AIM: To investigated the effects of intravenous administration of the antioxidant glutathione (GSH) on reperfusion injury following liver transplantation. METHODS: Livers of male Lewis rats were transplanted after 24 h of hypothermic preservation in University of Wisconsin solution in a syngeneic setting. During a 2-h reperfusion period either saline (controls, n=8) or GSH (50 or 100 micromol/(h/kg), n=5 each) was continuously administered via the jugular vein. RESULTS: Two hours after starting reperfusion plasma ALT increased to 1457+/-281 U/L (mean+/-SE) in controls but to only 908+/-187 U/L (P<0.05) in animals treated with 100 microGSH/(h/kg). No protection was conveyed by 50 micromol GSH(h/kg). Cytoprotection was confirmed by morphological findings on electron microscopy: GSH treatment prevented detachment of sinusoidal endothelial cells (SEC) as well as loss of microvilli and mitochondrial swelling of hepatocytes. Accordingly, postischemic bile flow increased 2-fold. Intravital fluorescence microscopy revealed a nearly complete restoration of sinusoidal blood flow and a significant reduction of leukocyte adherence to sinusoids and postsinusoidal venules. Following infusion of 50 micromol and 100 micromol GSH/(h/kg), plasma GSH increased to 65+/-7 mol/L and 97+/-18 mol/L, but to only 20+/-3 mol/L in untreated recipients. Furthermore, plasma glutathione disulfide (GSSG) increased to 7.5+/-1.0 mol/L in animals treated with 100 micro(h/kg) GSH but did not raise levels of untreated controls (1.8+/-0.5 mol/L) following infusion of 50 microGSH/(h/kg) (2.2+/-0.2 mol/L). CONCLUSION: Plasma GSH levels above a critical level may act as a "sink" for ROS produced in the hepatic vasculature during reperfusion of liver grafts. Therefore, GSH can be considered a candidate antioxidant for the prevention of reperfusion injury after liver transplantation, in particular since it has a low toxicity in humans.
AIM: To investigated the effects of intravenous administration of the antioxidant glutathione (GSH) on reperfusion injury following liver transplantation. METHODS: Livers of male Lewis rats were transplanted after 24 h of hypothermic preservation in University of Wisconsin solution in a syngeneic setting. During a 2-h reperfusion period either saline (controls, n=8) or GSH (50 or 100 micromol/(h/kg), n=5 each) was continuously administered via the jugular vein. RESULTS: Two hours after starting reperfusion plasma ALT increased to 1457+/-281 U/L (mean+/-SE) in controls but to only 908+/-187 U/L (P<0.05) in animals treated with 100 microGSH/(h/kg). No protection was conveyed by 50 micromol GSH(h/kg). Cytoprotection was confirmed by morphological findings on electron microscopy: GSH treatment prevented detachment of sinusoidal endothelial cells (SEC) as well as loss of microvilli and mitochondrial swelling of hepatocytes. Accordingly, postischemic bile flow increased 2-fold. Intravital fluorescence microscopy revealed a nearly complete restoration of sinusoidal blood flow and a significant reduction of leukocyte adherence to sinusoids and postsinusoidal venules. Following infusion of 50 micromol and 100 micromol GSH/(h/kg), plasma GSH increased to 65+/-7 mol/L and 97+/-18 mol/L, but to only 20+/-3 mol/L in untreated recipients. Furthermore, plasma glutathione disulfide (GSSG) increased to 7.5+/-1.0 mol/L in animals treated with 100 micro(h/kg) GSH but did not raise levels of untreated controls (1.8+/-0.5 mol/L) following infusion of 50 microGSH/(h/kg) (2.2+/-0.2 mol/L). CONCLUSION: Plasma GSH levels above a critical level may act as a "sink" for ROS produced in the hepatic vasculature during reperfusion of liver grafts. Therefore, GSH can be considered a candidate antioxidant for the prevention of reperfusion injury after liver transplantation, in particular since it has a low toxicity in humans.
Authors: Uwe Grutzner; Melanie Keller; Michael Bach; Alexandra K Kiemer; Herbert Meissner; Manfred Bilzer; Stefan Zahler; Alexander L Gerbes; Angelika M Vollmar Journal: World J Gastroenterol Date: 2006-02-21 Impact factor: 5.742