶏の卵黄に含まれる免疫グロブリンを抽出
・分離することによって得ることができる。この抽出・
分離方法としては、例えば、デキストラン硫酸やポリエ
チレンクリコールを用いた沈澱法や、プロパノールやク
ロロホルムを用いた抽出法等通常用いられている免疫グ
ロブリンを抽出・分離できる種々の方法等が利用でき
る。The anti-GTF-I antibody according to the present invention can be obtained, for example, by extracting and separating immunoglobulin contained in the egg yolk of the chicken immunized as described above. This extraction
As the separation method, for example, various methods capable of extracting and separating immunoglobulins which are generally used, such as a precipitation method using dextran sulfate or polyethylene glycol, an extraction method using propanol or chloroform, and the like can be used.
以上のようにして得られた本発明に係る抗GTF−I抗
体は、S.mutansの産生するGTF−Iに対して特異的に抗
体として反応する。即ち、GTF−Iに対して酵素活性の
阻害活性を有する。The anti-GTF-I antibody according to the present invention obtained as described above specifically reacts with GTF-I produced by S. mutans as an antibody. That is, it has an inhibitory activity on the enzyme activity for GTF-I.
S.mutansの産生するGTF−Iに対して阻害活性を有す
る本発明に係る抗GTF−I抗体は、S.mutansの歯面への
付着を阻害することによって、S.mutansの口腔内での活
動を制御し、齲蝕を予防することができる。The anti-GTF-I antibody according to the present invention, which has an inhibitory activity on GTF-I produced by S. mutans, inhibits S. mutans from adhering to the tooth surface, thereby causing It can control activities and prevent caries.
以上記載のごとく本発明は、通常の哺乳動物から調製
される製法に比べて、容易に、且つ大量に調製でき、し
かも卵黄から抗体を調製するという簡単な操作により免
疫グロブリンのうちIgG画分だけを特異的に分離精製す
ることができ、齲蝕予防剤の有効成分として有用なる抗
体の製造方法を提供するものである。As described above, the present invention is easier and can be prepared in a large amount, compared to a production method prepared from a normal mammal, and only the IgG fraction of immunoglobulins is obtained by a simple operation of preparing an antibody from egg yolk. And a method for producing an antibody useful as an active ingredient of an agent for preventing dental caries.
これらの抗体含有画分は、通常の齲蝕予防剤に配合
し、本発明に係る齲蝕予防剤を製造することができる。These antibody-containing fractions can be blended with a normal caries preventive agent to produce the caries preventive agent according to the present invention.
即ち、本発明に係る齲蝕予防剤は練り歯磨き・粉歯磨
き・液状歯磨き等の歯磨き類、マウスウォッシュ,口腔
用パスタ,歯肉マッサージクリーム,うがい用錠剤,ト
ローチ,チューインガム,缶飲料等口腔内商材だけでは
なく、その目的においては種々の食品にも適用されるも
のである。That is, the caries preventive agent according to the present invention is only oral products such as toothpaste, toothpaste, liquid toothpaste, mouthwash, oral paste, gum massage cream, gargle tablet, troche, chewing gum, canned beverage and the like. Rather, it applies to various foods for that purpose.
本発明に係る抗体の齲蝕予防剤への配合量は、その投
与形態に応じた投与量に従って適宜選択すれば良く、例
えば、103以上の抗体価を有する抗体を0.0001〜10重量
%程度とすることができる。The amount of the antibody according to the present invention to be added to the anti-caries agent may be appropriately selected according to the dosage according to the dosage form. For example, an antibody having an antibody titer of 10 3 or more is about 0.0001 to 10% by weight. be able to.
尚、本発明に係る齲蝕予防剤の他の成分としては、使
用目的、使用形態等に応じた適当な成分が用いられる。
例えば練り歯磨きの場合では、炭酸カルシウム,燐酸水
素カルシウム,ピロリン酸カルシウム,不溶性メタリン
酸ソーダ,水化アルミナ,無水ケイ酸等の研磨剤、グリ
セリン,ソルビット,プロピレングリコール等の保湿
剤、ラウリル硫酸ナトリウム,ラウロイルサルコシンナ
トリウム,石鹸末等の発泡剤,カルボキシメチルセルロ
ースナトリウム,カラギーナン等のバインダー、さらに
適当なる香料成分,甘味剤,保存剤等の成分を水と混合
し、常法に従って製造する。又、マウスウォッシュ等の
口腔洗浄剤その他においても、製造の性状に応じた成分
が適宜配合される。In addition, as the other components of the anti-caries agent according to the present invention, appropriate components according to the purpose of use, use form, and the like are used.
