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Self-programmed dynamics of T cell receptor condensation, PNAS, 4 Jul 2023

Updated: 2023-07-04

PNAS, 4 July, 2023, DOI:https://doi.org/10.1073/pnas.2217301120

 

Self-programmed dynamics of T cell receptor condensation


Hui Chen, Xinyi Xu, Wei Hu, Songfang Wu, Jianhui Xiao, Peng Wu, Xiaowen Wang, Xuling Han, Yanruo Zhang, Yong Zhang, Ning Jiang, Wanli Liu, Changjie Lou, Wei Chen, Chenqi Xu, and Jizhong Lou

 

Abstract


A common event upon receptor–ligand engagement is the formation of receptor clusters on the cell surface, in which signaling molecules are specifically recruited or excluded to form signaling hubs to regulate cellular events. These clusters are often transient and can be disassembled to terminate signaling. Despite the general relevance of dynamic receptor clustering in cell signaling, the regulatory mechanism underlying the dynamics is still poorly understood. As a major antigen receptor in the immune system, T cell receptors (TCR) form spatiotemporally dynamic clusters to mediate robust yet temporal signaling to induce adaptive immune responses. Here we identify a phase separation mechanism controlling dynamic TCR clustering and signaling. The TCR signaling component CD3ε chain can condensate with Lck kinase through phase separation to form TCR signalosomes for active antigen signaling. Lck-mediated CD3ε phosphorylation, however, switched its binding preference to Csk, a functional suppressor of Lck, to cause the dissolvement of TCR signalosomes. Modulating TCR/Lck condensation by targeting CD3ε interactions with Lck or Csk directly affects T cell activation and function, highlighting the importance of the phase separation mechanism. The self-programmed condensation and dissolvement is thus a built-in mechanism of TCR signaling and might be relevant to other receptors.

 

Article link:https://www.pnas.org/doi/10.1073/pnas.2217301120

 

 

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