This article presents the proceedings of a symposium held at the meeting of the International Society for Biomedical Research on Alcoholism in Mannheim, Germany, in October 2004. This symposium was dedicated to Charles S. Lieber in recognition of his contribution in alcohol research over the last 50 years. It was divided into two parts, namely effects of alcohol on the gastrointestinal tract and effects of alcohol on the liver. Major emphasis was given to recent discoveries elucidating mechanisms of alcohol-associated carcinogenesis. M. Salaspuro (Finland) discussed the role of acetaldehyde in the saliva and in the large intestine with respect to its role in the pathogenesis of alcohol-associated cancer, and H. K. Seitz (Germany) presented new data identifying individuals homozygous for the ADH1C&1 allele as high on risk for alcohol-associated upper aerodigestive tract cancer. M. Savolainen (Finland) discussed the role phosphatidylethanol as a bioactive lipid that can mediate beneficial and harmful effects of alcohol drinking. In the second part of the symposium, alcoholic liver disease was discussed. P. Haber (Australia) presented new data on hepatic transcriptome in alcoholic liver disease with the identification of new genes possibly involved in alcohol-initiated fibrogenesis of the liver, and H. Moshage (The Netherlands) described survival mechanisms of the cholestatic hepatocytes with implications for therapy in cholestatic liver disease. The role of the hepatic microsomal ethanol oxidizing system in the metabolism of alcohol in alcoholic liver disease was summarized by R. Teschke (Germany). H. Ishii (Japan) discussed the current status and treatment of alcoholic hepatitis in Japan. Finally, in a state-of-the-art lecture, Charles S. Lieber (USA) discussed the development of the understanding of the pathophysiology of alcoholic liver disease in the last 50 years. He emphasized the role of pathophysiology as an important prerequisite for better treatment strategies.
Background: Endotoxin has been implicated in the pathogenesis and progression of alcoholic liver disease. However, it is still unclear how long-term ethanol feeding affects absorption of endotoxin from the intestine and susceptibility of the liver to gut-derived endotoxin. The object of this study was to determine the effect of long-term ethanol feeding on hepatic susceptibility to orally administered endotoxin.Methods: Male Wistar rats that weighed approximately 150 g were pair-fed with an ethanol-containing liquid diet or a control diet for 35 days. In some experiments, 0, 10, or 20 mg/kg of lipopolysaccharides (LPS) was added to the liquid diet for 7 days beginning on day 29. On day 36, the animals were killed for blood biochemistry and histologic examination of the liver. We also determined plasma endotoxin levels after 20 mg/kg of LPS administration using a gastric tube. In another set of experiments, we determined intestinal permeability using FD4 (fluorescein isothiocyanate-labeled dextran with an average molecular weight of 4000 D).Results: With 10 mg/kg of LPS, serum alanine aminotransferase (ALT) and alkaline phosphatase (ALP) levels were significantly increased in the ethanol-fed rats but not in controls. After 20 mg/kg of LPS administration, more substantial increases in serum ALT and ALP levels were observed in ethanol-fed rats as compared with control diet-fed rats. Plasma endotoxin levels in long-term ethanol-fed rats were higher than those in control rats after intragastric administration of high-dose endotoxin (20 mg/kg). Furthermore, intestinal permeability to FD4 was increased by long-term ethanol administration.Conclusions: Long-term ethanol feeding increases intestinal permeability to and absorption of endotoxin, which can sequentially enhance hepatic susceptibility to orally administered endotoxin. This model has potential as a subclinical experimental model for the study of alcoholic liver disease.
Long-term ethanol feeding increases intestinal permeability to and absorption of endotoxin, which can sequentially enhance hepatic susceptibility to orally administered endotoxin. This model has potential as a subclinical experimental model for the study of alcoholic liver disease.
In alcoholic liver disease, endotoxin has been postulated to play an important role in its pathogenesis. Endotoxin is known to lead to impediment of hepatic microcirculation, including the adhesion of leukocytes to sinusoidal endothelial cells. In this study, the effect of chronic ethanol consumption on the leukocyte adhesion elicited by endotoxin was examined. Male Wistar rats were pair‐fed with a liquid diet containing ethanol or an isocaloric control diet for 6 weeks. The liver of anesthetized rats were placed on the nonfluorescent cover‐glass for observation by an intravital inverted microscope equipped with a silicon intensified target camera. The red blood cell (RBC) velocity in hepatic sinusoids was measured by an off‐line temporal correlation velocimeter (Capiflow, Sweden) after intravenous injection of fluorescein isothiocyanate‐labeled rat RBC. RBC velocity in sinusoids was more severely disturbed in ethanol fed rats than in controls. Leukocytes were stained by the intravenous injection of carboxyfluorescein succinimidyl ester for a fluorographic observation of leukocyte adhesion. After lipopolysaccharide injection, the number of adherent leukocytes was significantly greater in ethanol‐fed rats than in controls. Plasma tumor necrosis factor‐α levels were also higher in ethanol‐fed rats than in controls. These results suggest that chronic ethanol consumption aggravates endotoxin induced leukocytes adhesion that may result in hepatic microcirculatory disturbances. Leukocyte adhesion to the sinusoidal wall may be associated with increased in tumor necrosis factor‐α levels.
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