For example, in the case of toothpaste, abrasives such as calcium carbonate, calcium hydrogen phosphate, calcium pyrophosphate, insoluble sodium metaphosphate, hydrated alumina, and silicic acid, humectants such as glycerin, sorbite, propylene glycol, sodium lauryl sulfate, and lauroyl A foaming agent such as sarcosine sodium and soap powder, a binder such as sodium carboxymethylcellulose and carrageenan, and other suitable components such as a flavor component, a sweetener and a preservative are mixed with water, and the mixture is produced according to a conventional method. Also, in mouthwashes such as mouthwashes and the like, components according to the properties of production are appropriately compounded.
尚、本発明においては、歯牙着色除去剤,口臭予防
剤,フッ素等の虫歯予防剤,抗酵素予防剤等の種々の薬
効成分を配合することも可能である。In the present invention, various medicinal ingredients such as a tooth coloring remover, a halitosis preventive, a caries preventive such as fluorine, an antienzyme preventive and the like can be blended.
よって、本発明に係る齲蝕予防剤は、前記免疫卵より
調製した卵黄抗体を用いることにより、ストレプトコッ
カス・ミュータンスによるプラークの形成を効果的に抑
制し、齲蝕の発生を良好に防止する。しかも、前記卵黄
抗体は安全性が高いため、本発明に係る齲蝕予防剤は使
用上の安全性が高いものである。Therefore, the agent for preventing dental caries according to the present invention effectively suppresses the formation of plaque due to Streptococcus mutans by using the yolk antibody prepared from the immunized egg, and favorably prevents the occurrence of dental caries. Moreover, since the yolk antibody has high safety, the anti-caries agent of the present invention has high safety in use.
(実施例) 以下実施例により本発明を更に詳細に説明する。尚、
以下における%表示は、特に、指定されていない場合に
は、重量/容量%を示す。(Examples) Hereinafter, the present invention will be described in more detail with reference to Examples. still,
Unless otherwise specified, the percentages shown below indicate weight / volume%.
実施例1(抗体の製造方法) (a)抗原の調製 S.mutans 6715株(血清型g,大阪大学歯学部から入
手)を151のBHI透析培地で37℃,18時間培養した。培養
液を連続遠心により菌体と培養上清とに分離した。分離
した培養上清に対して50%飽和の硫安沈澱処理を行い、
得られた沈澱物を遠心分離法により回収した。次に、こ
の沈澱物をHistldine−HCI緩衝液(pH6.2)に溶解した
溶液を同緩衝液に対して透析し、更に、該溶液中に生じ
た沈澱を遠心分離法により除去した後、その上清液をポ
リバッファーPBE94(Polybuffer PBE94、ファルマシア
社製)の2.5×25cmのカラムにかけた。Example 1 (Method for producing antibody) (a) Preparation of antigen S. mutans strain 6715 (serotype g, obtained from Osaka University Dental School) was cultured in 151 BHI dialysis media at 37 ° C for 18 hours. The culture solution was separated into bacterial cells and culture supernatant by continuous centrifugation. The separated culture supernatant was subjected to 50% saturated ammonium sulfate precipitation,
The resulting precipitate was collected by centrifugation. Next, a solution obtained by dissolving this precipitate in a Histldine-HCI buffer (pH 6.2) was dialyzed against the same buffer, and the precipitate formed in the solution was removed by centrifugation. The supernatant was applied to a 2.5 × 25 cm column of polybuffer PBE94 (Polybuffer PBE94, manufactured by Pharmacia).
カラムに吸着した画分は、ポリバッファー74(Polybu
ffer 74、ファルマシア社製)を用いたpH勾配,次いで
0.1M濃度のNacl溶液によって選択的に溶出させた。The fraction adsorbed on the column was
pH gradient using ffer 74 (Pharmacia)
It was eluted selectively with a 0.1 M NaCl solution.
溶出された各画分のGTF活性を以下に記載した方法
で、又タンパク質含量を280nm紫外吸収法で測定したと
ころ、0.1MのNacl濃度の画分中に顕著なGTF活性が認め
られた。The GTF activity of each eluted fraction was measured by the method described below, and the protein content was measured by the 280 nm ultraviolet absorption method. As a result, remarkable GTF activity was observed in the fraction having a NaCl concentration of 0.1 M.
GTF活性の測定; 試料10μlを、基質としての20mM(14C−グルコー
ス)スクロース〔(14C−glucose)sucrose〕(0.05ci/
mol)と20μMのデキストランT10を含む0.2Mリン酸緩衝
液(pH6.0)の10μlと混合し、37℃で1時間反応後、
反応液全量を濾紙(1.0×2.0cm)にスポットし、これを
メタノールで洗浄後、濾紙上に残ったメタノールに不溶
性のグルカン中に取り込まれた放射能量を測定し、GTF
活性を算出し、1分間に1μmolのグルコースをグルカ
ンに転移させる活性を1単位(U)とした。Measurement of GTF activity: A sample (10 μl) was treated with 20 mM ( 14 C-glucose) sucrose [( 14 C-glucose) sucrose] (0.05 ci /
mol) and 10 μl of 0.2 M phosphate buffer (pH 6.0) containing 20 μM dextran T10, and reacted at 37 ° C. for 1 hour.
