T淋巴细胞再刺激诱导细胞死亡(RICD)的分子和时间控制

Katherine P. Lee, Benjamin Epstein, Camille M. Lake, Andrew L. Snow
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摘要

为了获得有效的适应性免疫,T淋巴细胞必须以抗原特异性的方式快速扩张和收缩,以有效地控制入侵的病原体并保持免疫记忆,而不会对宿主组织造成过多的附带损伤。从初始抗原遭遇开始,精心校准的程序性细胞死亡途径对于维持T细胞反应不同阶段的稳态至关重要。再刺激诱导细胞死亡(RICD)是一种由T细胞受体(TCR)重新接合触发的自我调节细胞凋亡途径,对于抑制效应T细胞扩增以排除明显的免疫病理尤为重要;事实上,影响RICD执行关键分子的遗传疾病可表现为淋巴细胞过度增生、恶性肿瘤和自身免疫。在此,我们回顾了目前关于RICD敏感性如何在免疫反应过程中最终被调节的知识,包括最近发现的通过在扩增和成熟效应T细胞中增强抗性或促进易感性来调节RICD的分子。详细解剖RICD的分子和时间控制也阐明了通过最终调节RICD敏感性来纠正各种免疫疾病中注意到的异常T细胞反应的新治疗策略。
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Molecular and temporal control of restimulation-induced cell death (RICD) in T lymphocytes
For effective adaptive immunity, T lymphocytes must rapidly expand and contract in an antigen-specific manner to effectively control invading pathogens and preserve immunological memory, without sustaining excessive collateral damage to host tissues. Starting from initial antigen encounter, carefully calibrated programmed cell death pathways are critical for maintaining homeostasis over distinct phases of the T cell response. Restimulation-induced cell death (RICD), a self-regulatory apoptosis pathway triggered by re-engagement of the T cell receptor (TCR), is particularly important for constraining effector T cell expansion to preclude overt immunopathology; indeed, genetic disorders affecting key molecules involved in RICD execution can manifest in excessive lymphoproliferation, malignancy, and autoimmunity. Herein we review our current knowledge of how RICD sensitivity is ultimately regulated over the course of an immune response, including recent revelations on molecules that tune RICD by enforcing resistance or promoting susceptibility in expanding versus mature effector T cells, respectively. Detailed dissection of the molecular and temporal control of RICD also illuminates novel therapeutic strategies for correcting abnormal T cell responses noted in various immune disorders by ultimately tuning RICD sensitivity.
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