Alvin Lu scite author profile

SUMMARY Inflammasomes elicit host defense inside cells by activating caspase-1 for cytokine maturation and cell death. AIM2 and NLRP3 are representative sensor proteins in two major families of inflammasomes. The adaptor protein ASC bridges the sensor proteins and caspase-1 to form ternary inflammasome complexes, achieved through pyrindomain (PYD) interactions between sensors and ASC, and caspase activation and recruitment domain (CARD) interactions between ASC and caspase-1. We found that PYD and CARD both form filaments. Activated AIM2 and NLRP3 nucleate PYD filaments of ASC, which in turn cluster the CARD of ASC. ASC thus nucleates CARD filaments of caspase-1 leading to proximity-induced activation. Endogenous NLRP3 inflammasome is also filamentous. The cryo-EM structure of ASCPYD filament at near-atomic resolution provides a template for homo- and hetero-PYD/PYD associations, as confirmed by structure-guided mutagenesis. We propose that ASC-dependent inflammasomes in both families share a unified assembly mechanism that involves two successive steps of nucleation-induced polymerization.

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Cryo-EM structure of the activated NAIP2-NLRC4 inflammasome reveals nucleated polymerization

Zhang

Chen

Ruan

et al. 2015

Science

372

450

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The NLR family apoptosis inhibitory proteins (NAIPs) bind conserved bacterial ligands, such as the bacterial rod protein PrgJ, and recruit NLR family CARD-containing protein 4 (NLRC4) as the inflammasome adapter to activate innate immunity. We found that the PrgJ-NAIP2-NLRC4 inflammasome is assembled into multisubunit disk-like structures through a unidirectional adenosine triphosphatase polymerization, primed with a single PrgJ-activated NAIP2 per disk. Cryo–electron microscopy (cryo-EM) reconstruction at subnanometer resolution revealed a ~90° hinge rotation accompanying NLRC4 activation. Unlike in the related heptameric Apaf-1 apoptosome, in which each subunit needs to be conformationally activated by its ligand before assembly, a single PrgJ-activated NAIP2 initiates NLRC4 polymerization in a domino-like reaction to promote the disk assembly. These insights reveal the mechanism of signal amplification in NAIP-NLRC4 inflammasomes.

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Molecular basis of caspase-1 polymerization and its inhibition by a new capping mechanism

Schmidt

et al. 2016

Nat Struct Mol Biol

150

218

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Inflammasomes are cytosolic caspase-1 activation complexes that sense intrinsic and extrinsic danger signals to trigger inflammatory responses and pyroptotic cell death. Homotypic interactions by Pyrin domains (PYD) and caspase recruitment domains (CARD) in inflammasome component proteins mediate oligomerization into filamentous assemblies. Several cytosolic proteins consisting of only the interaction domains exert inhibitory effects on inflammasome assembly. In this study, we determined the structure of human caspase-1CARD filament by cryo-electron microscopy and investigated the biophysical properties of two caspase-1-like CARD-only proteins, human inhibitor of CARD (INCA or CARD17) and ICEBERG (or CARD18). Our results reveal the surprising finding that INCA caps caspase-1 filament, thereby exerting potent inhibition with low nanomolar Ki on caspase-1CARD polymerization in vitro and inflammasome activation in cells. While caspase-1CARD uses six complementary surfaces of three types for filament assembly, INCA is defective in two of the six interfaces to terminate caspase-1 filament.

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Alvin Lu

Unified Polymerization Mechanism for the Assembly of ASC-Dependent Inflammasomes

Cryo-EM structure of the activated NAIP2-NLRC4 inflammasome reveals nucleated polymerization

Molecular basis of caspase-1 polymerization and its inhibition by a new capping mechanism

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