The entire amount of the reaction solution was spotted on a filter paper (1.0 × 2.0 cm), washed with methanol, and the amount of radioactivity incorporated in the methanol-insoluble glucan remaining on the filter paper was measured.
The activity was calculated, and the activity of transferring 1 μmol of glucose to glucan per minute was defined as 1 unit (U).
次に、0.1MのNacl濃度の溶出画分を集め、これに対し
て、80%飽和の硫安沈澱処理を行い、沈澱物を得た。こ
れを10mMリン酸緩衝液(pH6.0)に溶解し、同溶液に対
して透析する。更に、該溶液中に生じた沈澱を遠心分離
法により除去して上清液を得た。この上清液を粗精製標
品(免疫抗原)とした。Next, the eluted fractions having a NaCl concentration of 0.1 M were collected and subjected to an ammonium sulfate precipitation treatment of 80% saturation to obtain a precipitate. This is dissolved in 10 mM phosphate buffer (pH 6.0) and dialyzed against the same solution. Further, the precipitate formed in the solution was removed by centrifugation to obtain a supernatant. This supernatant was used as a crude purified product (immune antigen).
該標品のタンパク質濃度及びタンパク質全量をCBB−
G法〔Branford,N,M.,Anal.Biochem.,72.248,(197
6)〕により測定したところ、タンパク質濃度が0.4mg/m
l、タンパク質全量が13.2mgであった。The protein concentration and the total amount of protein of the sample were determined by CBB-
G method [Branford, N, M., Anal. Biochem., 72.248, (197
6)], the protein concentration was 0.4 mg / m
l, total protein was 13.2 mg.
更に、該標品を前述の操作条件によりSDS−PAGEにか
け、クマシ・ブリリアント・ブルー(CBB)での染色を
行ったところ、160kダルトンの位置のバンドをメインと
する低分子量の数本のバンドが検出された。Further, the sample was subjected to SDS-PAGE under the above-mentioned operating conditions, and stained with Kumasi Brilliant Blue (CBB). As a result, several bands of low molecular weight, mainly the band at the position of 160 kDalton, were found. was detected.
また、上記のSDS−PAGEの結果から算出された該標品
中のGTF−I含有率は4.0重量%であった。Further, the GTF-I content in the sample calculated from the result of the above SDS-PAGE was 4.0% by weight.
これとは別に、下記の要領で活性染色を行った。即
ち、該標品のトリス塩酸緩衝中での処理を37℃、30分で
行い、かつ電気泳動を4℃で行う以外は前述と同様の操
作によるSDS−PAGEにかけた後、ゲルを37℃の1%スク
ロースと0.05%のデキストランT10及び0.05%アジ化ナ
トリウムを含むリン酸緩衝液(pH6.0)中に18時間浸漬
した。次に、浸漬処理したゲルをPAS(Periodic acid
Schiff)反応により染色したところ160kダルトンの位
置にグルカン生成を示す顕著な染色バンドが検出され
た。Separately, activity staining was performed as described below. That is, the sample was subjected to SDS-PAGE in the same manner as described above except that the sample was treated in Tris-HCl buffer at 37 ° C for 30 minutes, and electrophoresis was performed at 4 ° C. It was immersed in a phosphate buffer (pH 6.0) containing 1% sucrose, 0.05% dextran T10 and 0.05% sodium azide for 18 hours. Next, the gel that has been immersed is treated with PAS (Periodic acid
When stained by the Schiff reaction, a remarkable stained band showing glucan formation was detected at a position of 160 kDalton.
(b)抗原の鶏への免疫 (a)で得た精製製免疫抗原標品1.0ml(CBB−G法で
測定した場合の0.4mgタンパク質量を含む)とFCA(フロ
イント完全アジュバント)1.0mlを1:1混合してW/O型の
エマルジョンとした。(B) Immunization of chickens with antigen 1.0 ml of the purified immunoantigen preparation obtained in (a) (containing 0.4 mg protein as measured by the CBB-G method) and 1.0 ml of FCA (complete Freund's adjuvant) The mixture was mixed 1: 1 to form a W / O emulsion.
得られたエマルジョンを鶏の胸筋に1.0mlずつ注射
し、初回免疫を行った後、下記の方法に従って、採取し
た卵から得たWSF(後述)の抗体価を測定し、その推移
を観察した。After injecting 1.0 ml of the obtained emulsion into the pectoral muscles of chickens for the first immunization, the antibody titer of WSF (described later) obtained from the collected eggs was measured according to the following method, and the change was observed. .
次に、第1図に示すように初回免疫後8週後に卵黄中
の抗体価が下がり始めたのを確認して、前回と同様にし
て2次免疫を行った。Next, as shown in FIG. 1, it was confirmed that the antibody titer in the yolk began to decrease 8 weeks after the first immunization, and a second immunization was performed in the same manner as the previous time.
