MHC I级
内质网
四斯潘宁
与抗原处理相关的转运体
主要组织相容性复合体
细胞生物学
CD8型
生物
抗原呈递
细胞毒性T细胞
抗原
T细胞
化学
免疫系统
细胞
生物化学
免疫学
体外
作者
Jeff D. Colbert,Freidrich M. Cruz,Christina E. Baer,Kenneth L. Rock
标识
DOI:10.1073/pnas.2122188119
摘要
MHC molecules are not randomly distributed on the plasma membrane but instead are present in discrete nanoclusters. The mechanisms that control formation of MHC I nanoclusters and the importance of such structures are incompletely understood. Here, we report a molecular association between tetraspanin-5 (Tspan5) and MHC I molecules that started in the endoplasmic reticulum and was maintained on the plasma membrane. This association was observed both in mouse dendritic cells and in human cancer cell lines. Loss of Tspan5 reduced the size of MHC I clusters without affecting MHC I peptide loading, delivery of complexes to the plasma membrane, or overall surface MHC I levels. Functionally, CD8 T cell responses to antigen presented by Tspan5-deficient dendritic cells were impaired but were restored by antibody-induced reclustering of MHC I molecules. In contrast, Tspan5 did not associate with two other plasma membrane proteins, Flotillin1 and CD55, with or the endoplasmic reticulum proteins Tapasin and TAP. Thus, our findings identify a mechanism underlying the clustering of MHC I molecules that is important for optimal T cell responses.
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