PD-1 blockade increases the self-renewal of stem-like CD8 T cells to compensate for their accelerated differentiation into effectors

生物 淋巴细胞性脉络膜脑膜炎 细胞毒性T细胞 干细胞 CD8型 祖细胞 细胞生物学 效应器 免疫学 细胞分化 癌症研究 免疫系统 体外 遗传学 基因
作者
Amanda L. Gill,Peter H. Wang,Judong Lee,William Henry Hudson,Satomi Ando,Koichi Araki,Yinghong Hu,Andreas Wieland,Se Jin Im,Autumn A. Gavora,Christopher B. Medina,Gordon J. Freeman,Masao Hashimoto,Steven L. Reiner,Rafi Ahmed
出处
期刊:Science immunology [American Association for the Advancement of Science]
卷期号:8 (86): eadg0539-eadg0539 被引量:76
标识
DOI:10.1126/sciimmunol.adg0539
摘要

PD-1 + TCF-1 + stem-like CD8 T cells act as critical resource cells for maintaining T cell immunity in chronic viral infections and cancer. In addition, they provide the proliferative burst of effector CD8 T cells after programmed death protein 1 (PD-1)–directed immunotherapy. However, it is not known whether checkpoint blockade diminishes the number of these stem-like progenitor cells as effector cell differentiation increases. To investigate this, we used the mouse model of chronic lymphocytic choriomeningitis virus (LCMV) infection. Treatment of chronically infected mice with either αPD-1 or αPD-L1 antibody not only increased effector cell differentiation from the virus-specific stem-like CD8 T cells but also increased their proliferation so their numbers were maintained. The increased self-renewal of LCMV-specific stem-like CD8 T cells was mTOR dependent. We used microscopy to understand the division of these progenitor cells and found that after PD-1 blockade, an individual dividing cell could give rise to a differentiated TCF-1 − daughter cell alongside a self-renewing TCF-1 + sister cell. This asymmetric division helped to preserve the number of stem-like cells. Moreover, we found that the PD-1 + TCF-1 + stem-like CD8 T cells retained their transcriptional program and their in vivo functionality in terms of responding to viral infection and to repeat PD-1 blockade. Together, our results demonstrate that PD-1 blockade does not deplete the stem-like population despite increasing effector differentiation. These findings have implications for PD-1–directed immunotherapy in humans.
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