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Jiang and colleagues identify ETV7 as a transcriptional node that skews CD8+ T cell transcriptional profiles toward exhaustion, consequently limiting antiviral and antitumor efficacy, and show that it can be targeted in CAR T cells to enhance efficacy.
Liang et al. study the impact of ERα antagonist/degraders against different Esr1 mutations in murine models and find that inhibition of mutant ERα induces lineage plasticity, which is also observed in Esr1-wild-type mice with long-term estrogen deprivation.
Shukla and colleagues study the genomic and transcriptomic data of exceptional responders to immunotherapy in renal cell carcinoma and find that such responses could be related to tertiary lymphoid structures, clonal neoantigen load and altered metabolism.
Swanton and colleagues present a clonal expression signature, ORACLE, which, in combination with clinicopathological and molecular risk factors, can predict survival of patients with lung adenocarcinoma, and they prospectively validate its prognostic value.
Sears and colleagues found that ongoing replication stress pathways and T cell clonal responses differentiate liver and lung recurrence and are associated with different clinical outcomes in the context of pancreatic ductal adenocarcinoma.
Trumpp and colleagues develop a method to obtain long-term circulating tumor cell-derived organoids from individuals with metastatic breast cancer and identify the neuregulin 1–HER3 axis as important for organoid growth and a promising therapeutic target.
Ganguli et al. show that CDKN2A loss in Barrett’s esophagus prevents esophageal adenocarcinoma initiation by counterselecting subsequent TP53 loss and report context-dependent effects of 9p21 gene co-deletions on disease progression.
Shah et al. conducted a systematic review and meta-analysis of the impact of COVID-19 pandemic-related disruptions to cancer healthcare services and reported reduced cancer screening, diagnosis and treatment of patients.
Zhao et al. find that a macrophage subset migrates from the dura matter to reshape the cerebrospinal fluid microenvironment and promote metastasis and show that the secreted phosphoprotein 1–matrix metallopeptidase 14 axis can be targeted to inhibit this.
Mellman and colleagues present a multiomic single-cell analysis of the effects of combined anti-TIGIT and anti-PD-1 blockade on T cell populations trafficking from the draining lymph node to the blood and tumor.
Zhang and colleagues present FunMap, a computational framework that uses a pan-cancer functional map of over 10,000 protein-coding genes to identify functionally associated genes in large-scale datasets.
Lyden and colleagues find that immune developmental genes, such as apoptotic peptidase activating factor 1 (APAF1), support DNA packaging on the surface of tumor-derived extracellular vesicles that are taken up by resident liver macrophages, thereby suppressing metastasis.
Tan and colleagues conducted a single-cell multiomic analysis of T cell acute lymphoblastic leukemia and identified a treatment-resistant subpopulation of bone marrow progenitor-like blasts associated with poor outcomes.
Wu et al. perform single-cell analyses to explore the switch from low-grade to high-grade isocitrate-dehydrogenase-mutant glioma and show that it is characterized by oligodendrocyte progenitor cell-like cells transitioning to proliferative neural progenitor cell-like cells.
Yang et al. show that transcription–replication collisions lead to large tandem duplications, which are frequent in female-enriched, upper gastrointestinal tract and prostate cancers and are associated with poor survival and mutations in specific genes, such as CDK12.
Yu and colleagues present a single-cell transcriptomic landscape of olfactory neuroblastoma, characterizing different tumor subtypes and cancer cell responses to drug treatments.
Tripathi et al. identify a noncanonical RAS•GTP activity that increases XPO1-dependent export of nuclear proteins into the cytoplasm. This depends on a RAS–RanGAP1 complex, and this export function contributes to RAS oncogenic activity.
Mizutani et al. use a model that recapitulates the colon adenoma–carcinoma transition through the sequential elimination of media factors leading to spontaneous accumulation of hotspot mutations of mismatch-repair-deficient tumors.
Snyder and colleagues show global loss of promoter–enhancer connectivity during early colorectal carcinogenesis and the dependency of gene dysregulation during this process on the baseline of promoter–enhancer interaction in normal colonic epithelium.
Snyder and colleagues present a comprehensive multiomic atlas of normal mucosal, benign polyps and dysplastic polyps from six persons with familial adenomatous polyposis, comprising transcriptomic, proteomic, metabolomic and lipidomic datasets.
