Caspase cleavage of Influenza A virus M2 disrupts M2-LC3 interaction and regulates virion production

Carmen Figueras-Novoa
Masato Akutsu
Daichi Murata
Ming Jiang
Beatriz Montaner
Christelle Dubois
Avinash Shenoy
Rupert Beale

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Abstract

Influenza A virus (IAV) Matrix 2 (M2) protein is an ion channel, required for efficient viral entry and egress. M2 interacts with the small ubiquitin-like LC3 protein through a cytoplasmic C-terminal LC3 interacting region (LIR). Here, we report that M2 is cleaved by caspases, abolishing the M2-LC3 interaction. A crystal structure of the M2 LIR in complex with LC3 indicates the caspase cleavage tetrapeptide motif ( ₈₂ SAVD ₈₅ ) is an unstructured linear motif that does not overlap with the LIR. Furthermore, an IAV mutant expressing a permanently truncated M2, mimicking caspase cleavage, is impaired in M2 plasma membrane transport and produces a significantly attenuated virus. Our results reveal a dynamic regulation of the M2-LC3 interaction by caspases. This highlights the role of host proteases in regulating IAV exit, relating virion production with host cell state.

Version published to 10.1101/2024.04.04.588074v1 on bioRxiv
Apr 4, 2024

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Caspase cleavage of Influenza A virus M2 disrupts M2-LC3 interaction and regulates virion production

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Abstract

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Multiple pro-viral effects of the host protein G3BP in SARS-CoV-2 Infection

The flavivirus protein NS4B recruits the cis -Golgi protein ACBD3 to modify ER-Golgi trafficking for virion release

A small-molecule SARS-CoV-2 inhibitor targeting the membrane protein

Listed in

Abstract

Article activity feed

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