Effect of chronic alcohol consumption on total plasma homocysteine level in rats.

BACKGROUND: Chronic alcoholism in humans is associated with the development of hyperhomocysteinemia, the mechanism of which remains unclear. Among the causes of hyperhomocysteinemia is depletion of folate, vitamin B12, or vitamin B6. Population-based studies indicate that folate is the strongest vitamin determinant of hyperhomocysteinemia and, in most settings, folate supplementation effectively lowers elevated homocysteine levels. However, it is not clear whether folate deficiency is the cause of alcohol-related hyperhomocysteinemia. METHODS: In the present study, 10 male Sprague Dawley rats were fed ethanol-containing Lieber-DeCarli diets with 13 mg of folic acid per kilogram of diet. This represents a folate intake more than 20 times the basal requirement. Ethanol represented 36% of total energy, which yielded a concentration of 6.2% (vol/vol). The same number of rats were pair-fed with isocaloric control diets that contained an identical level of folate in which ethanol was entirely replaced by maltodextrin. RESULTS: At the end of 4 weeks, alcohol-fed rats did not show any significant reduction in plasma or hepatic folate concentrations, plasma pyridoxal-5'-phosphate concentration, or plasma vitamin B12 concentration. On the other hand, alcohol-fed rats were significantly hyperhomocysteinemic (17.24 +/- 4.63 micromol/liter,p < 0.01) compared to the nonalcohol group (10.73 +/- 2.76 micromol/liter). Alcohol-fed rats also had a significantly lower hepatic S-adenosylmethionine and higher hepatic S-adenosylhomocysteine levels. CONCLUSIONS: Chronic alcohol consumption produces hyperhomocysteinemia by a mechanism that is related to interference with one-carbon metabolism, and not through vitamin depletion.

Rats fed a low protein diet supplemented with sulfur amino acids have increased cysteine dioxygenase activity and increased taurine production in hepatocytes.

The metabolism of cysteine and cysteinesulfinate and the activities of key enzymes in cysteine catabolic pathways were investigated in hepatocytes isolated from rats fed a basal (100 g casein/kg) diet or the diet supplemented with L-methionine (3 or 10 g/kg diet) or the sulfur equivalent as L-cystine (2.4 or 8 g/kg diet). Cysteine dioxygenase activity was higher in hepatocytes from rats fed diets with the higher level of sulfur amino acid supplementation, and the higher enzyme activity was paralleled by a greater total catabolite production (taurine + sulfate) from cysteine. Taurine production as a percentage of total cysteine catabolism was significantly greater in hepatocytes from rats fed the diet with excess methionine or cystine (basal, 22%; excess methionine, 61%, excess cystine, 49%). Glutathione production was markedly lower in hepatocytes from rats fed excess sulfur amino acids such that total cysteine utilization was similar for all dietary treatments. Cysteinesulfinate decarboxylase activity and catabolism of cysteinesulfinate by hepatocytes were unaffected by the dietary supplementations. Results are in contrast to previous studies in which increased dietary protein resulted in decreased cysteinesulfinate decarboxylase activity and decreased partitioning of cysteinesulfinate to taurine vs. sulfate. Thus, sulfur amino acids may be less effective than protein in decreasing cysteinesulfinate decarboxylase activity and may result in a pattern of sulfur catabolite production from cysteine that favors taurine production.