2次免疫終了後、約1カ月経過した後から鶏が産生す
る卵を集卵した。Eggs produced by chickens were collected about one month after the secondary immunization.
(c)抗体の製造方法 卵から分離した卵黄13mlとこれと同量のPBS(リン酸
緩衝液,pH7.4)を混合し、得られた混合液に更に混合液
と同量(26ml)のクロロホルムを加えて、これをよく撹
拌した。(C) Antibody production method 13 ml of egg yolk separated from an egg and the same amount of PBS (phosphate buffer, pH 7.4) were mixed, and the resulting mixture was further mixed with the same amount (26 ml) of the mixture. Chloroform was added and the mixture was stirred well.
撹拌終了後、混合液を室温下で30分間放置した後、こ
れを3,000rpm、20分間の遠心分離にかけ、最上層の透明
画分を回収し、抗体含有画分(Water Soluble Fracti
on:WSF)とした。After completion of the stirring, the mixture was allowed to stand at room temperature for 30 minutes, and then centrifuged at 3,000 rpm for 20 minutes to collect the uppermost transparent fraction. The antibody-containing fraction (Water Soluble Fracti
on: WSF).
この画分は、0.7×102の抗体価を有していた。This fraction had an antibody titer of 0.7 × 10 2 .
尚、該0.7×102の抗体価を示すWSF(13ml:13mlの卵黄
から調製)のたんぱく質含有濃度をピューレット法によ
り測定し、該WSF中の全たんぱく質量を求めたところ約2
6mgという値を得た(約2.0mg/ml×13ml)。The protein content of WSF (13 ml: prepared from 13 ml of egg yolk) having an antibody titer of 0.7 × 10 2 was measured by the puret method, and the total protein mass in the WSF was determined to be about 2%.
A value of 6 mg was obtained (about 2.0 mg / ml x 13 ml).
(d)抗体価の測定方法; 抗体価の測定は、ELISAによって行った。(D) Method for measuring antibody titer: The antibody titer was measured by ELISA.
まず、実施例2で得た精製免疫抗原標品を2.5μg/ml
となるように50mM炭酸ナトリウム緩衝液(pH9.6)に溶
解させて得られた溶液を、96穴プレート〔イムロン(Im
mulon)2,ダイナテック社製〕の各ウェルに100μlずつ
入れ、4℃で一晩放置し、該画分に含まれる精製抗原を
プレートに吸着させた。First, 2.5 μg / ml of the purified immunoantigen preparation obtained in Example 2 was used.
Was dissolved in a 50 mM sodium carbonate buffer (pH 9.6) to obtain a 96-well plate [Imron (Im
mulon) 2, manufactured by Dynatech Co., Ltd.], and allowed to stand at 4 ° C. overnight to adsorb the purified antigen contained in the fraction to the plate.
次にプレートをPBS−T(0.05%ツィーン20含有PBS,p
H7.4)で5回洗浄した。洗浄後、プレートを3%BSA
(牛血清アルブミン)を含むPBS(pH7.4)と37℃で1時
間接触させて、ブロッキングを行った後、PBS−Tでプ
レートを5回洗浄した。Next, the plate was washed with PBS-T (PBS, p containing 0.05% Tween 20).
H7.4) five times. After washing, plate is washed with 3% BSA
The plate was contacted with PBS (pH 7.4) containing (bovine serum albumin) at 37 ° C. for 1 hour to perform blocking, and then the plate was washed five times with PBS-T.
ここで、先に得たWSFのPBS−Tによる2段階稀釈液の
100μlを各ウェルに加え、37℃で1時間反応させた。Here, the two-step dilution of WSF with PBS-T was obtained.
100 μl was added to each well and reacted at 37 ° C. for 1 hour.
反応終了後、プレートをPBS−Tで5回洗浄し、更
に、プレートに2次抗体としてのペルオキシダーゼ結合
抗ニワトリIgG抗体(たんぱく質量1.67μg/ml)の100μ
lを各ウェルに加え、25℃で30分間反応させた後、PBS
−Tで5回洗浄した。After the completion of the reaction, the plate was washed 5 times with PBS-T. Further, 100 μl of a peroxidase-conjugated anti-chicken IgG antibody (protein mass: 1.67 μg / ml) as a secondary antibody was added to the plate.
1 to each well and reacted at 25 ° C for 30 minutes.
Washed 5 times with -T.
次に、プレートの各ウェルに0.2Mリン酸2ナトリウム
−0.1Mクエン酸緩衝液(pH5.0)50mlに基質であるo−
フェニレンジアミン20mgおよび過酸化水素10μlを溶解
した溶液を100μl加え、25℃で20分間反応させた。反
応停止は、3N硫酸溶液100μl加えることで行った。Next, 50 ml of 0.2 M disodium phosphate-0.1 M citrate buffer (pH 5.0) was added to each well of the plate to prepare o-
100 µl of a solution in which 20 mg of phenylenediamine and 10 µl of hydrogen peroxide were dissolved was added, and reacted at 25 ° C for 20 minutes. The reaction was stopped by adding 100 μl of a 3N sulfuric acid solution.
