Role of Cholesterol in the Regulation of Hydrogen Sulfide Signaling within the Vascular Endothelium

Mendiola, Perenkita J; Morin, Emily E.; Bosc, Laura V. González; Naik, Jay S.; Kanagy, Nancy L.

doi:10.3390/antiox11091680

Antioxidants

2022

DOI: 10.3390/antiox11091680

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Role of Cholesterol in the Regulation of Hydrogen Sulfide Signaling within the Vascular Endothelium

Perenkita J Mendiola

Emily E. Morin

Laura V. González Bosc

et al.

Abstract: H2S is a gaseous signaling molecule enzymatically produced in mammals and H2S-producing enzymes are expressed throughout the vascular wall. We previously reported that H2S-induced vasodilation is mediated through transient receptor potential cation channel subfamily V member 4 (TRPV4) and large conductance (BKCa) potassium channels; however, regulators of this pathway have not been defined. Previous reports have shown that membrane cholesterol limits activity of TRPV4 and BKCa potassium channels. The current s… Show more

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2024

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Myoendothelial feedback in mouse mesenteric resistance arteries is similar between the sexes, dependent on nitric oxide synthase, and independent of TPRV4

Looft-Wilson,

Stechmann,

Milenski

et al. 2024

American Journal of Physiology-Heart and Circulatory Physiology

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Myoendothelial feedback (MEF), the endothelium-dependent vasodilation following sympathetic vasoconstriction (mediated by smooth muscle to endothelium gap junction communication), has been well-studied in resistance arteries of males, but not females. We hypothesized that MEF responses would be similar between the sexes, but different in the relative contribution of the underlying nitric oxide and hyperpolarization mechanisms, given that these mechanisms differ between the sexes in agonist-induced endothelium-dependent dilation. We measured MEF responses (diameter changes) of male and female 1st-2nd order mouse mesenteric arteries to phenylephrine (10 µM) over 30 min using isolated pressure myography +/- blinded inhibition of nitric oxide synthase (NOS) using L-NAME (0.1-1.0 mM), hyperpolarization using 35 mM KCl, or TRPV4 channels using GSK219 (0.1-1.0 µM) or RN-1734 (30 µM). MEF was similar [% dilation (mean±SEM): male=26.7±2.0 and female=26.1±1.9 at 15 min) and significantly inhibited by L-NAME (1.0 mM) at 15 min [% dilation (mean±SEM): male= 8.2±3.3, P<0.01; female=6.8±1.9, P<0.001] and over time (P<0.01) in both sexes. L-NAME (0.1 mM) + 35 mM KCl nearly eliminated MEF in both sexes (P<0.001-0.0001). Activation of TRPV4 with GSK101 (0.1-10 µM) induced similar dilation between the sexes. Inhibition of TRPV4, which is reportedly involved in the hyperpolarization mechanism, did not inhibit MEF in either sex. Similar expression of eNOS was found between the sexes with western blot. Thus, MEF is prominent and similar in murine 1st and 2nd order mesenteric resistance arteries of both sexes, and reliant primarily on NOS, and secondarily on hyperpolarization, but not TRPV4.

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Myoendothelial feedback in mouse mesenteric resistance arteries is similar between the sexes, dependent on nitric oxide synthase, and independent of TPRV4

Looft-Wilson,

Stechmann,

Milenski

et al. 2024

American Journal of Physiology-Heart and Circulatory Physiology

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show abstract

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Role of Cholesterol in the Regulation of Hydrogen Sulfide Signaling within the Vascular Endothelium

Cited by 1 publication

References 31 publications

Myoendothelial feedback in mouse mesenteric resistance arteries is similar between the sexes, dependent on nitric oxide synthase, and independent of TPRV4

Myoendothelial feedback in mouse mesenteric resistance arteries is similar between the sexes, dependent on nitric oxide synthase, and independent of TPRV4

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