B 细胞受体诱导的蛋白质动态变化及 SUMOylation 介导的新兴作用：基于邻近连接蛋白质组学的研究。

B cell receptor-induced protein dynamics and the emerging role of SUMOylation revealed by proximity proteomics.

机构信息

Institute of Biomedicine and MediCity Research Laboratories, University of Turku, 20014 Turku, Finland.

Turku Bioscience, University of Turku and Åbo Akademi University, 20520 Turku, Finland.

出版信息

J Cell Sci. 2023 Aug 1;136(15). doi: 10.1242/jcs.261119. Epub 2023 Aug 8.

DOI:10.1242/jcs.261119

PMID:37417469

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10445728/

Abstract

Successful B cell activation, which is critical for high-affinity antibody production, is controlled by the B cell antigen receptor (BCR). However, we still lack a comprehensive protein-level view of the very dynamic multi-branched cellular events triggered by antigen binding. Here, we employed APEX2 proximity biotinylation to study antigen-induced changes, 5-15 min after receptor activation, at the vicinity of the plasma membrane lipid rafts, wherein BCR enriches upon activation. The data reveals dynamics of signaling proteins, as well as various players linked to the subsequent processes, such as actin cytoskeleton remodeling and endocytosis. Interestingly, our differential expression analysis identified dynamic responses in various proteins previously not linked to early B cell activation. We demonstrate active SUMOylation at the sites of BCR activation in various conditions and report its functional role in BCR signaling through the AKT and ERK1/2 axes.

摘要

成功的 B 细胞激活对于高亲和力抗体的产生至关重要，而 B 细胞抗原受体 (BCR) 控制着这一过程。然而，我们仍然缺乏对抗原结合引发的非常动态的多分支细胞事件的全面蛋白质水平的了解。在这里，我们使用 APEX2 邻近生物素化技术，在 BCR 激活后 5-15 分钟，在靠近质膜脂筏的区域，研究抗原诱导的变化。数据揭示了信号蛋白的动态，以及与随后的过程（如肌动蛋白细胞骨架重塑和内吞作用）相关的各种参与者的动态。有趣的是，我们的差异表达分析鉴定了先前与早期 B 细胞激活无关的各种蛋白质的动态反应。我们证明了在各种条件下 BCR 激活部位的 SUMO 化是活跃的，并通过 AKT 和 ERK1/2 轴报告其在 BCR 信号中的功能作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/61cb/10445728/c7b5adf843db/joces-136-261119-g1.jpg

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B 细胞受体诱导的蛋白质动态变化及 SUMOylation 介导的新兴作用：基于邻近连接蛋白质组学的研究。

B cell receptor-induced protein dynamics and the emerging role of SUMOylation revealed by proximity proteomics.

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