反応停止後、各ウェルの吸光度(OD492)を測定する
ことによって抗体価を測定した。抗体価はエンドポイン
トタイター法により求め、が吸光度が0.2となる稀釈倍
率とした。After stopping the reaction, the antibody titer was measured by measuring the absorbance (OD 492 ) of each well. The antibody titer was determined by the endpoint titer method, and the dilution was determined as the dilution ratio at which the absorbance was 0.2.
(e)抗体によるGTF−Iの水不溶性グルカン合成阻害
活性の確認 (c)で得た抗体を用いてS.mutansの産生するGTF−
Iの活性阻害実験を行った。(E) Confirmation of GTF-I water-insoluble glucan synthesis inhibitory activity by antibody GTF-produced by S. mutans using antibody obtained in (c)
An activity inhibition experiment of I was performed.
まず、(c)で得た0.7×102の抗体価を有するWSF及
びその8倍稀釈液を試験溶液とした。First, WSF having an antibody titer of 0.7 × 10 2 obtained in (c) and an 8-fold dilution thereof were used as test solutions.
これとは別に、免疫をしていない鶏((b)と同様の
鶏)の卵から(c)と同様にしてWSFを調製し試験溶液
とした。尚、該WSFがGTF−Iに対して特異的に反応しな
いことを確認した。Separately, WSF was prepared from eggs of non-immunized chickens (chickens similar to (b)) in the same manner as in (c) to prepare test solutions. In addition, it was confirmed that the WSF did not specifically react with GTF-I.
また、対照としてはリン酸緩衝液(PBS)を用いた。 As a control, a phosphate buffer solution (PBS) was used.
次に、これらの各試験溶液を13×100mmの試験管に各2
50μl分注した後、更に0.3mUのGTF−I1250μlをそれ
ぞれの試験管に加えた。Next, each of these test solutions was placed in a 13 x 100 mm test tube,
After dispensing 50 µl, 1250 µl of 0.3 mU of GTF-I was further added to each test tube.
混合した後、30分間、37℃で反応させた。反応終了
後、更に、各試験管に2%のスクロースと40μMのデキ
ストランT10を含む0.2Mのリン酸緩衝液を500μl加え再
び37℃で1時間反応後、反応液全量を4℃に氷冷し、超
音波処理を行い、反応液の濃度(OD550)を測定し、水
不溶性グルカン合成活性を算出した。After mixing, the mixture was reacted at 37 ° C. for 30 minutes. After the completion of the reaction, 500 μl of 0.2 M phosphate buffer containing 2% sucrose and 40 μM dextran T10 was added to each test tube, and the reaction was carried out again at 37 ° C. for 1 hour. After sonication, the concentration (OD 550 ) of the reaction solution was measured, and the water-insoluble glucan synthesis activity was calculated.
表1に、PBSを加えた時のGTF活性を100%として各WSF
の効果を示した。Table 1 shows each WSF assuming that the GTF activity when PBS was added was 100%.
The effect was shown.
実施例2 GTF−I精製標品の製造方法 実施例1と同様の条件で、粗精製標品に対応する上清
液を得た。その上清液を10mMリン酸緩衝液(pH6.0)
で、平衡化したヒドロキシアパタイト〔Bio Gel HT
P、バイオラッド(Bio Rad)社製〕のカラム(1.0×13
cm)にかけた。 Example 2 Method for producing GTF-I purified sample Under the same conditions as in Example 1, a supernatant liquid corresponding to the crude purified sample was obtained. The supernatant was used as a 10 mM phosphate buffer (pH 6.0).
And equilibrated hydroxyapatite [Bio Gel HT
P, manufactured by Bio Rad Co.)
cm).
カラムに吸着した画分は、0.01〜0.5Mリン酸緩衝液
(pH6.0)の濃度勾配によって選択的に溶出された。The fraction adsorbed on the column was selectively eluted by a concentration gradient of 0.01 to 0.5 M phosphate buffer (pH 6.0).
各画分の、GTF活性及びタンパク質含量を上述と同様
の方法で測定した結果、0.2Mのリン酸緩衝液(pH6.0)
による画分中にGTF活性が認められた。The GTF activity and protein content of each fraction were measured in the same manner as described above. As a result, 0.2 M phosphate buffer (pH 6.0)
GTF activity was observed in the fraction obtained by the above method.
次に、0.2Mリン酸緩衝液(pH6.0)による高活性を示
す溶出画分を集め、それを10mMのリン酸緩衝液(pH6.
0)に対して透析し、精製酵素標品を得た。Next, an eluted fraction exhibiting high activity with a 0.2 M phosphate buffer (pH 6.0) was collected, and collected with a 10 mM phosphate buffer (pH 6.
0) was dialyzed to obtain a purified enzyme preparation.
