Enterovirus-A71 exploits RAB11 to recruit chaperones for virus morphogenesis
Background: Enterovirus 71 (EV-A71) causes Hand, Foot and Mouth Disease (HFMD) in children and has been associated with neurological complications. The molecular mechanisms involved in EV-A71 pathogenesis have remained elusive. Methods: A siRNA screen in EV-A71 infected-motor neurons was performed t...
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2024
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Medicine, Health and Life Sciences Foot and Mouth Disease Enterovirus A71 |
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Medicine, Health and Life Sciences Foot and Mouth Disease Enterovirus A71 Ng, Qing Yong Mahendran, Vikneswari Lim, Ze Qin Tan, Jasmine Hwee Yee Wong, Joel Jie Feng Chu, Justin Jang Hann Chow, Vincent T. K. Sze, Newman Siu Kwan Alonso, Sylvie Enterovirus-A71 exploits RAB11 to recruit chaperones for virus morphogenesis |
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Background: Enterovirus 71 (EV-A71) causes Hand, Foot and Mouth Disease (HFMD) in children and has been associated with neurological complications. The molecular mechanisms involved in EV-A71 pathogenesis have remained elusive. Methods: A siRNA screen in EV-A71 infected-motor neurons was performed targeting 112 genes involved in intracellular membrane trafficking, followed by validation of the top four hits using deconvoluted siRNA. Downstream approaches including viral entry by-pass, intracellular viral genome quantification by qPCR, Western blot analyses, and Luciferase reporter assays allowed determine the stage of the infection cycle the top candidate, RAB11A was involved in. Proximity ligation assay, co-immunoprecipitation and multiplex confocal imaging were employed to study interactions between viral components and RAB11A. Dominant negative and constitutively active RAB11A constructs were used to determine the importance of the protein’s GTPase activity during EV-A71 infection. Mass spectrometry and protein interaction analyses were employed for the identification of RAB11A’s host interacting partners during infection. Results: Small GTPase RAB11A was identified as a novel pro-viral host factor during EV-A71 infection. RAB11A and RAB11B isoforms were interchangeably exploited by strains from major EV-A71 genogroups and by Coxsackievirus A16, another major causative agent of HFMD. We showed that RAB11A was not involved in viral entry, IRES-mediated protein translation, viral genome replication, and virus exit. RAB11A co-localized with replication organelles where it interacted with structural and non-structural viral components. Over-expression of dominant negative (S25N; GDP-bound) and constitutively active (Q70L; GTP-bound) RAB11A mutants had no effect on EV-A71 infection outcome, ruling out RAB11A’s involvement in intracellular trafficking of viral or host components. Instead, decreased ratio of intracellular mature viral particles to viral RNA copies and increased VP0:VP2 ratio in siRAB11-treated cells supported a role in provirion maturation hallmarked by VP0 cleavage into VP2 and VP4. Finally, chaperones, not trafficking and transporter proteins, were found to be RAB11A’s top interacting partners during EV-A71 infection. Among which, CCT8 subunit from the chaperone complex TRiC/CCT was further validated and shown to interact with viral structural proteins specifically, representing yet another novel pro-viral host factor during EV-A71 infection. Conclusions: This study describes a novel, unconventional role for RAB11A during viral infection where it participates in the complex process of virus morphogenesis by recruiting essential chaperone proteins. |
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School of Biological Sciences |
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School of Biological Sciences Ng, Qing Yong Mahendran, Vikneswari Lim, Ze Qin Tan, Jasmine Hwee Yee Wong, Joel Jie Feng Chu, Justin Jang Hann Chow, Vincent T. K. Sze, Newman Siu Kwan Alonso, Sylvie |
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Article |
| author |
Ng, Qing Yong Mahendran, Vikneswari Lim, Ze Qin Tan, Jasmine Hwee Yee Wong, Joel Jie Feng Chu, Justin Jang Hann Chow, Vincent T. K. Sze, Newman Siu Kwan Alonso, Sylvie |
| author_sort |
Ng, Qing Yong |
| title |
Enterovirus-A71 exploits RAB11 to recruit chaperones for virus morphogenesis |
| title_short |
Enterovirus-A71 exploits RAB11 to recruit chaperones for virus morphogenesis |
| title_full |
Enterovirus-A71 exploits RAB11 to recruit chaperones for virus morphogenesis |
| title_fullStr |
