Introduction: Neuropilin-1 (NRP1) is a transmembrane receptor present in vascular smooth muscle cells (VSMC) that mediates the inhibition of Rho signaling by binding the Class 3 Semaphorin (SEMA) ligand SEMA3A. Hypothesis: We hypothesize that loss of NRP1 in VSMC mitigates SEMA3A-induced Rho inhibition, thereby increasing vascular tone and blood pressure in vivo . Methods: Male and female adult mice (8-12 weeks) with inducible, smooth muscle cell-specific deletion of NRP1 (SM22a-Cre ERT2 X Nrp1 flox/flox ) were examined. Following recombination using 4-hydroxy tamoxifen (SM- NRP1 KO), systolic blood pressure (SBP) was measured using a tail cuff and compared to age- and sex-matched mice that did not receive tamoxifen (control). Aortic vascular reactivity and expression of key proteins in the Rho signaling cascade were measured using ex vivo tension myography and western blotting, respectively. Results: SBP was significantly increased in SM- NRP1 KO mice following recombination compared to control mice (SBP: 136.5 ± 10.9 vs 112.9 ± 5.6 mmHg; p=0.0006). Contractile responses in aortas of SM- NRP1 KO mice to phenylephrine (p=0.025), KCl (p=0.012), and the thromboxane agonist U44619 (p=0.019) were significantly enhanced compared to controls. Expression of total myosin light chain and LIMK-2 proteins were increased in SM- NRP1 KO compared to control aortas. In vitro , treatment of murine primary VSMC expressing NRP1 with SEMA3A decreased angiotensin II-induced Rho-GTP activation. Additionally, control and SM- NRP1 KO mice (starting at 2 weeks post-recombination) were administered angiotensin II (490 ng/kg/day) for 4 weeks. While there was no significant difference in SBP at weeks 1 and 2, SM- NRP1 KO mice had significantly lower SBP at weeks 3 and 4 following angiotensin II infusion compared to controls (Week 4 SBP: 150 ± 1.4 vs 130.5 ± 2.5 mmHg; p=0.02), suggesting a low ejection fraction and cardiac dysfunction in these mice. In support of this observation, mRNA expression of atrial natriuretic peptide was increased in hearts of angiotensin II-infused SM- NRP1 KO mice. Conclusion: Our data suggest that VSMC NRP1 regulates basal tone and blood pressure, and that loss of NRP1 causes hypertension and exacerbates cardiac dysfunction.
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