Litcius/Paper detail

CTLA4 depletes T cell endogenous and trogocytosed B7 ligands via cis-endocytosis

Xiaozheng Xu, Preston Dennett, Jibin Zhang, Alice Sherrard, Yunlong Zhao, Takeya Masubuchi, Jack D. Bui, Xu Chen, Enfu Hui

2023The Journal of Experimental Medicine45 citationsDOIOpen Access PDF

Abstract

CD28 and CTLA4 are T cell coreceptors that competitively engage B7 ligands CD80 and CD86 to control adaptive immune responses. While the role of CTLA4 in restraining CD28 costimulatory signaling is well-established, the mechanism has remained unclear. Here, we report that human T cells acquire antigen-presenting-cell (APC)-derived B7 ligands and major histocompatibility complex (MHC) via trogocytosis through CD28:B7 binding. Acquired MHC and B7 enabled T cells to autostimulate, and this process was limited cell-intrinsically by CTLA4, which depletes B7 ligands trogocytosed or endogenously expressed by T cells through cis-endocytosis. Extending this model to the previously proposed extrinsic function of CTLA4 in human regulatory T cells (Treg), we show that blockade of either CD28 or CTLA4 attenuates Treg-mediated depletion of APC B7, indicating that trogocytosis and CTLA4-mediated cis-endocytosis work together to deplete B7 from APCs. Our study establishes CTLA4 as a cell-intrinsic molecular sink that limits B7 availability on the surface of T cells, with implications for CTLA4-targeted therapy.

Topics & Concepts

CD80CD28CD86EndocytosisCell biologyT cellMajor histocompatibility complexAntigen-presenting cellBiologyCytotoxic T cellCellImmune systemImmunologyCD40BiochemistryIn vitroT-cell and B-cell ImmunologyImmune Cell Function and InteractionImmunotherapy and Immune Responses
CTLA4 depletes T cell endogenous and trogocytosed B7 ligands via cis-endocytosis | Litcius