Transient Compound Treatment Induces a Multigenerational Reduction of Oxysterol-Binding Protein (OSBP) Levels and Prophylactic Antiviral Activity

[Image: see text] Oxysterol-binding protein (OSBP) is a lipid transport and regulatory protein required for the replication of Enterovirus genus viruses, which includes many significant human pathogens. Short-term exposure (i.e., 1–6 h) to a low dose (i.e., 1 nM) of the natural product compound OSW-...

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Autores principales: Roberts, Brett L., Severance, Zachary C., Bensen, Ryan C., Le, Anh T., Kothapalli, Naga Rama, Nuñez, Juan I., Ma, Hongyan, Wu, Si, Standke, Shawna J., Yang, Zhibo, Reddig, William J., Blewett, Earl L., Burgett, Anthony W. G.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Chemical Society 2018
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6379863/
https://www.ncbi.nlm.nih.gov/pubmed/30576108
http://dx.doi.org/10.1021/acschembio.8b00984
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author Roberts, Brett L.
Severance, Zachary C.
Bensen, Ryan C.
Le, Anh T.
Kothapalli, Naga Rama
Nuñez, Juan I.
Ma, Hongyan
Wu, Si
Standke, Shawna J.
Yang, Zhibo
Reddig, William J.
Blewett, Earl L.
Burgett, Anthony W. G.
author_facet Roberts, Brett L.
Severance, Zachary C.
Bensen, Ryan C.
Le, Anh T.
Kothapalli, Naga Rama
Nuñez, Juan I.
Ma, Hongyan
Wu, Si
Standke, Shawna J.
Yang, Zhibo
Reddig, William J.
Blewett, Earl L.
Burgett, Anthony W. G.
author_sort Roberts, Brett L.
collection PubMed
description [Image: see text] Oxysterol-binding protein (OSBP) is a lipid transport and regulatory protein required for the replication of Enterovirus genus viruses, which includes many significant human pathogens. Short-term exposure (i.e., 1–6 h) to a low dose (i.e., 1 nM) of the natural product compound OSW-1 induces a reduction of cellular OSBP levels by ∼90% in multiple different cell lines with no measurable cytotoxicity, defect in cellular proliferation, or global proteome reduction. Interestingly, the reduction of OSBP levels persists multiple days after the low-dose, transient OSW-1 compound treatment is ended and the intracellular OSW-1 compound levels drop to undetectable levels. The reduction in OSBP levels is inherited in multiple generations of cells that are propagated after the OSW-1 compound treatment is stopped. The enduring multiday, multigenerational reduction of OSBP levels triggered by the OSW-1 compound is not due to proteasome degradation of OSBP or due to a reduction in OSBP mRNA levels. OSW-1 compound treatment induces transient autophagy in cells, but blocking autophagy does not rescue OSBP levels. Although the specific cellular mechanism of long-term OSBP repression is not yet identified, these results clearly show the existence of an OSBP specific cellular regulation process that is triggered upon treatment with an OSBP-binding compound. The stable reduction of OSBP levels upon short-term, transient OSW-1 compound treatment will be a powerful tool to understand OSBP regulation and cellular function. Additionally, the persistent reduction in OSBP levels triggered by the transient OSW-1 compound treatment substantially reduces viral replication in treated cells. Therefore, the long-term, compound-induced reduction of OSBP in cells presents a new route to broad spectrum anti-Enterovirus activity, including as a novel route to antiviral prophylactic treatment through small molecule targeting a human host protein.
