无分裂依赖性的古真核 GASDermins 激活及其结构机制。

Cleavage-independent activation of ancient eukaryotic gasdermins and structural mechanisms.

机构信息

Key Laboratory of Biomacromolecules (CAS), National Laboratory of Biomacromolecules, CAS Center for Excellence in Biomacromolecules, Institute of Biophysics, Chinese Academy of Sciences, Beijing 100101, China.

University of Chinese Academy of Sciences, Beijing 101408, China.

出版信息

Science. 2024 May 17;384(6697):adm9190. doi: 10.1126/science.adm9190.

DOI:10.1126/science.adm9190

PMID:38662913

Abstract

Gasdermins (GSDMs) are pore-forming proteins that execute pyroptosis for immune defense. GSDMs are two-domain proteins activated by proteolytic removal of the inhibitory domain. In this work, we report two types of cleavage-independent GSDM activation. First, GSDM, a pore-forming domain-only protein from the basal metazoan , is a disulfides-linked autoinhibited dimer activated by reduction of the disulfides. The cryo-electron microscopy (cryo-EM) structure illustrates the assembly mechanism for the 44-mer GSDM pore. Second, RCD-1-1 and RCD-1-2, encoded by the polymorphic () gene in filamentous fungus , are also pore-forming domain-only GSDMs. RCD-1-1 and RCD-1-2, when encountering each other, form pores and cause pyroptosis, underlying allorecognition in . The cryo-EM structure reveals a pore of 11 RCD-1-1/RCD-1-2 heterodimers and a heterodimerization-triggered pore assembly mechanism. This study shows mechanistic diversities in GSDM activation and indicates versatile functions of GSDMs.

摘要

Gasdermins (GSDMs) 是一种形成孔的蛋白，可通过免疫防御执行细胞焦亡。GSDMs 是由蛋白水解去除抑制结构域而激活的两结构域蛋白。在这项工作中，我们报告了两种不依赖切割的 GSDM 激活方式。首先，来自基础后生动物的一种仅有孔结构域的 GSDM 蛋白是一种二硫键连接的自身抑制二聚体，通过二硫键的还原而被激活。低温电子显微镜（cryo-EM）结构阐明了 44 个氨基酸 GSDM 孔的组装机制。其次，丝状真菌中多态性 () 基因编码的 RCD-1-1 和 RCD-1-2 也是仅有孔结构域的 GSDM。RCD-1-1 和 RCD-1-2 相互作用时会形成孔并导致细胞焦亡，这是种间识别的基础。低温电镜结构揭示了 11 个 RCD-1-1/RCD-1-2 异二聚体孔和一个异二聚体化触发的孔组装机制。本研究表明 GSDM 激活的机制多样性，并表明 GSDM 具有多种功能。

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无分裂依赖性的古真核 GASDermins 激活及其结构机制。

Cleavage-independent activation of ancient eukaryotic gasdermins and structural mechanisms.

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