Role of hydrogen sulfide as a gasotransmitter in modulating contractile activity of circular muscle of rat jejunum.

AIM: Our aim was to determine mechanisms of action of the gasotransmitter hydrogen sulfide (H(2)S) on contractile activity in circular muscle of rat jejunum.
METHODS: Jejunal circular muscle strips were prepared to measure isometric contractions. Effects of sodium hydrosulfide (NaHS), a H(2)S donor, were evaluated on spontaneous contractile activity and after pre-contraction with bethanechol. L-cysteine was evaluated as an endogenous H(2)S donor. We evaluated extrinsic nerves, enteric nervous system, visceral afferent nerves, nitric oxide, K(ATP)+ and K(Ca)+ channels, and myosin light chain phosphatase on action of H(2)S using non-adrenergic/non-cholinergic conditions, tetrodotoxin, capsaicin, L-N(G)-nitro arginine (L-NNA), glibenclamide, apamin, and calyculin A, respectively, and electrical field stimulation (EFS).
RESULTS: NaHS dose-dependently and reversibly inhibited spontaneous and bethanechol-stimulated contractile activity (p < 0.05). L-cysteine had a dose-dependent inhibitory effect. Non-adrenergic/non-cholinergic conditions, tetrodotoxin, capsaicin, L-NNA, or apamin had no effect on contractile inhibition by NaHS; in contrast, low-dose glibenclamide and calyculin A prevented NaHS-induced inhibition. We could not demonstrate H(2)S release by EFS.
CONCLUSIONS: H(2)S inhibits contractile activity of jejunal circular muscle dose-dependently, in part by K(ATP)+ channels and via myosin light chain phosphatase, but not via pathways mediated by the extrinsic or enteric nervous system, visceral afferent nerves, nitric oxide, or K(Ca)+ channels.