更に、該標品をSDS−PAGEにかけ、クマシー・ブリリ
アント・ブルー(CBB)での染色を行ったところ、160k
ダルトンの位置に単一のバンドが検出され、該精製酵素
標品が分子量160kダルトンの酵素タンパク質であること
が確認された。Further, the sample was subjected to SDS-PAGE and stained with Coomassie Brilliant Blue (CBB).
A single band was detected at the Dalton position, confirming that the purified enzyme preparation was an enzyme protein having a molecular weight of 160 kDalton.
更に、50mU酵素活性量に相当する量の精製酵素標品を
最終濃度で1%スクロース及び0.1%のアジ化ナトリウ
ムを含む0.1Mのリン酸緩衝液(pH6.0)に加え、蒸留水
で3mlに容量を調製した後、混合し、37℃、18時間酵素
反応を行わせた。なお、酵素反応は、反応溶液を氷冷し
て4℃にすることにより停止させた。Further, a purified enzyme preparation in an amount corresponding to 50 mU enzyme activity was added to a 0.1 M phosphate buffer (pH 6.0) containing 1% sucrose and 0.1% sodium azide at a final concentration, and 3 ml of distilled water was added. After adjusting the volume, the mixture was mixed and allowed to undergo an enzyme reaction at 37 ° C. for 18 hours. In addition, the enzyme reaction was stopped by cooling the reaction solution to 4 ° C. with ice.
酵素反応終了後、反応生成物を1500ngの遠心分離で処
理し、沈澱した水不溶性画分と上清液に分けた。After completion of the enzymatic reaction, the reaction product was treated by centrifugation at 1500 ng, and separated into a precipitated water-insoluble fraction and a supernatant.
水不溶性画分は、蒸留水で2度洗浄し、3mlの蒸留水
に懸濁して、水不溶性グルカン標品とした。The water-insoluble fraction was washed twice with distilled water and suspended in 3 ml of distilled water to obtain a water-insoluble glucan standard.
また、上清液にその2.5倍容量のエタノールを加え、
4℃で1時間放置後、生じた沈澱を1600ngの遠心分離で
回収し、それを3mlの蒸留水に溶解させ、更に同様の沈
澱処理を再度行って回収された沈澱を再び3mlの蒸留水
に溶解し水溶性グルカン標品とした。Also, add 2.5 times the volume of ethanol to the supernatant,
After standing at 4 ° C. for 1 hour, the resulting precipitate was collected by centrifugation at 1600 ng, dissolved in 3 ml of distilled water, and subjected to the same precipitation treatment again, and the collected precipitate was again added to 3 ml of distilled water. It was dissolved to obtain a water-soluble glucan standard.
更に、これらの標品に含まれるグルカンの量をアンス
ロン法により定量分析して該精製酵素標品の作用によっ
て合成されるグルカンの種類を調べたところ、該精製酵
素標品は水不溶性グルカンを合成する作用を有するGTF
−Iであることが明らかとなった。Furthermore, when the amount of glucan contained in these samples was quantitatively analyzed by the anthrone method and the type of glucan synthesized by the action of the purified enzyme sample was examined, the purified enzyme sample synthesized water-insoluble glucan. GTF that has the effect of
-I.
なお、得られた該精製酵素標品のタンパク質量を上述
の方法で測定したところ、0.48mgであった。In addition, the protein amount of the obtained purified enzyme preparation was measured by the above-mentioned method, and it was 0.48 mg.
更に、上記GTF−I精製免疫抗原標品を抗原として用
いる以外は実施例1と同様にして抗体の調製を行ったと
ころ、同様にGTF−Iと特異的に反応する抗体が得られ
た。Further, an antibody was prepared in the same manner as in Example 1 except that the above-mentioned purified GTF-I immunogen preparation was used as an antigen, and an antibody which specifically reacted with GTF-I was obtained.
更に、得られた抗体のGTF−S活性阻害効果を同様の
方法で試験した結果、同様に優れた効果が認められた。Furthermore, the GTF-S activity inhibitory effect of the obtained antibody was tested by the same method, and as a result, similarly excellent effect was recognized.
次に本発明の齲蝕予防剤の実施例を記載する。 Next, examples of the anti-caries agent of the present invention will be described.
(実施例3) 練り歯磨きの製造方法 ピロリン酸カルシウム 42% グリセリン 15% ソルビット70% 10% カルボキシメチルセルロース 12% サッカリンナトリウム 0.1% ラウリル硫酸ナトリウム 2.0% 香料 1.0%水 残量 100% 以上の成分に実施例1で得た抗体含有画分(WSF)0.5
%(抗体価0.7×103のもの)を配合する。(Example 3) Toothpaste manufacturing method Calcium pyrophosphate 42% Glycerin 15% Sorbite 70% 10% Carboxymethylcellulose 12% Saccharin sodium 0.1% Sodium lauryl sulfate 2.0% Fragrance 1.0% Water 100% Obtained antibody-containing fraction (WSF) 0.5
% (With an antibody titer of 0.7 × 10 3 ).