Enterovirus-A71 exploits RAB11 to recruit chaperones for virus morphogenesis |
| title_full_unstemmed |
Enterovirus-A71 exploits RAB11 to recruit chaperones for virus morphogenesis |
| title_sort |
enterovirus-a71 exploits rab11 to recruit chaperones for virus morphogenesis |
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2024 |
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https://hdl.handle.net/10356/181308 |
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1816859033153306624 |
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sg-ntu-dr.10356-1813082024-11-25T15:32:32Z Enterovirus-A71 exploits RAB11 to recruit chaperones for virus morphogenesis Ng, Qing Yong Mahendran, Vikneswari Lim, Ze Qin Tan, Jasmine Hwee Yee Wong, Joel Jie Feng Chu, Justin Jang Hann Chow, Vincent T. K. Sze, Newman Siu Kwan Alonso, Sylvie School of Biological Sciences Medicine, Health and Life Sciences Foot and Mouth Disease Enterovirus A71 Background: Enterovirus 71 (EV-A71) causes Hand, Foot and Mouth Disease (HFMD) in children and has been associated with neurological complications. The molecular mechanisms involved in EV-A71 pathogenesis have remained elusive. Methods: A siRNA screen in EV-A71 infected-motor neurons was performed targeting 112 genes involved in intracellular membrane trafficking, followed by validation of the top four hits using deconvoluted siRNA. Downstream approaches including viral entry by-pass, intracellular viral genome quantification by qPCR, Western blot analyses, and Luciferase reporter assays allowed determine the stage of the infection cycle the top candidate, RAB11A was involved in. Proximity ligation assay, co-immunoprecipitation and multiplex confocal imaging were employed to study interactions between viral components and RAB11A. Dominant negative and constitutively active RAB11A constructs were used to determine the importance of the protein’s GTPase activity during EV-A71 infection. Mass spectrometry and protein interaction analyses were employed for the identification of RAB11A’s host interacting partners during infection. Results: Small GTPase RAB11A was identified as a novel pro-viral host factor during EV-A71 infection. RAB11A and RAB11B isoforms were interchangeably exploited by strains from major EV-A71 genogroups and by Coxsackievirus A16, another major causative agent of HFMD. We showed that RAB11A was not involved in viral entry, IRES-mediated protein translation, viral genome replication, and virus exit. RAB11A co-localized with replication organelles where it interacted with structural and non-structural viral components. Over-expression of dominant negative (S25N; GDP-bound) and constitutively active (Q70L; GTP-bound) RAB11A mutants had no effect on EV-A71 infection outcome, ruling out RAB11A’s involvement in intracellular trafficking of viral or host components. Instead, decreased ratio of intracellular mature viral particles to viral RNA copies and increased VP0:VP2 ratio in siRAB11-treated cells supported a role in provirion maturation hallmarked by VP0 cleavage into VP2 and VP4. Finally, chaperones, not trafficking and transporter proteins, were found to be RAB11A’s top interacting partners during EV-A71 infection. Among which, CCT8 subunit from the chaperone complex TRiC/CCT was further validated and shown to interact with viral structural proteins specifically, representing yet another novel pro-viral host factor during EV-A71 infection. Conclusions: This study describes a novel, unconventional role for RAB11A during viral infection where it participates in the complex process of virus morphogenesis by recruiting essential chaperone proteins. Published version This work was funded by the National Medical Research Council (NMRC/ CBRG/0098/2015) and National Research Foundation (NRF-CRP21-2018–0004) allocated to SA. 2024-11-25T03:02:27Z 2024-11-25T03:02:27Z 2024 Journal Article Ng, Q. Y., Mahendran, V., Lim, Z. Q., Tan, J. H. Y., Wong, J. J. F., Chu, J. J. H., Chow, V. T. K., Sze, N. S. K. & Alonso, S. (2024). Enterovirus-A71 exploits RAB11 to recruit chaperones for virus morphogenesis. Journal of Biomedical Science, 31(1), 65-. https://dx.doi.org/10.1186/s12929-024-01053-2 1021-7770 https://hdl.handle.net/10356/181308 10.1186/s12929-024-01053-2 38943128 2-s2.0-85197145278 1 31 65 en Journal of Biomedical Science © 2024 The Author(s). Open Access. This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this licence, visit http://creativecommons.org/licenses/by/4.0/. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated in a credit line to the data. application/pdf |