Tracking endothelium-dependent NO release in pressurized arteries

Abstract: Background: Endothelial cell (EC) dysfunction is an early hallmark of cardiovascular disease associated with the reduced bioavailability of nitric oxide (NO) resulting in over-constriction of arteries. Despite the clear need to assess NO availability, current techniques do not reliably allow this in intact arteries.Methods: Confocal fluorescence microscopy was used to compare two NO-sensitive fluorescent dyes (NO-dyes), Cu2FL2E and DAR-4M AM, in both cell-free chambers and isolated, intact arteries. Intact rat… Show more

“…Acetylcholine-induced vasodilation of systemic mesenteric arteries also presents a modest NO-dependent component [172,173]. The presence of eNOS at MEPs has been reported [174], but NO diffusion to the overlying VSMC layer is prevented here by the alpha chain of hemoglobin (Hbα), which scavenges NO before it can induce vasorelaxation [175,176].…”

Cracking the Endothelial Calcium (Ca2+) Code: A Matter of Timing and Spacing

“…Acetylcholine-induced vasodilation of systemic mesenteric arteries also presents a modest NO-dependent component [172,173]. The presence of eNOS at MEPs has been reported [174], but NO diffusion to the overlying VSMC layer is prevented here by the alpha chain of hemoglobin (Hbα), which scavenges NO before it can induce vasorelaxation [175,176].…”

Cracking the Endothelial Calcium (Ca2+) Code: A Matter of Timing and Spacing

Vitamin D and Its Role on Inflammation, Oxidative Stress and Cardiovascular Disease