冷冻电镜结构分析揭示了 FADD:Caspase-8 复合物的结构，阐明了细胞命运协调控制的催化二聚体结构。

Cryo-EM structural analysis of FADD:Caspase-8 complexes defines the catalytic dimer architecture for co-ordinated control of cell fate.

机构信息

MRC Toxicology Unit, University of Cambridge, Hodgkin Building, Lancaster Road, Leicester, LE1 9HN, UK.

Leicester Institute of Structural and Chemical Biology, Department of Molecular and Cellular Biology, University of Leicester, University Road, Leicester, LE1 7RH, UK.

出版信息

Nat Commun. 2021 Feb 5;12(1):819. doi: 10.1038/s41467-020-20806-9.

DOI:10.1038/s41467-020-20806-9

PMID:33547302

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7864959/

Abstract

Regulated cell death is essential in development and cellular homeostasis. Multi-protein platforms, including the Death-Inducing Signaling Complex (DISC), co-ordinate cell fate via a core FADD:Caspase-8 complex and its regulatory partners, such as the cell death inhibitor c-FLIP. Here, using electron microscopy, we visualize full-length procaspase-8 in complex with FADD. Our structural analysis now reveals how the FADD-nucleated tandem death effector domain (tDED) helical filament is required to orientate the procaspase-8 catalytic domains, enabling their activation via anti-parallel dimerization. Strikingly, recruitment of c-FLIP into this complex inhibits Caspase-8 activity by altering tDED triple helix architecture, resulting in steric hindrance of the canonical tDED Type I binding site. This prevents both Caspase-8 catalytic domain assembly and tDED helical filament elongation. Our findings reveal how the plasticity, composition and architecture of the core FADD:Caspase-8 complex critically defines life/death decisions not only via the DISC, but across multiple key signaling platforms including TNF complex II, the ripoptosome, and RIPK1/RIPK3 necrosome.

摘要

细胞程序性死亡对于机体的发育和细胞稳态至关重要。多蛋白平台，包括死亡诱导信号复合物（DISC），通过核心 FADD:胱天蛋白酶-8 复合物及其调节伙伴（如细胞死亡抑制剂 c-FLIP）来协调细胞命运。在这里，我们使用电子显微镜观察全长 procaspase-8 与 FADD 的复合物。我们的结构分析现在揭示了 FADD 引发的串联死亡效应结构域（tDED）螺旋丝如何需要定位 procaspase-8 的催化结构域，从而通过反平行二聚化来激活它们。引人注目的是，c-FLIP 招募到该复合物中通过改变 tDED 三螺旋结构来抑制 Caspase-8 活性，导致经典的 tDED Type I 结合位点的空间位阻。这阻止了 Caspase-8 催化结构域的组装和 tDED 螺旋丝的延伸。我们的研究结果揭示了核心 FADD:胱天蛋白酶-8 复合物的可塑性、组成和结构如何通过 DISC 不仅对生死决策具有关键意义，而且对包括 TNF 复合物 II、ripoptosome 和 RIPK1/RIPK3 坏死小体在内的多个关键信号平台也具有关键意义。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/01ab/7864959/d43098cff260/41467_2020_20806_Fig1_HTML.jpg

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冷冻电镜结构分析揭示了 FADD:Caspase-8 复合物的结构，阐明了细胞命运协调控制的催化二聚体结构。

Cryo-EM structural analysis of FADD:Caspase-8 complexes defines the catalytic dimer architecture for co-ordinated control of cell fate.

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