VEGF dose regulates vascular stabilization through Semaphorin3A and the Neuropilin-1(+) monocyte/TGF-β1 paracrine axis

VEGF is widely investigated for therapeutic angiogenesis, but while short-term delivery is desirable for safety, it is insufficient for new vessel persistence, jeopardizing efficacy. Here, we investigated whether and how VEGF dose regulates nascent vessel stabilization, to identify novel therapeutic...

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Autores principales: Groppa, Elena, Brkic, Sime, Bovo, Emmanuela, Reginato, Silvia, Sacchi, Veronica, Di Maggio, Nunzia, Muraro, Manuele G, Calabrese, Diego, Heberer, Michael, Gianni-Barrera, Roberto, Banfi, Andrea
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley & Sons, Ltd 2015
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Research Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4604689/
https://www.ncbi.nlm.nih.gov/pubmed/26323572
http://dx.doi.org/10.15252/emmm.201405003
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author Groppa, Elena
Brkic, Sime
Bovo, Emmanuela
Reginato, Silvia
Sacchi, Veronica
Di Maggio, Nunzia
Muraro, Manuele G
Calabrese, Diego
Heberer, Michael
Gianni-Barrera, Roberto
Banfi, Andrea
author_facet Groppa, Elena
Brkic, Sime
Bovo, Emmanuela
Reginato, Silvia
Sacchi, Veronica
Di Maggio, Nunzia
Muraro, Manuele G
Calabrese, Diego
Heberer, Michael
Gianni-Barrera, Roberto
Banfi, Andrea
author_sort Groppa, Elena
collection PubMed
description VEGF is widely investigated for therapeutic angiogenesis, but while short-term delivery is desirable for safety, it is insufficient for new vessel persistence, jeopardizing efficacy. Here, we investigated whether and how VEGF dose regulates nascent vessel stabilization, to identify novel therapeutic targets. Monoclonal populations of transduced myoblasts were used to homogeneously express specific VEGF doses in SCID mouse muscles. VEGF was abrogated after 10 and 17 days by Aflibercept treatment. Vascular stabilization was fastest with low VEGF, but delayed or prevented by higher doses, without affecting pericyte coverage. Rather, VEGF dose-dependently inhibited endothelial Semaphorin3A expression, thereby impairing recruitment of Neuropilin-1-expressing monocytes (NEM), TGF-β1 production and endothelial SMAD2/3 activation. TGF-β1 further initiated a feedback loop stimulating endothelial Semaphorin3A expression, thereby amplifying the stabilizing signals. Blocking experiments showed that NEM recruitment required endogenous Semaphorin3A and that TGF-β1 was necessary to start the Semaphorin3A/NEM axis. Conversely, Semaphorin3A treatment promoted NEM recruitment and vessel stabilization despite high VEGF doses or transient adenoviral delivery. Therefore, VEGF inhibits the endothelial Semaphorin3A/NEM/TGF-β1 paracrine axis and Semaphorin3A treatment accelerates stabilization of VEGF-induced angiogenesis.
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spelling pubmed-46046892015-10-19 VEGF dose regulates vascular stabilization through Semaphorin3A and the Neuropilin-1(+) monocyte/TGF-β1 paracrine axis Groppa, Elena Brkic, Sime Bovo, Emmanuela Reginato, Silvia Sacchi, Veronica Di Maggio, Nunzia Muraro, Manuele G Calabrese, Diego Heberer, Michael Gianni-Barrera, Roberto Banfi, Andrea EMBO Mol Med Research Articles VEGF is widely investigated for therapeutic angiogenesis, but while short-term delivery is desirable for safety, it is insufficient for new vessel persistence, jeopardizing efficacy. Here, we investigated whether and how VEGF dose regulates nascent vessel stabilization, to identify novel therapeutic targets. Monoclonal populations of transduced myoblasts were used to homogeneously express specific VEGF doses in SCID mouse muscles. VEGF was abrogated after 10 and 17 days by Aflibercept treatment. Vascular stabilization was fastest with low VEGF, but delayed or prevented by higher doses, without affecting pericyte coverage. Rather, VEGF dose-dependently inhibited endothelial Semaphorin3A expression, thereby impairing recruitment of Neuropilin-1-expressing monocytes (NEM), TGF-β1 production and endothelial SMAD2/3 activation. TGF-β1 further initiated a feedback loop stimulating endothelial Semaphorin3A expression, thereby amplifying the stabilizing signals. Blocking experiments showed that NEM recruitment required endogenous Semaphorin3A and that TGF-β1 was necessary to start the Semaphorin3A/NEM axis. Conversely, Semaphorin3A treatment promoted NEM recruitment and vessel stabilization despite high VEGF doses or transient adenoviral delivery. Therefore, VEGF inhibits the endothelial Semaphorin3A/NEM/TGF-β1 paracrine axis and Semaphorin3A treatment accelerates stabilization of VEGF-induced angiogenesis. John Wiley & Sons, Ltd 2015-10 2015-09-07 /pmc/articles/PMC4604689/ /pubmed/26323572 http://dx.doi.org/10.15252/emmm.201405003 Text en © 2015 The Authors. Published under the terms of the CC BY 4.0 license http://creativecommons.org/licenses/by/4.0/ This is an open access article under the terms of the Creative Commons Attribution 4.0 License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.
spellingShingle Research Articles
Groppa, Elena
Brkic, Sime
Bovo, Emmanuela
Reginato, Silvia
Sacchi, Veronica
Di Maggio, Nunzia
Muraro, Manuele G
Calabrese, Diego
Heberer, Michael
Gianni-Barrera, Roberto
Banfi, Andrea
VEGF dose regulates vascular stabilization through Semaphorin3A and the Neuropilin-1(+) monocyte/TGF-β1 paracrine axis
title VEGF dose regulates vascular stabilization through Semaphorin3A and the Neuropilin-1(+) monocyte/TGF-β1 paracrine axis
title_full VEGF dose regulates vascular stabilization through Semaphorin3A and the Neuropilin-1(+) monocyte/TGF-β1 paracrine axis
title_fullStr VEGF dose regulates vascular stabilization through Semaphorin3A and the Neuropilin-1(+) monocyte/TGF-β1 paracrine axis
title_full_unstemmed VEGF dose regulates vascular stabilization through Semaphorin3A and the Neuropilin-1(+) monocyte/TGF-β1 paracrine axis
title_short VEGF dose regulates vascular stabilization through Semaphorin3A and the Neuropilin-1(+) monocyte/TGF-β1 paracrine axis
title_sort vegf dose regulates vascular stabilization through semaphorin3a and the neuropilin-1(+) monocyte/tgf-β1 paracrine axis
topic Research Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4604689/
https://www.ncbi.nlm.nih.gov/pubmed/26323572
http://dx.doi.org/10.15252/emmm.201405003
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