(実施例4) マウシュウォッシュの製造方法 エタノール 22.5% サッカリンナトリウム 0.05% ラウリルジエタノールアミド 0.3% 香料 1.0%水 残量 100% 以上の成分に実施例1で得た抗体含有画分(WSF)0.5
%(抗体価0.7×103のもの)を配合して製造する。(Example 4) Production method of maushwash Wash ethanol 22.5% Saccharin sodium 0.05% Lauryl diethanolamide 0.3% Fragrance 1.0% Water Remaining 100% Above components containing antibody (WSF) 0.5 obtained in Example 1
% (With an antibody titer of 0.7 × 10 3 ).
(発明の効果) 本発明により、S.mutansの歯面への付着に対する十分
な阻害効果を有し、量産性にも優れ、生産コストが低
く、安全性にも優れ、齲蝕予防剤の有効成分として有用
な抗体及び該抗体を含む齲蝕予防剤の製造方法が提供さ
れた。(Effects of the Invention) According to the present invention, S. mutans has a sufficient inhibitory effect on the adhesion to the tooth surface, is excellent in mass productivity, has low production cost, is excellent in safety, and is an active ingredient of an anti-caries agent. And a method for producing an anti-caries agent containing the antibody are provided.
特に、本発明に係るS.mutansに対する免疫活性を有す
る抗体は、従来の哺乳動物を免疫して得る抗体と比較し
て以下のような利点を有する。In particular, the antibody having an immunological activity against S. mutans according to the present invention has the following advantages as compared with an antibody obtained by immunizing a conventional mammal.
(1)本発明により得られた抗体は、免疫した鶏の卵中
に得られ、採卵、卵の取り扱いおよび卵からの抗体の取
得に特別な、あるいは熟練した技術を必要としない。し
かも、卵黄には免疫グロブリンのうちIgGクラスしか移
行しないので、IgGのみを容易に得ることができる。(1) The antibody obtained according to the present invention is obtained in the eggs of immunized chickens, and does not require special or skilled techniques for collecting eggs, handling eggs, and obtaining antibodies from eggs. In addition, since only the IgG class of the immunoglobulin is transferred to the yolk, only IgG can be easily obtained.
これに対して、免疫した哺乳動物から採血により抗体
を得る場合には、採血に熱錬した技術が必要とされ、し
かも血清から大量のIgGを分離・精製することは非常に
困難である。On the other hand, in the case where antibodies are obtained by collecting blood from immunized mammals, a sophisticated technique is required for collecting blood, and it is very difficult to separate and purify a large amount of IgG from serum.
(2)本発明の抗体製造に用いられる鶏は、管理が容易
であり、例えばラット等と比較してもその管理費用が安
い。(2) The chicken used for the production of the antibody of the present invention is easy to manage, and its management cost is lower than that of a rat, for example.
しかも、哺乳動物から継続的に多量の血液や乳を得る
ことは困難であり、哺乳動物を用いる方法は抗体の量産
には適さないが、鶏は長期間にわたって安定して卵を生
み続けるので、本発明により得られた抗体は量産可能で
あり、かつ生産コストが低い。Moreover, it is difficult to continuously obtain a large amount of blood and milk from mammals, and the method using mammals is not suitable for mass production of antibodies, but chickens continue to lay eggs stably for a long period of time, The antibodies obtained by the present invention can be mass-produced and have low production costs.
(3)免疫した哺乳動物の血液や乳から製造した抗体の
安定性は必ずしも良好でなく、血清中で、あるいは精製
した状態でも−80℃程度の温度条件下での保存が必要と
される。(3) The stability of antibodies produced from blood or milk of immunized mammals is not always good, and storage in serum or in a purified state is required at a temperature of about -80 ° C.
本発明により得られた抗体は、良好な安定性を有し、
また保存性も良く、例えば卵の状態で4℃で1〜2箇月
間保存できる。The antibody obtained by the present invention has good stability,
It also has good storage properties, and can be stored, for example, in the form of eggs at 4 ° C. for 1-2 months.
第1図は、実施例1において、免疫した鶏の抗体価の推
移を示すグラフである。FIG. 1 is a graph showing changes in antibody titers of immunized chickens in Example 1.
