Journal
NATURE COMMUNICATIONS
Volume 12, Issue 1, Pages -Publisher
NATURE PORTFOLIO
DOI: 10.1038/s41467-021-23045-8
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Funding
- American Cancer Society Research Scholars Grant [RSG-15-224-01DMC]
- NSF CAREER award [MCB1845003]
- NIH [R01GM129342, R35GM122510]
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Inflammasomes, such as AIM2-ASC, are essential filamentous signaling platforms in innate immunity. The similarity in structure between AIM2 and ASC filaments have been revealed through cryo-EM and simulations methods, shedding light on the assembly and recognition mechanisms of these filaments.
Inflammasomes are filamentous signaling platforms integral to innate immunity. Currently, little is known about how these structurally similar filaments recognize and distinguish one another. A cryo-EM structure of the AIM2(PYD) filament reveals that the architecture of the upstream filament is essentially identical to that of the adaptor ASC(PYD) filament. In silico simulations using Rosetta and molecular dynamics followed by biochemical and cellular experiments consistently demonstrate that individual filaments assemble bidirectionally. By contrast, the recognition between AIM2 and ASC requires at least one to be oligomeric and occurs in a head-to-tail manner. Using in silico mutagenesis as a guide, we also identify specific axial and lateral interfaces that dictate the recognition and distinction between AIM2 and ASC filaments. Together, the results here provide a robust framework for delineating the signaling specificity and order of inflammasomes. AIM2-ASC inflammasomes are filamentous signalling platforms that play a central role in host innate defence. Here, the authors present the filament cryo-EM structure of the inflammasome receptor AIM2, which is very similar to the adaptor ASC filament structure. By employing Rosetta and Molecular Dynamics simulations the authors provide further insights into the directionality and recognition mechanisms of the individual AIM2 and ASC filaments, which is further validated with biochemical and cellular experiments.
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