Library-based single-cell analysis of CAR signaling reveals drivers of in vivo persistence.

Cell systems Pub Date : 2025-04-09 DOI:10.1016/j.cels.2025.101260

Caleb R Perez, Andrea Garmilla, Avlant Nilsson, Hratch M Baghdassarian, Khloe S Gordon, Louise G Lima, Blake E Smith, Marcela V Maus, Douglas A Lauffenburger, Michael E Birnbaum

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Abstract

The anti-tumor function of engineered T cells expressing chimeric antigen receptors (CARs) is dependent on signals transduced through intracellular signaling domains (ICDs). Different ICDs are known to drive distinct phenotypes, but systematic investigations into how ICD architectures direct T cell function-particularly at the molecular level-are lacking. Here, we use single-cell sequencing to map diverse signaling inputs to transcriptional outputs, focusing on a defined library of clinically relevant ICD architectures. Informed by these observations, we functionally characterize transcriptionally distinct ICD variants across various contexts to build comprehensive maps from ICD composition to phenotypic output. We identify a unique tonic signaling signature associated with a subset of ICD architectures that drives durable in vivo persistence and efficacy in liquid, but not solid, tumors. Our findings work toward decoding CAR signaling design principles, with implications for the rational design of next-generation ICD architectures optimized for in vivo function.

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基于文库的CAR信号单细胞分析揭示了体内持久性的驱动因素。

表达嵌合抗原受体（CARs）的工程化T细胞的抗肿瘤功能依赖于通过细胞内信号传导域（ICDs）转导的信号。已知不同的ICD驱动不同的表型，但缺乏对ICD结构如何指导T细胞功能的系统研究-特别是在分子水平上。在这里，我们使用单细胞测序将不同的信号输入映射到转录输出，重点关注临床相关ICD架构的定义库。根据这些观察结果，我们对不同背景下转录不同的ICD变异进行了功能表征，以构建从ICD组成到表型输出的综合图谱。我们确定了与ICD结构子集相关的独特滋补信号信号，该信号信号在液体而非固体肿瘤中驱动持久的体内持久性和有效性。我们的研究结果有助于解码CAR信号传导设计原理，对优化体内功能的下一代ICD架构的合理设计具有重要意义。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Cell systems

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