───────────────────────────────────────────────────── フロントページの続き (72)発明者 横山 英明 岐阜県各務原市蘇原宮代町2丁目115番 2 審査官 瀬下 浩一 (56)参考文献 う蝕と歯周病−研究の進歩、浜田茂幸 編集、日本歯科評論社1985年刊、3巻、 第119−141ページ Research in Veter inary Science,Vol. 18(1975).pp.117−120 ────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Hideaki Yokoyama 2-115-2, Sohara-Miyashiro-cho, Kakamigahara-shi, Gifu Examiner Koichi Sesita (56) References Caries and Periodontal Disease-Advances in Research, edited by Shigeyuki Hamada, Nippon Dental Review, 1985, vol. 3, pp. 119-141, Research in Veterinary Science, Vol. 18 (1975). pp. 117-120
Claims (4)
たはgであるストレプトコッカス・ミュータンスの産生
する水不溶性グルカン合成酵素に対する抗体の製造方法
において、 a)前記水不溶性グルカン合成酵素を鶏に免疫する工程
と、 b)該免疫された鶏が産生する卵から卵黄を分離する工
程と、 c)該卵黄から、前記水不溶性グルカン合成酵素に対し
て誘導され、かつ前記ストレプトコッカス・ミュータン
スに対する免疫活性を有する抗体を含む免疫グロブリン
を抽出する工程と を有することを特徴とする抗体の製造方法。1. A method for producing an antibody against a water-insoluble glucan synthase produced by Streptococcus mutans having a serotype of a, d or g as a cariogenic pathogen, comprising the steps of: B) separating the yolk from the eggs produced by the immunized chicken; c) deriving from the egg yolk against the water-insoluble glucan synthase and against the Streptococcus mutans Extracting an immunoglobulin containing an antibody having immunological activity.
とを混合し、更にクロロホルムを加え、得られた混合液
を所定時間放置した後、遠心分離処理し、最上層の透明
画分を前記抗体を含む画分として回収することにより行
われる請求項1に記載の抗体の製造方法。2. In the step (c), the egg yolk and the phosphate buffer are mixed, chloroform is further added, and the obtained mixture is left for a predetermined time, followed by centrifugation to obtain the uppermost transparent layer. The method for producing an antibody according to claim 1, wherein the method is carried out by collecting the fraction as a fraction containing the antibody.
たはgであるストレプトコッカス・ミュータンスの水不
溶性グルカン合成酵素に対する抗体を有効成分とする齲
蝕予防剤の製造方法において、 a)前記水不溶性グルカン合成酵素を鶏に免疫する工程
と、 b)該免疫された鶏が産生する卵から卵黄を分離する工
程と、 c)該卵黄から、前記水不溶性グルカン合成酵素に対し
て誘導され、かつ該ストレプトコッカス・ミュータンス
に対する免疫活性を有する抗体を含む免疫グロブリンを
抽出する工程と d)該免疫グロブリン中に前記水不溶性グルカン合成酵
素に対して誘導された抗体を有効成分として齲蝕予防剤
を製剤する工程と を有することを特徴とする齲蝕予防剤の製造方法。3. A method for producing a caries preventive agent comprising as an active ingredient an antibody against a water-insoluble glucan synthase of Streptococcus mutans whose serotype is a, d or g as a cariogenic causative bacterium; Immunizing a chicken with an insoluble glucan synthase; b) separating yolk from eggs produced by the immunized chicken; c) being induced against the water-insoluble glucan synthase from the egg yolk; Extracting an immunoglobulin containing an antibody having immunological activity against the Streptococcus mutans; and d) formulating a caries preventive agent in the immunoglobulin using an antibody induced against the water-insoluble glucan synthase as an active ingredient. A method for producing a caries preventive agent, comprising the steps of:
とを混合し、更にクロロホルムを加え、得られた混合液
を所定時間放置した後、遠心分離処理し、最上層の透明
画分を前記抗体を含む画分として回収することにより行
われる請求項3に記載の齲蝕予防剤の製造方法。4. In the step (c), the egg yolk is mixed with a phosphate buffer, chloroform is further added, and the resulting mixture is left for a predetermined time, followed by centrifugation to obtain a transparent uppermost layer. 4. The method for producing a caries preventive agent according to claim 3, wherein the method is performed by collecting the fraction as a fraction containing the antibody.
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JP63070331A JP2666214B2 (en) | 1988-03-23 | 1988-03-23 | Antibody and method for producing anti-caries agent containing the same as an active ingredient |
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JP63070331A JP2666214B2 (en) | 1988-03-23 | 1988-03-23 | Antibody and method for producing anti-caries agent containing the same as an active ingredient |
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JP2689511B2 (en) * | 1988-08-18 | 1997-12-10 | ライオン株式会社 | Food |
US5786343A (en) * | 1997-03-05 | 1998-07-28 | Immudyne, Inc. | Phagocytosis activator compositions and their use |
KR100423551B1 (en) * | 2001-06-22 | 2004-03-18 | 한국식품개발연구원 | Method for the production of a egg containing anti-Edwardsiella tarda IgY, anti-Streptococcus iniae IgY and Mycobaterium bovis IgY simultaneously, and egg, fish diets containing specific IgY thereof |
JP2007290988A (en) * | 2006-04-24 | 2007-11-08 | Kao Corp | Bacterial plaque formation inhibitor |
-
1988
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Non-Patent Citations (2)
Title |
---|
Research in Veterinary Science,Vol.18(1975).pp.117−120 |
う蝕と歯周病−研究の進歩、浜田茂幸編集、日本歯科評論社1985年刊、3巻、第119−141ページ |
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