SARS-CoV 9b Protein Diffuses into Nucleus, Undergoes Active Crm1 Mediated Nucleocytoplasmic Export and Triggers Apoptosis When Retained in the Nucleus

BACKGROUND: 9b is an accessory protein of the SARS-CoV. It is a small protein of 98 amino acids and its structure has been solved recently. 9b is known to localize in the extra-nuclear region and has been postulated to possess a nuclear export signal (NES), however the role of NES in 9b functioning...

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Autores principales: Sharma, Kulbhushan, Åkerström, Sara, Sharma, Anuj Kumar, Chow, Vincent T. K., Teow, Shumein, Abrenica, Bernard, Booth, Stephanie A., Booth, Timothy F., Mirazimi, Ali, Lal, Sunil K.
Formato: Texto
Lenguaje:English
Publicado: Public Library of Science 2011
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3103500/
https://www.ncbi.nlm.nih.gov/pubmed/21637748
http://dx.doi.org/10.1371/journal.pone.0019436
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author Sharma, Kulbhushan
Åkerström, Sara
Sharma, Anuj Kumar
Chow, Vincent T. K.
Teow, Shumein
Abrenica, Bernard
Booth, Stephanie A.
Booth, Timothy F.
Mirazimi, Ali
Lal, Sunil K.
author_facet Sharma, Kulbhushan
Åkerström, Sara
Sharma, Anuj Kumar
Chow, Vincent T. K.
Teow, Shumein
Abrenica, Bernard
Booth, Stephanie A.
Booth, Timothy F.
Mirazimi, Ali
Lal, Sunil K.
author_sort Sharma, Kulbhushan
collection PubMed
description BACKGROUND: 9b is an accessory protein of the SARS-CoV. It is a small protein of 98 amino acids and its structure has been solved recently. 9b is known to localize in the extra-nuclear region and has been postulated to possess a nuclear export signal (NES), however the role of NES in 9b functioning is not well understood. PRINCIPAL FINDINGS/METHODOLOGY: In this report, we demonstrate that 9b in the absence of any nuclear localization signal (NLS) enters the nucleus by passive transport. Using various cell cycle inhibitors, we have shown that the nuclear entry of 9b is independent of the cell cycle. Further, we found that 9b interacts with the cellular protein Crm1 and gets exported out of the nucleus using an active NES. We have also revealed that this NES activity influences the half-life of 9b and affects host cell death. We found that an export signal deficient SARS-CoV 9b protein induces apoptosis in transiently transfected cells and showed elevated caspase-3 activity. CONCLUSION/SIGNIFICANCE: Here, we showed that nuclear shuttling of 9b and its interaction with Crm1 are essential for the proper degradation of 9b and blocking the nuclear export of this protein induces apoptosis. This phenomenon may be critical in providing a novel role to the 9b accessory protein of SARS-CoV.
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spelling pubmed-31035002011-06-02 SARS-CoV 9b Protein Diffuses into Nucleus, Undergoes Active Crm1 Mediated Nucleocytoplasmic Export and Triggers Apoptosis When Retained in the Nucleus Sharma, Kulbhushan Åkerström, Sara Sharma, Anuj Kumar Chow, Vincent T. K. Teow, Shumein Abrenica, Bernard Booth, Stephanie A. Booth, Timothy F. Mirazimi, Ali Lal, Sunil K. PLoS One Research Article BACKGROUND: 9b is an accessory protein of the SARS-CoV. It is a small protein of 98 amino acids and its structure has been solved recently. 9b is known to localize in the extra-nuclear region and has been postulated to possess a nuclear export signal (NES), however the role of NES in 9b functioning is not well understood. PRINCIPAL FINDINGS/METHODOLOGY: In this report, we demonstrate that 9b in the absence of any nuclear localization signal (NLS) enters the nucleus by passive transport. Using various cell cycle inhibitors, we have shown that the nuclear entry of 9b is independent of the cell cycle. Further, we found that 9b interacts with the cellular protein Crm1 and gets exported out of the nucleus using an active NES. We have also revealed that this NES activity influences the half-life of 9b and affects host cell death. We found that an export signal deficient SARS-CoV 9b protein induces apoptosis in transiently transfected cells and showed elevated caspase-3 activity. CONCLUSION/SIGNIFICANCE: Here, we showed that nuclear shuttling of 9b and its interaction with Crm1 are essential for the proper degradation of 9b and blocking the nuclear export of this protein induces apoptosis. This phenomenon may be critical in providing a novel role to the 9b accessory protein of SARS-CoV. Public Library of Science 2011-05-27 /pmc/articles/PMC3103500/ /pubmed/21637748 http://dx.doi.org/10.1371/journal.pone.0019436 Text en Sharma et al. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Sharma, Kulbhushan
Åkerström, Sara
Sharma, Anuj Kumar
Chow, Vincent T. K.
Teow, Shumein
Abrenica, Bernard
Booth, Stephanie A.
Booth, Timothy F.
Mirazimi, Ali
Lal, Sunil K.
SARS-CoV 9b Protein Diffuses into Nucleus, Undergoes Active Crm1 Mediated Nucleocytoplasmic Export and Triggers Apoptosis When Retained in the Nucleus
title SARS-CoV 9b Protein Diffuses into Nucleus, Undergoes Active Crm1 Mediated Nucleocytoplasmic Export and Triggers Apoptosis When Retained in the Nucleus
title_full SARS-CoV 9b Protein Diffuses into Nucleus, Undergoes Active Crm1 Mediated Nucleocytoplasmic Export and Triggers Apoptosis When Retained in the Nucleus
title_fullStr SARS-CoV 9b Protein Diffuses into Nucleus, Undergoes Active Crm1 Mediated Nucleocytoplasmic Export and Triggers Apoptosis When Retained in the Nucleus
title_full_unstemmed SARS-CoV 9b Protein Diffuses into Nucleus, Undergoes Active Crm1 Mediated Nucleocytoplasmic Export and Triggers Apoptosis When Retained in the Nucleus
title_short SARS-CoV 9b Protein Diffuses into Nucleus, Undergoes Active Crm1 Mediated Nucleocytoplasmic Export and Triggers Apoptosis When Retained in the Nucleus
title_sort sars-cov 9b protein diffuses into nucleus, undergoes active crm1 mediated nucleocytoplasmic export and triggers apoptosis when retained in the nucleus
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3103500/
https://www.ncbi.nlm.nih.gov/pubmed/21637748
http://dx.doi.org/10.1371/journal.pone.0019436
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