Matthew Coxe scite author profile

CD8 + T cell exhaustion is a state of dysfunction acquired in chronic viral infection and cancer, characterized by the formation of Slamf6 + progenitor exhausted and Tim-3 + terminally exhausted subpopulations through unknown mechanisms. Here we establish the phosphatase PTPN2 as a novel regulator of the differentiation of the terminally exhausted subpopulation that functions by Users may view, print, copy, and download text and data-mine the content in such documents, for the purposes of academic research, subject always to the full Conditions of use:

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A CRISPR-Cas9 delivery system for in vivo screening of genes in the immune system

LaFleur

Nguyen

Coxe

et al. 2019

Nat Commun

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Therapies that target the function of immune cells have significant clinical efficacy in diseases such as cancer and autoimmunity. Although functional genomics has accelerated therapeutic target discovery in cancer, its use in primary immune cells is limited because vector delivery is inefficient and can perturb cell states. Here we describe CHIME: CHimeric IMmune Editing, a CRISPR-Cas9 bone marrow delivery system to rapidly evaluate gene function in innate and adaptive immune cells in vivo without ex vivo manipulation of these mature lineages. This approach enables efficient deletion of genes of interest in major immune lineages without altering their development or function. We use this approach to perform an in vivo pooled genetic screen and identify Ptpn2 as a negative regulator of CD8 + T cell-mediated responses to LCMV Clone 13 viral infection. These findings indicate that this genetic platform can enable rapid target discovery through pooled screening in immune cells in vivo.

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Matthew Coxe

PTPN2 regulates the generation of exhausted CD8+ T cell subpopulations and restrains tumor immunity

A CRISPR-Cas9 delivery system for in vivo screening of genes in the immune system

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