Department of Molecular Immunology, Biology III, Faculty of Biology, University of Freiburg, Freiburg, Germany.
Signaling Research Centers CIBSS and BIOSS, University of Freiburg, Freiburg, Germany.
Front Immunol. 2023 Sep 4;14:1253412. doi: 10.3389/fimmu.2023.1253412. eCollection 2023.
The recently determined cryo-EM structures of the T cell antigen receptor (TCR) and B cell antigen receptor (BCR) show in molecular details the interactions of the ligand-binding part with the signaling subunits but they do not reveal the signaling mechanism of these antigen receptors. Without knowing the molecular basis of antigen sensing by these receptors, a rational design of optimal vaccines is not possible. The existence of conserved amino acids (AAs) that are not involved in the subunit interaction suggests that antigen receptors form higher complexes and/or have lateral interactors that control their activity. Here, I describe evolutionary conserved leucine zipper (LZ) motifs within the transmembrane domains (TMD) of antigen and coreceptor components that are likely to be involved in the oligomerization and lateral interaction of antigen receptor complexes on T and B cells. These immunoreceptor coupling and organization motifs (ICOMs) are also found within the TMDs of other important receptor types and viral envelope proteins. This discovery suggests that antigen receptors do not function as isolated entities but rather as part of an ICOM-based interactome that controls their nanoscale organization on resting cells and their dynamic remodeling on activated lymphocytes.
最近确定的 T 细胞抗原受体 (TCR) 和 B 细胞抗原受体 (BCR) 的冷冻电镜结构以分子细节显示了配体结合部分与信号亚基的相互作用,但它们并没有揭示这些抗原受体的信号转导机制。如果不知道这些受体识别抗原的分子基础,就不可能对最佳疫苗进行合理设计。存在不参与亚基相互作用的保守氨基酸 (AA) 表明抗原受体形成更高的复合物和/或具有控制其活性的横向相互作用物。在这里,我描述了抗原和共受体成分跨膜结构域 (TMD) 内的进化保守亮氨酸拉链 (LZ) 基序,这些基序可能参与 T 和 B 细胞上抗原受体复合物的寡聚化和横向相互作用。这些免疫受体偶联和组织基序 (ICOM) 也存在于其他重要受体类型和病毒包膜蛋白的 TMD 中。这一发现表明抗原受体不是作为孤立的实体发挥作用,而是作为基于 ICOM 的相互作用组的一部分发挥作用,该相互作用组控制它们在静止细胞上的纳米级组织和在激活的淋巴细胞上的动态重塑。
