Wnt7a deficit is associated with dysfunctional angiogenesis in pulmonary arterial hypertension

INTRODUCTION: Pulmonary arterial hypertension (PAH) is characterised by loss of microvessels. The Wnt pathways control pulmonary angiogenesis but their role in PAH is incompletely understood. We hypothesised that Wnt activation in pulmonary microvascular endothelial cells (PMVECs) is required for pu...

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Autores principales: Chakraborty, Ananya, Nathan, Abinaya, Orcholski, Mark, Agarwal, Stuti, Shamskhou, Elya A., Auer, Natasha, Mitra, Ankita, Guardado, Eleana Stephanie, Swaminathan, Gowri, Condon, David F., Yu, Joyce, McCarra, Matthew, Juul, Nicholas H., Mallory, Alden, Guzman-Hernandez, Roberto A., Yuan, Ke, Rojas, Vanesa, Crossno, Joseph T., Yung, Lai-Ming, Yu, Paul B., Spencer, Thomas, Winn, Robert A., Frump, Andrea, Karoor, Vijaya, Lahm, Tim, Hedlin, Haley, Fineman, Jeffrey R., Lafyatis, Robert, Knutsen, Carsten N.F., Alvira, Cristina M., Cornfield, David N., de Jesus Perez, Vinicio A.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: European Respiratory Society 2023
Materias:
Original Research Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10259331/
https://www.ncbi.nlm.nih.gov/pubmed/37024132
http://dx.doi.org/10.1183/13993003.01625-2022
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author Chakraborty, Ananya
Nathan, Abinaya
Orcholski, Mark
Agarwal, Stuti
Shamskhou, Elya A.
Auer, Natasha
Mitra, Ankita
Guardado, Eleana Stephanie
Swaminathan, Gowri
Condon, David F.
Yu, Joyce
McCarra, Matthew
Juul, Nicholas H.
Mallory, Alden
Guzman-Hernandez, Roberto A.
Yuan, Ke
Rojas, Vanesa
Crossno, Joseph T.
Yung, Lai-Ming
Yu, Paul B.
Spencer, Thomas
Winn, Robert A.
Frump, Andrea
Karoor, Vijaya
Lahm, Tim
Hedlin, Haley
Fineman, Jeffrey R.
Lafyatis, Robert
Knutsen, Carsten N.F.
Alvira, Cristina M.
Cornfield, David N.
de Jesus Perez, Vinicio A.
author_facet Chakraborty, Ananya
Nathan, Abinaya
Orcholski, Mark
Agarwal, Stuti
Shamskhou, Elya A.
Auer, Natasha
Mitra, Ankita
Guardado, Eleana Stephanie
Swaminathan, Gowri
Condon, David F.
Yu, Joyce
McCarra, Matthew
Juul, Nicholas H.
Mallory, Alden
Guzman-Hernandez, Roberto A.
Yuan, Ke
Rojas, Vanesa
Crossno, Joseph T.
Yung, Lai-Ming
Yu, Paul B.
Spencer, Thomas
Winn, Robert A.
Frump, Andrea
Karoor, Vijaya
Lahm, Tim
Hedlin, Haley
Fineman, Jeffrey R.
Lafyatis, Robert
Knutsen, Carsten N.F.
Alvira, Cristina M.
Cornfield, David N.
de Jesus Perez, Vinicio A.
author_sort Chakraborty, Ananya
collection PubMed
description INTRODUCTION: Pulmonary arterial hypertension (PAH) is characterised by loss of microvessels. The Wnt pathways control pulmonary angiogenesis but their role in PAH is incompletely understood. We hypothesised that Wnt activation in pulmonary microvascular endothelial cells (PMVECs) is required for pulmonary angiogenesis, and its loss contributes to PAH. METHODS: Lung tissue and PMVECs from healthy and PAH patients were screened for Wnt production. Global and endothelial-specific Wnt7a(−/–) mice were generated and exposed to chronic hypoxia and Sugen-hypoxia (SuHx). RESULTS: Healthy PMVECs demonstrated >6-fold Wnt7a expression during angiogenesis that was absent in PAH PMVECs and lungs. Wnt7a expression correlated with the formation of tip cells, a migratory endothelial phenotype critical for angiogenesis. PAH PMVECs demonstrated reduced vascular endothelial growth factor (VEGF)-induced tip cell formation as evidenced by reduced filopodia formation and motility, which was partially rescued by recombinant Wnt7a. We discovered that Wnt7a promotes VEGF signalling by facilitating Y1175 tyrosine phosphorylation in vascular endothelial growth factor receptor 2 (VEGFR2) through receptor tyrosine kinase-like orphan receptor 2 (ROR2), a Wnt-specific receptor. We found that ROR2 knockdown mimics Wnt7a insufficiency and prevents recovery of tip cell formation with Wnt7a stimulation. While there was no difference between wild-type and endothelial-specific Wnt7a(−/–) mice under either chronic hypoxia or SuHx, global Wnt7a(+/–) mice in hypoxia demonstrated higher pulmonary pressures and severe right ventricular and lung vascular remodelling. Similar to PAH, Wnt7a(+/–) PMVECs exhibited an insufficient angiogenic response to VEGF-A that improved with Wnt7a. CONCLUSIONS: Wnt7a promotes VEGF signalling in lung PMVECs and its loss is associated with an insufficient VEGF-A angiogenic response. We propose that Wnt7a deficiency contributes to progressive small vessel loss in PAH.
