A Heat-Shock Protein Axis Regulates VEGFR2 Proteolysis, Blood Vessel Development and Repair

Vascular endothelial growth factor A (VEGF-A) binds to the VEGFR2 receptor tyrosine kinase, regulating endothelial function, vascular physiology and angiogenesis. However, the mechanism underlying VEGFR2 turnover and degradation in this response is unclear. Here, we tested a role for heat-shock prot...

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Autores principales: Bruns, Alexander F., Yuldasheva, Nadira, Latham, Antony M., Bao, Leyuan, Pellet-Many, Caroline, Frankel, Paul, Stephen, Sam L., Howell, Gareth J., Wheatcroft, Stephen B., Kearney, Mark T., Zachary, Ian C., Ponnambalam, Sreenivasan
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2012
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3491040/
https://www.ncbi.nlm.nih.gov/pubmed/23139789
http://dx.doi.org/10.1371/journal.pone.0048539
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author Bruns, Alexander F.
Yuldasheva, Nadira
Latham, Antony M.
Bao, Leyuan
Pellet-Many, Caroline
Frankel, Paul
Stephen, Sam L.
Howell, Gareth J.
Wheatcroft, Stephen B.
Kearney, Mark T.
Zachary, Ian C.
Ponnambalam, Sreenivasan
author_facet Bruns, Alexander F.
Yuldasheva, Nadira
Latham, Antony M.
Bao, Leyuan
Pellet-Many, Caroline
Frankel, Paul
Stephen, Sam L.
Howell, Gareth J.
Wheatcroft, Stephen B.
Kearney, Mark T.
Zachary, Ian C.
Ponnambalam, Sreenivasan
author_sort Bruns, Alexander F.
collection PubMed
description Vascular endothelial growth factor A (VEGF-A) binds to the VEGFR2 receptor tyrosine kinase, regulating endothelial function, vascular physiology and angiogenesis. However, the mechanism underlying VEGFR2 turnover and degradation in this response is unclear. Here, we tested a role for heat-shock proteins in regulating the presentation of VEGFR2 to a degradative pathway. Pharmacological inhibition of HSP90 stimulated VEGFR2 degradation in primary endothelial cells and blocked VEGF-A-stimulated intracellular signaling via VEGFR2. HSP90 inhibition stimulated the formation of a VEGFR2-HSP70 complex. Clathrin-mediated VEGFR2 endocytosis is required for this HSP-linked degradative pathway for targeting VEGFR2 to the endosome-lysosome system. HSP90 perturbation selectively inhibited VEGF-A-stimulated human endothelial cell migration in vitro. A mouse femoral artery model showed that HSP90 inhibition also blocked blood vessel repair in vivo consistent with decreased endothelial regeneration. Depletion of either HSP70 or HSP90 caused defects in blood vessel formation in a transgenic zebrafish model. We conclude that perturbation of the HSP70-HSP90 heat-shock protein axis stimulates degradation of endothelial VEGFR2 and modulates VEGF-A-stimulated intracellular signaling, endothelial cell migration, blood vessel development and repair.
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spelling pubmed-34910402012-11-08 A Heat-Shock Protein Axis Regulates VEGFR2 Proteolysis, Blood Vessel Development and Repair Bruns, Alexander F. Yuldasheva, Nadira Latham, Antony M. Bao, Leyuan Pellet-Many, Caroline Frankel, Paul Stephen, Sam L. Howell, Gareth J. Wheatcroft, Stephen B. Kearney, Mark T. Zachary, Ian C. Ponnambalam, Sreenivasan PLoS One Research Article Vascular endothelial growth factor A (VEGF-A) binds to the VEGFR2 receptor tyrosine kinase, regulating endothelial function, vascular physiology and angiogenesis. However, the mechanism underlying VEGFR2 turnover and degradation in this response is unclear. Here, we tested a role for heat-shock proteins in regulating the presentation of VEGFR2 to a degradative pathway. Pharmacological inhibition of HSP90 stimulated VEGFR2 degradation in primary endothelial cells and blocked VEGF-A-stimulated intracellular signaling via VEGFR2. HSP90 inhibition stimulated the formation of a VEGFR2-HSP70 complex. Clathrin-mediated VEGFR2 endocytosis is required for this HSP-linked degradative pathway for targeting VEGFR2 to the endosome-lysosome system. HSP90 perturbation selectively inhibited VEGF-A-stimulated human endothelial cell migration in vitro. A mouse femoral artery model showed that HSP90 inhibition also blocked blood vessel repair in vivo consistent with decreased endothelial regeneration. Depletion of either HSP70 or HSP90 caused defects in blood vessel formation in a transgenic zebrafish model. We conclude that perturbation of the HSP70-HSP90 heat-shock protein axis stimulates degradation of endothelial VEGFR2 and modulates VEGF-A-stimulated intracellular signaling, endothelial cell migration, blood vessel development and repair. Public Library of Science 2012-11-06 /pmc/articles/PMC3491040/ /pubmed/23139789 http://dx.doi.org/10.1371/journal.pone.0048539 Text en © 2012 Bruns 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
Bruns, Alexander F.
Yuldasheva, Nadira
Latham, Antony M.
Bao, Leyuan
Pellet-Many, Caroline
Frankel, Paul
Stephen, Sam L.
Howell, Gareth J.
Wheatcroft, Stephen B.
Kearney, Mark T.
Zachary, Ian C.
Ponnambalam, Sreenivasan
A Heat-Shock Protein Axis Regulates VEGFR2 Proteolysis, Blood Vessel Development and Repair
title A Heat-Shock Protein Axis Regulates VEGFR2 Proteolysis, Blood Vessel Development and Repair
title_full A Heat-Shock Protein Axis Regulates VEGFR2 Proteolysis, Blood Vessel Development and Repair
title_fullStr A Heat-Shock Protein Axis Regulates VEGFR2 Proteolysis, Blood Vessel Development and Repair
title_full_unstemmed A Heat-Shock Protein Axis Regulates VEGFR2 Proteolysis, Blood Vessel Development and Repair
title_short A Heat-Shock Protein Axis Regulates VEGFR2 Proteolysis, Blood Vessel Development and Repair
title_sort heat-shock protein axis regulates vegfr2 proteolysis, blood vessel development and repair
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3491040/
https://www.ncbi.nlm.nih.gov/pubmed/23139789
http://dx.doi.org/10.1371/journal.pone.0048539
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