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补体膜攻击复合物:新的作用、作用机制和治疗靶点。

Complement Membrane Attack Complex: New Roles, Mechanisms of Action, and Therapeutic Targets.

机构信息

Department of Immunobiology, Yale University School of Medicine, New Haven, Connecticut.

Division of Cardiovascular Medicine, Yale University School of Medicine, New Haven, Connecticut.

出版信息

Am J Pathol. 2020 Jun;190(6):1138-1150. doi: 10.1016/j.ajpath.2020.02.006. Epub 2020 Mar 16.

DOI:10.1016/j.ajpath.2020.02.006
PMID:32194049
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7280757/
Abstract

The complement membrane attack complex (MAC) is classically known as a cytolytic effector of innate and adaptive immunity that forms pores in the plasma membrane of pathogens or targeted cells, leading to osmolysis. Nucleated cells resist MAC-mediated cytolysis by expression of inhibitors that block MAC assembly or by rapid removal of MAC through endocytosis or shedding. In the absence of lysis, MAC may induce intracellular signaling and cell activation, responses implicated in a variety of autoimmune, inflammatory, and transplant disease settings. New discoveries into the structure and biophysical properties of MAC revealed heterogeneous MAC precursors and conformations that provide insights into MAC function. In addition, new mechanisms of MAC-mediated signaling and its contribution to disease pathogenesis have recently come to light. MAC-activated cells have been found to express proinflammatory proteins-often through NF-κB-dependent transcription, assemble inflammasomes, enabling processing, and facilitate secretion of IL-1β and IL-18, as well as other signaling pathways. These recent insights into the mechanisms of action of MAC provide an updated framework to therapeutic approaches that can target MAC assembly, signaling, and proinflammatory effects in various complement-mediated diseases.

摘要

补体膜攻击复合物 (MAC) 是先天和适应性免疫的经典细胞溶解效应因子,它在病原体或靶细胞的质膜上形成孔,导致渗透压溶解。有核细胞通过表达阻止 MAC 组装的抑制剂或通过内吞作用或脱落快速去除 MAC 来抵抗 MAC 介导的细胞溶解。在没有溶解的情况下,MAC 可能会诱导细胞内信号转导和细胞激活,这些反应与各种自身免疫、炎症和移植疾病有关。对 MAC 的结构和生物物理特性的新发现揭示了 MAC 的异构前体和构象,为 MAC 的功能提供了深入的了解。此外,最近发现了 MAC 介导的信号转导的新机制及其对疾病发病机制的贡献。已经发现 MAC 激活的细胞表达促炎蛋白——通常通过 NF-κB 依赖性转录、组装炎症小体、促进加工和促进 IL-1β 和 IL-18 以及其他信号通路的分泌。这些关于 MAC 作用机制的最新见解为治疗方法提供了一个更新的框架,这些方法可以针对各种补体介导的疾病中的 MAC 组装、信号转导和促炎作用。

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