期刊
CARDIOVASCULAR RESEARCH
卷 79, 期 3, 页码 527-536出版社
OXFORD UNIV PRESS
DOI: 10.1093/cvr/cvn080
关键词
Blood pressure; Blood pressure variability; Nitric oxide; Caveolin-1; Endothelial function
Aims In endothelial cells, caveolin-1 (cav-1) is known to negatively modulate the activation of endothelial nitric oxide synthase, a key regulator of blood pressure (BP). However, the impact of genetic alteration of cav-1 on vascular nitric oxide (NO) production and BPhomeostasis in vivo is unknown. Methods and results We used spectral analysis of systolic blood pressure (SBP) variability in mice chronically equipped with telemetry implants to identify frequency ranges (0.05-0.4 Hz; very low frequency, VLF) specifically responding to NO, independently of changes in absolute BP or systemic neurohormone levels. VLF variability was inversely correlated to aortic vasodilator-stimulated Ser(239) phosphoprotein (VASP) phosphorylation, reflecting NO bioactivity. We show that mice deficient in cav-1 have decreased VLF variability paralleled with enhanced systemic and vascular production of NO at unchanged mean SBP levels. Conversely, VLF variability was increased upon acute injection of mice, with a peptide containing the caveolin-scaffolding domain (CSD; residues 82-101) fused to an internalization sequence of antennapedia that decreased vascular and circulating NO in vivo. Conclusion These data highlight the functional importance of cav-1 for the production of bioactive NO in conduit arteries and its control of central BP variability. Given the impact of the latter on target organ damage, this raises the interest for genetic, pharmacological, or molecular interventions that modulate cav-1 expression in diseases with NO-dependent endothelial dysfunction.
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