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整合素 CD11c 在脾脏树突状细胞捕获缺失自我 CD47 细胞以诱导适应性免疫中的关键作用。

Critical role of integrin CD11c in splenic dendritic cell capture of missing-self CD47 cells to induce adaptive immunity.

机构信息

Department of Microbiology and Immunology, University of California, San Francisco, CA 94143.

Department of Medicine, Baylor College of Medicine, Houston, TX 77030.

出版信息

Proc Natl Acad Sci U S A. 2018 Jun 26;115(26):6786-6791. doi: 10.1073/pnas.1805542115. Epub 2018 Jun 11.

DOI:10.1073/pnas.1805542115
PMID:29891680
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6042080/
Abstract

CD11c, also known as integrin alpha X, is the most widely used defining marker for dendritic cells (DCs). CD11c can bind complement iC3b and mediate phagocytosis in vitro, for which it is also referred to as complement receptor 4. However, the functions of this prominent marker protein in DCs, especially in vivo, remain poorly defined. Here, in the process of studying DC activation and immune responses induced by cells lacking self-CD47, we found that DC capture of CD47-deficient cells and DC activation was dependent on the integrin-signaling adaptor Talin1. Specifically, CD11c and its partner Itgb2 were required for DC capture of CD47-deficient cells. CD11b was not necessary for this process but could partially compensate in the absence of CD11c. Mice with DCs lacking Talin1, Itgb2, or CD11c were defective in supporting T-cell proliferation and differentiation induced by CD47-deficient cell associated antigen. These findings establish a critical role for CD11c in DC antigen uptake and activation in vivo. They may also contribute to understanding the functional mechanism of CD47-blockade therapies.

摘要

CD11c,也称为整合素 alpha X,是最广泛用于定义树突状细胞(DC)的标志物。CD11c 可以结合补体 iC3b 并在体外介导吞噬作用,因此也被称为补体受体 4。然而,这种重要的标记蛋白在 DC 中的功能,特别是在体内,仍然定义不明确。在这里,在研究缺乏自身 CD47 的细胞诱导的 DC 激活和免疫反应的过程中,我们发现 DC 捕获缺乏 CD47 的细胞和 DC 激活依赖于整合素信号适配器 Talin1。具体来说,CD11c 及其伴侣 Itgb2 是 DC 捕获缺乏 CD47 的细胞所必需的。CD11b 虽然不是这个过程所必需的,但在缺乏 CD11c 的情况下可以部分补偿。缺乏 Talin1、Itgb2 或 CD11c 的 DC 小鼠在支持由缺乏 CD47 的细胞相关抗原诱导的 T 细胞增殖和分化方面存在缺陷。这些发现确立了 CD11c 在体内 DC 抗原摄取和激活中的关键作用。它们也可能有助于理解 CD47 阻断疗法的功能机制。

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