Abstract
The aim of this study was to evaluate the mutual relationship among perivascular adipose tissue (PVAT) and endogenous and exogenous H2S in vasoactive responses of isolated arteries from adult normotensive (Wistar) rats and hypertriglyceridemic (HTG) rats, which are a nonobese model of metabolic syndrome. In HTG rats, mild hypertension was associated with glucose intolerance, dyslipidemia, increased amount of retroperitoneal fat, increased arterial contractility, and endothelial dysfunction associated with arterial wall injury, which was accompanied by decreased nitric oxide (NO)-synthase activity, increased expression of H2S producing enzyme, and an altered oxidative state. In HTG, endogenous H2S participated in the inhibition of endothelium-dependent vasorelaxation regardless of PVAT presence; on the other hand, aortas with preserved PVAT revealed a stronger anticontractile effect mediated at least partially by H2S. Although we observed a higher vasorelaxation induced by exogenous H2S donor in HTG rats than in Wistar rats, intact PVAT subtilized this effect. We demonstrate that, in HTG rats, endogenous H2S could manifest a dual effect depending on the type of triggered signaling pathway. H2S within the arterial wall contributes to endothelial dysfunction. On the other hand, PVAT of HTG is endowed with compensatory vasoactive mechanisms, which include stronger anti-contractile action of H2S. Nevertheless, the possible negative impact of PVAT during hypertriglyceridemia on the activity of exogenous H2S donors needs to be taken into consideration.
Highlights
Perivascular adipose tissue (PVAT) represents a specific type of adipose tissue deposit surrounding blood vessels
They observed in mesenteric arteries and aortas of normotensive rats and mice that the inhibition of endogenous hydrogen sulfide (H2 S) had no effect on vessels without perivascular fat, whereas the inhibition of endogenous H2 S significantly reversed the anticontractile effect of arteries with perivascular tissue (PVAT)
The values of systolic blood pressure (SBP) were significantly increased in HTG rats compared with control Wistar rats, the body weight was lower and the heart weight and tibia length were unchanged in the HTG strain
Summary
Perivascular adipose tissue (PVAT) represents a specific type of adipose tissue deposit surrounding blood vessels. Schleifenbaum et al [1] proposed that ADRF could be hydrogen sulfide (H2 S), an important gaseous transmitter. They observed in mesenteric arteries and aortas of normotensive rats and mice that the inhibition of endogenous H2 S had no effect on vessels without perivascular fat, whereas the inhibition of endogenous H2 S significantly reversed the anticontractile effect of arteries with PVAT. Fang et al [2] found in rat aortas that blocking the KATP channel abolished the anticontractile effect of endogenous H2 S released from
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