AI Article Synopsis
- VEGF plays a crucial role in therapeutic angiogenesis, but its effectiveness is compromised by the need for short-term delivery due to safety concerns, leading to unstable new blood vessels.
- Research using transduced myoblasts in SCID mouse muscles revealed that low doses of VEGF promote faster vessel stabilization, while high doses delay it, without affecting pericyte coverage.
- The study found that high VEGF levels inhibit endothelial Semaphorin3A expression, disrupting the recruitment of specific monocytes necessary for vessel stabilization, but Semaphorin3A treatment can counteract this effect even with high VEGF doses.
Article Abstract
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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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4604689 | PMC |
| http://dx.doi.org/10.15252/emmm.201405003 | DOI Listing |
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