PO.IM02.04 · 免疫学

In vivo genome-scale enhancer screen decodes T cell fate decisions in the tumor

海报缩略图:In vivo genome-scale enhancer screen decodes T cell fate decisions in the tumor
编号 4258 展板 26 时间 4/21 09:00–12:00 区域 Section 6 主讲 Keely Ji, BS
分会场 Adaptive Immunity in Cancer
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作者与单位

Keely Y. Ji1, Alex Chang-Yu Chen1, Laura Hinojosa2, Bolutito Babatunde2, Daniela Martinez1, Thomas J. LaSalle1, Maria Zschummel1, Marc A. Schwartz1, Ferhat Ay2, Debattama Sen1

1MGH/Harvard Medical School, Boston, MA,2La Jolla Institute for Immunology, La Jolla, CA

摘要 Abstract

During chronic infection and cancer progression, T cells enter a dysfunctional state called exhaustion, posing a significant challenge to disease control and immunotherapy outcomes. Previously, we and others have shown that T cell exhaustion is a differentiation process regulated at the epigenetic level. Exhausted T cells share a conserved program of chromatin accessibility landscapes across chronic infections and tumors (core exhaustion program) that is imprinted in early T cell differentiation. However, it remains unclear whether and which open chromatin regions within the core exhaustion program play a causal role in driving the exhausted state. We hypothesize that the core exhaustion program contains transcriptional enhancers that regulate T cell persistence and differentiation in exhaustion, preventing reinvigoration of function. To test it, we leveraged our novel enhancer editing platform called Systematic Non-coding element Interrogation by Paired sgRNAs (SNIP-R), a pooled CRISPR-based enhancer deletion platform optimized for kilobase-scale perturbation in primary T cells. We performed the first in vivo genome-scale enhancer deletion screen on ova-specific CD8 + T cells (OT-1) in OVA-expressing tumors. We identified networks of regulatory elements in the core exhaustion program that regulate T cell persistence and subset formation in the tumor. Validation studies from the screen showed that deleting one such regulatory element 100kb upstream of the Klf6 gene ( Klf6-100kb ) in T cells improved tumor control. Klf6-100kb perturbed T cells strongly outcompeted control populations and had increased generation of effector-like T cells in the tumor compared to control perturbations. Together, we showed that the core exhaustion program contains causal regulatory elements underlying T cell exhaustion and pinpointed new targets for developing next-generation adoptive T cell therapies.
利益披露 Disclosure
K. Y. Ji, None.. A. Chen, None.. L. Hinojosa, None.. B. Babatunde, None.. D. Martinez, None.. T. J. LaSalle, None.. M. Zschummel, None.. M. A. Schwartz, None.. F. Ay, None.. D. Sen, None.

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