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Viral subversion of selective autophagy is critical for biogenesis of virus replication organelles

Author

Listed:
  • Yun Lan

    (University of Hong Kong)

  • Sophie Wilhelmina Leur

    (University of Oxford)

  • Julia Ayano Fernando

    (University of Hong Kong)

  • Ho Him Wong

    (University of Hong Kong)

  • Martin Kampmann

    (University of Hong Kong)

  • Lewis Siu

    (University of Hong Kong)

  • Jingshu Zhang

    (University of Hong Kong)

  • Mingyuan Li

    (University of Hong Kong)

  • John M. Nicholls

    (University of Hong Kong)

  • Sumana Sanyal

    (University of Hong Kong
    University of Oxford)

Abstract

Infection by many (+)RNA viruses is accompanied by ER-expansion and membrane remodelling to form viral replication organelles, followed by assembly and secretion of viral progenies. We previously identified that virus-triggered lipophagy was critical for flaviviral assembly, and is driven by the lipid droplet associated protein Ancient ubiquitin protein 1 (Aup1). A ubiquitin conjugating protein Ube2g2 that functions as a co-factor for Aup1 was identified as a host dependency factor in our study. Here we characterized its function: Ube2g2-deficient cells displayed a dramatic reduction in virus production, which could be rescued by reconstituting the wild-type but not the catalytically deficient (C89K) mutant of Ube2g2, suggesting that its enzymatic activity is necessary. Ube2g2 deficiency did not affect entry of virus particles but resulted in a profound loss in formation of replication organelles, and production of infectious progenies. This phenomenon resulted from its dual activity in (i) triggering lipophagy in conjunction with Aup1, and (ii) degradation of ER chaperones such as Herpud1, SEL1L, Hrd1, along with Sec62 to restrict ER-phagy upon Xbp1-IRE1 triggered ER expansion. Our results therefore underscore an exquisite fine-tuning of selective autophagy by flaviviruses that drive host membrane reorganization during infection to enable biogenesis of viral replication organelles.

Suggested Citation

  • Yun Lan & Sophie Wilhelmina Leur & Julia Ayano Fernando & Ho Him Wong & Martin Kampmann & Lewis Siu & Jingshu Zhang & Mingyuan Li & John M. Nicholls & Sumana Sanyal, 2023. "Viral subversion of selective autophagy is critical for biogenesis of virus replication organelles," Nature Communications, Nature, vol. 14(1), pages 1-15, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-38377-w
    DOI: 10.1038/s41467-023-38377-w
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    References listed on IDEAS

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    1. Marisa Loi & Andrea Raimondi & Diego Morone & Maurizio Molinari, 2019. "ESCRT-III-driven piecemeal micro-ER-phagy remodels the ER during recovery from ER stress," Nature Communications, Nature, vol. 10(1), pages 1-12, December.
    2. Diego Tapia & Tomás Jiménez & Constanza Zamora & Javier Espinoza & Riccardo Rizzo & Alexis González-Cárdenas & Danitza Fuentes & Sergio Hernández & Viviana A. Cavieres & Andrea Soza & Fanny Guzmán & G, 2019. "KDEL receptor regulates secretion by lysosome relocation- and autophagy-dependent modulation of lipid-droplet turnover," Nature Communications, Nature, vol. 10(1), pages 1-17, December.
    3. Samir Bhatt & Peter W. Gething & Oliver J. Brady & Jane P. Messina & Andrew W. Farlow & Catherine L. Moyes & John M. Drake & John S. Brownstein & Anne G. Hoen & Osman Sankoh & Monica F. Myers & Dylan , 2013. "The global distribution and burden of dengue," Nature, Nature, vol. 496(7446), pages 504-507, April.
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