Victor Wong scite author profile

Summary In response to acute infection, naive CD8+ T cells expand, differentiate into effector cells and then contract to a long-lived pool of memory cells after pathogen clearance. During chronic infections or in tumors, CD8+ T cells acquire an “exhausted” phenotype. Here we present genome-wide comparisons of chromatin accessibility and gene expression from endogenous CD8+ T cells responding to acute and chronic viral infection using ATAC-seq and RNA-seq. Acquisition of effector, memory or exhausted phenotypes was associated with stable changes in chromatin accessibility away from the naive T cell state. Regions differentially-accessible between functional subsets in vivo were enriched for binding sites of transcription factors known to regulate these subsets, including E2A, BATF, IRF4, T-bet and TCF1. Exhaustion-specific accessible regions were enriched for consensus binding sites for NFAT and Nr4a family members, indicating that chronic stimulation confers a unique accessibility profile on exhausted cells.

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Exhaustion-associated regulatory regions in CD8 ⁺ tumor-infiltrating T cells

Mognol

Spreafico

Wong

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

264

250

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T-cell exhaustion is a progressive loss of effector function and memory potential due to persistent antigen exposure, which occurs in chronic viral infections and cancer. Here we investigate the relation between gene expression and chromatin accessibility in CD8 tumor-infiltrating lymphocytes (TILs) that recognize a model tumor antigen and have features of both activation and functional exhaustion. By filtering out accessible regions observed in bystander, nonexhausted TILs and in acutely restimulated CD8 T cells, we define a pattern of chromatin accessibility specific for T-cell exhaustion, characterized by enrichment for consensus binding motifs for Nr4a and NFAT transcription factors. Anti-PD-L1 treatment of tumor-bearing mice results in cessation of tumor growth and partial rescue of cytokine production by the dysfunctional TILs, with only limited changes in gene expression and chromatin accessibility. Our studies provide a valuable resource for the molecular understanding of T-cell exhaustion in cancer and other inflammatory settings.

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TRIM25 promotes Capicua degradation independently of ERK in the absence of ATXN1L

et al. 2020

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Background Aberrations in Capicua (CIC) have recently been implicated as a negative prognostic factor in a multitude of cancer types through the derepression of targets downstream of the mitogen-activated protein kinase (MAPK) signaling cascade, such as oncogenic E26 transformation-specific (ETS) transcription factors. The Ataxin-family protein ATXN1L has previously been reported to interact with CIC in both developmental and disease contexts to facilitate the repression of CIC target genes and promote the post-translational stability of CIC. However, little is known about the mechanisms at the base of ATXN1L-mediated CIC post-translational stability. Results Functional in vitro studies utilizing ATXN1LKO human cell lines revealed that loss of ATXN1L leads to the accumulation of polyubiquitinated CIC protein, promoting its degradation through the proteasome. Although transcriptomic signatures of ATXN1LKO cell lines indicated upregulation of the mitogen-activated protein kinase pathway, ERK activity was found to contribute to CIC function but not stability. Degradation of CIC protein following loss of ATXN1L was instead observed to be mediated by the E3 ubiquitin ligase TRIM25 which was further validated using glioma-derived cell lines and the TCGA breast carcinoma and liver hepatocellular carcinoma cohorts. Conclusions The post-translational regulation of CIC through ATXN1L and TRIM25 independent of ERK activity suggests that the regulation of CIC stability and function is more intricate than previously appreciated and involves several independent pathways. As CIC status has become a prognostic factor in several cancer types, further knowledge into the mechanisms which govern CIC stability and function may prove useful for future therapeutic approaches.

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Stimulation of CD2-activated mucosal T cells by intestinal epithelial cells (IEC) requires LFA-3 and is independent of MHC class II and B7

Joseph¹,

Wong²,

Fiocchi³

et al. 1998

Gastroenterology

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Victor Wong

Dynamic Changes in Chromatin Accessibility Occur in CD8 + T Cells Responding to Viral Infection

Exhaustion-associated regulatory regions in CD8 ⁺ tumor-infiltrating T cells

TRIM25 promotes Capicua degradation independently of ERK in the absence of ATXN1L

Stimulation of CD2-activated mucosal T cells by intestinal epithelial cells (IEC) requires LFA-3 and is independent of MHC class II and B7

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Victor Wong

Dynamic Changes in Chromatin Accessibility Occur in CD8 + T Cells Responding to Viral Infection

Exhaustion-associated regulatory regions in CD8 + tumor-infiltrating T cells

TRIM25 promotes Capicua degradation independently of ERK in the absence of ATXN1L

Stimulation of CD2-activated mucosal T cells by intestinal epithelial cells (IEC) requires LFA-3 and is independent of MHC class II and B7

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Exhaustion-associated regulatory regions in CD8 ⁺ tumor-infiltrating T cells