Hydrogen sulfide as an endogenous modulator of biliary bicarbonate excretion in the rat liver.

Cystathionine gamma-lyase (CSE) is an enzyme catalyzing cystathionine and cysteine to yield cysteine and hydrogen sulfide (H(2)S), respectively. This study aimed to examine if H(2)S generated from the enzyme could serve as an endogenous regulator of hepatobiliary function. Gas chromatographic analyses indicated that, among rat organs herein examined, liver constituted one of the greatest components of H(2)S generation in the body, at 100 mumol/g of tissue, comparable to that in kidney and 1.5-fold greater than that in brain, where roles of the gas in the regulation of neurotransmission were reported previously. At least half of the gas amount in the liver appeared to be derived from CSE, because blockade of the enzyme by propargylglycine suppressed it by 50%. Immunohistochemistry revealed that CSE occurs not only in hepatocytes, but also in bile duct. In livers in vivo, as well as in those perfused ex vivo, treatment with the CSE inhibitor induced choleresis by stimulating the basal excretion of bicarbonate in bile samples. Transportal supplementation of NaHS at 30 mumol/L, but not that of N-acetylcysteine as a cysteine donor, abolished these changes elicited by the CSE inhibitor in the perfused liver. The changes elicited by the CSE blockade did not coincide with alterations in hepatic vascular resistance, showing little involvement of vasodilatory effects of the gas in these events, if any. These results first provided evidence that H(2)S generated through CSE modulates biliary bicarbonate excretion and is thus a determinant of bile salt-independent bile formation in the rat liver.

Bilirubin rinse: A simple protectant against the rat liver graft injury mimicking heme oxygenase-1 preconditioning.

Heme oxygenase (HO)-1 preconditioning through genetic or pharmacologic interventions was shown experimentally to improve posttransplant outcome of liver grafts. However, its clinical application requires careful consideration because of the complexity and economic costs of the procedures. This study aimed to examine if graft preconditioning with HO-1 could be substituted by a simple treatment with heme-degrading products such as bilirubin. Rats were pretreated with or without hemin, an HO-1 inducer for preconditioning. Their livers were harvested as grafts in University of Wisconsin (UW) solution for 16 hours at 4 degrees C and followed by reperfusion ex vivo or by transplantation in vivo. The control grafts were also treated with a rinse buffer containing varied concentrations of unconjugated bilirubin with different time intervals. The HO-1-preconditioned grafts ex vivo exhibited a marked improvement of bile output and cell injury that was cancelled by blocking HO with zinc protoporphyrin-IX. The aggravation of the graft viability by the inhibitor was repressed by supplementation of bilirubin but not by that of carbon monoxide. Furthermore, a short-term rinse treatment with micromolar levels of bilirubin attenuated biliary dysfunction and cell injury of the grafts both ex vivo and in vivo even without HO-1 preconditioning. The protective effects of HO-1 preconditioning or bilirubin rinse appeared to involve its inhibitory effects on lipid peroxidation in hepatocytes. In conclusion, these results suggest that bilirubin rinse serves as a simple strategy to ameliorate hyperacute oxidative stress and hepatobiliary dysfunction of the transplanted grafts, mimicking effects of HO-1-mediated preconditioning.