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spelling pubmed-102593312023-06-13 Wnt7a deficit is associated with dysfunctional angiogenesis in pulmonary arterial hypertension Chakraborty, Ananya Nathan, Abinaya Orcholski, Mark Agarwal, Stuti Shamskhou, Elya A. Auer, Natasha Mitra, Ankita Guardado, Eleana Stephanie Swaminathan, Gowri Condon, David F. Yu, Joyce McCarra, Matthew Juul, Nicholas H. Mallory, Alden Guzman-Hernandez, Roberto A. Yuan, Ke Rojas, Vanesa Crossno, Joseph T. Yung, Lai-Ming Yu, Paul B. Spencer, Thomas Winn, Robert A. Frump, Andrea Karoor, Vijaya Lahm, Tim Hedlin, Haley Fineman, Jeffrey R. Lafyatis, Robert Knutsen, Carsten N.F. Alvira, Cristina M. Cornfield, David N. de Jesus Perez, Vinicio A. Eur Respir J Original Research Articles INTRODUCTION: Pulmonary arterial hypertension (PAH) is characterised by loss of microvessels. The Wnt pathways control pulmonary angiogenesis but their role in PAH is incompletely understood. We hypothesised that Wnt activation in pulmonary microvascular endothelial cells (PMVECs) is required for pulmonary angiogenesis, and its loss contributes to PAH. METHODS: Lung tissue and PMVECs from healthy and PAH patients were screened for Wnt production. Global and endothelial-specific Wnt7a(−/–) mice were generated and exposed to chronic hypoxia and Sugen-hypoxia (SuHx). RESULTS: Healthy PMVECs demonstrated >6-fold Wnt7a expression during angiogenesis that was absent in PAH PMVECs and lungs. Wnt7a expression correlated with the formation of tip cells, a migratory endothelial phenotype critical for angiogenesis. PAH PMVECs demonstrated reduced vascular endothelial growth factor (VEGF)-induced tip cell formation as evidenced by reduced filopodia formation and motility, which was partially rescued by recombinant Wnt7a. We discovered that Wnt7a promotes VEGF signalling by facilitating Y1175 tyrosine phosphorylation in vascular endothelial growth factor receptor 2 (VEGFR2) through receptor tyrosine kinase-like orphan receptor 2 (ROR2), a Wnt-specific receptor. We found that ROR2 knockdown mimics Wnt7a insufficiency and prevents recovery of tip cell formation with Wnt7a stimulation. While there was no difference between wild-type and endothelial-specific Wnt7a(−/–) mice under either chronic hypoxia or SuHx, global Wnt7a(+/–) mice in hypoxia demonstrated higher pulmonary pressures and severe right ventricular and lung vascular remodelling. Similar to PAH, Wnt7a(+/–) PMVECs exhibited an insufficient angiogenic response to VEGF-A that improved with Wnt7a. CONCLUSIONS: Wnt7a promotes VEGF signalling in lung PMVECs and its loss is associated with an insufficient VEGF-A angiogenic response. We propose that Wnt7a deficiency contributes to progressive small vessel loss in PAH. European Respiratory Society 2023-06-08 /pmc/articles/PMC10259331/ /pubmed/37024132 http://dx.doi.org/10.1183/13993003.01625-2022 Text en Copyright ©The authors 2023. https://creativecommons.org/licenses/by-nc/4.0/This version is distributed under the terms of the Creative Commons Attribution Non-Commercial Licence 4.0. For commercial reproduction rights and permissions contact permissions@ersnet.org (mailto:permissions@ersnet.org)
spellingShingle Original Research Articles
Chakraborty, Ananya
Nathan, Abinaya
Orcholski, Mark
Agarwal, Stuti
Shamskhou, Elya A.
Auer, Natasha
Mitra, Ankita
Guardado, Eleana Stephanie
Swaminathan, Gowri
Condon, David F.
Yu, Joyce
McCarra, Matthew
Juul, Nicholas H.
Mallory, Alden
Guzman-Hernandez, Roberto A.
Yuan, Ke
Rojas, Vanesa
Crossno, Joseph T.
Yung, Lai-Ming
Yu, Paul B.
Spencer, Thomas
Winn, Robert A.
Frump, Andrea
Karoor, Vijaya
Lahm, Tim
Hedlin, Haley
Fineman, Jeffrey R.
Lafyatis, Robert
Knutsen, Carsten N.F.
Alvira, Cristina M.
Cornfield, David N.
de Jesus Perez, Vinicio A.
Wnt7a deficit is associated with dysfunctional angiogenesis in pulmonary arterial hypertension
title Wnt7a deficit is associated with dysfunctional angiogenesis in pulmonary arterial hypertension
title_full Wnt7a deficit is associated with dysfunctional angiogenesis in pulmonary arterial hypertension
title_fullStr Wnt7a deficit is associated with dysfunctional angiogenesis in pulmonary arterial hypertension
title_full_unstemmed Wnt7a deficit is associated with dysfunctional angiogenesis in pulmonary arterial hypertension
title_short Wnt7a deficit is associated with dysfunctional angiogenesis in pulmonary arterial hypertension
title_sort wnt7a deficit is associated with dysfunctional angiogenesis in pulmonary arterial hypertension
topic Original Research Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10259331/
https://www.ncbi.nlm.nih.gov/pubmed/37024132
http://dx.doi.org/10.1183/13993003.01625-2022
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