Vascular Actions of Hydrogen Sulfide in Nonmammalian Vertebrates

Abstract

Hydrogen sulfide (H₂S) vasoactivity has been observed in isolated vessels from all vertebrate classes, and its effects, which include constriction, dilation, and multiphasic responses, are both species- and vessel-specific. H₂S is synthesized by mammalian and fish vessels, and because plasma H₂S titers are also vasoactive in vitro, it is likely that H₂S is a tonic effector of cardiovascular homeostasis in many vertebrates. Mechanisms of H₂S vasoactivity in nonmammalian vertebrates have been limited to the trout where the triphasic relaxation–contraction–relaxation includes endothelium-dependent and -independent components, ATP-dependent K⁺ channels, and extracellular and intracellular Ca²⁺, all independent of cyclic GMP production. The observation that at least some H₂S constrictory activity has been observed in all vertebrates except sharks suggests that H₂S may have been an ancestral pressor gasotransmitter. However, the ability of H₂S to serve as either (or both) an endothelium-independent constrictor or dilator, which is relatively unique among vasoregulatory molecules, is a feature that seems to have been exploited, for unknown reasons, by nearly all vertebrates. Aquatic vertebrates appear particularly vulnerable to H₂S because of their intrinsically low blood pressure and the potential for increased H₂S exposure from the environment. Antioxid. Redox Signal. 7, 804–812.