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spelling pubmed-63798632019-02-20 Transient Compound Treatment Induces a Multigenerational Reduction of Oxysterol-Binding Protein (OSBP) Levels and Prophylactic Antiviral Activity Roberts, Brett L. Severance, Zachary C. Bensen, Ryan C. Le, Anh T. Kothapalli, Naga Rama Nuñez, Juan I. Ma, Hongyan Wu, Si Standke, Shawna J. Yang, Zhibo Reddig, William J. Blewett, Earl L. Burgett, Anthony W. G. ACS Chem Biol [Image: see text] Oxysterol-binding protein (OSBP) is a lipid transport and regulatory protein required for the replication of Enterovirus genus viruses, which includes many significant human pathogens. Short-term exposure (i.e., 1–6 h) to a low dose (i.e., 1 nM) of the natural product compound OSW-1 induces a reduction of cellular OSBP levels by ∼90% in multiple different cell lines with no measurable cytotoxicity, defect in cellular proliferation, or global proteome reduction. Interestingly, the reduction of OSBP levels persists multiple days after the low-dose, transient OSW-1 compound treatment is ended and the intracellular OSW-1 compound levels drop to undetectable levels. The reduction in OSBP levels is inherited in multiple generations of cells that are propagated after the OSW-1 compound treatment is stopped. The enduring multiday, multigenerational reduction of OSBP levels triggered by the OSW-1 compound is not due to proteasome degradation of OSBP or due to a reduction in OSBP mRNA levels. OSW-1 compound treatment induces transient autophagy in cells, but blocking autophagy does not rescue OSBP levels. Although the specific cellular mechanism of long-term OSBP repression is not yet identified, these results clearly show the existence of an OSBP specific cellular regulation process that is triggered upon treatment with an OSBP-binding compound. The stable reduction of OSBP levels upon short-term, transient OSW-1 compound treatment will be a powerful tool to understand OSBP regulation and cellular function. Additionally, the persistent reduction in OSBP levels triggered by the transient OSW-1 compound treatment substantially reduces viral replication in treated cells. Therefore, the long-term, compound-induced reduction of OSBP in cells presents a new route to broad spectrum anti-Enterovirus activity, including as a novel route to antiviral prophylactic treatment through small molecule targeting a human host protein. American Chemical Society 2018-12-21 2019-02-15 /pmc/articles/PMC6379863/ /pubmed/30576108 http://dx.doi.org/10.1021/acschembio.8b00984 Text en Copyright © 2018 American Chemical Society This is an open access article published under an ACS AuthorChoice License (http://pubs.acs.org/page/policy/authorchoice_termsofuse.html) , which permits copying and redistribution of the article or any adaptations for non-commercial purposes.
spellingShingle Roberts, Brett L.
Severance, Zachary C.
Bensen, Ryan C.
Le, Anh T.
Kothapalli, Naga Rama
Nuñez, Juan I.
Ma, Hongyan
Wu, Si
Standke, Shawna J.
Yang, Zhibo
Reddig, William J.
Blewett, Earl L.
Burgett, Anthony W. G.
Transient Compound Treatment Induces a Multigenerational Reduction of Oxysterol-Binding Protein (OSBP) Levels and Prophylactic Antiviral Activity
title Transient Compound Treatment Induces a Multigenerational Reduction of Oxysterol-Binding Protein (OSBP) Levels and Prophylactic Antiviral Activity
title_full Transient Compound Treatment Induces a Multigenerational Reduction of Oxysterol-Binding Protein (OSBP) Levels and Prophylactic Antiviral Activity
title_fullStr Transient Compound Treatment Induces a Multigenerational Reduction of Oxysterol-Binding Protein (OSBP) Levels and Prophylactic Antiviral Activity
title_full_unstemmed Transient Compound Treatment Induces a Multigenerational Reduction of Oxysterol-Binding Protein (OSBP) Levels and Prophylactic Antiviral Activity
title_short Transient Compound Treatment Induces a Multigenerational Reduction of Oxysterol-Binding Protein (OSBP) Levels and Prophylactic Antiviral Activity
title_sort transient compound treatment induces a multigenerational reduction of oxysterol-binding protein (osbp) levels and prophylactic antiviral activity
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6379863/
https://www.ncbi.nlm.nih.gov/pubmed/30576108
http://dx.doi.org/10.1021/acschembio.8b00984
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