[L-arginine metabolism enzyme activities in rat liver subcellular fractions under condition of protein deprivation].

The features of arginase and NO-synthase pathways of arginine's metabolism have been studied in rat liver subcellular fractions under condition of protein deprivation. During the experimental period (28 days) albino male rats were kept on semi synthetic casein diet AIN-93. The protein deprivation conditions were designed as total absence of protein in the diet and consumption of the diet partially deprived with 1/2 of the casein amount compared to in the regular diet. Daily diet consumption was regulated according to the pair feeding approach. It has been shown that the changes of enzyme activities, involved in L-arginine metabolism, were characterized by 1.4-1.7 fold decrease in arginase activity, accompanied with unchanged NO-synthase activity in cytosol. In mitochondrial fraction the unchanged arginase activity was accompanied by 3-5 fold increase of NO-synthase activity. At the terminal stages of the experiment the monodirectional dynamics in the studied activities have been observed in the mitochondrial and cytosolfractions in both experimental groups. In the studied subcellular fractions arginase activity decreased (2.4-2.7 fold with no protein in the diet and 1.5 fold with partly supplied protein) and was accompanied by NO-synthase activity increase by 3.8 fold in cytosole fraction, by 7.2 fold in mitochondrial fraction in the group with no protein in the diet and by 2.2 and 3.5 fold in the group partialy supplied with protein respectively. The observed tendency is presumably caused by the switch of L-arginine metabolism from arginase into oxidizing NO-synthase parthway.

[Activity of the marker liver enzymes under the conditions of toxic hepatitis and alimentary deprivation of protein].

The activity of the sorbitoldehydrogenase (SDH), alanine aminotransferase (ALT) and alkaline phosphatase (ALP) in the blood serum of rats with acetaminophen-induced hepatitis under the conditions of alimentary deprivation of protein was studied. The animals were divided into 3 groups: 1--rats with acute acetaminophen-induced hepatitis, maintained on the full ration; 2--rats with acute acetaminophen-induced hepatitis, maintained under the conditions of alimentary deprivation of protein; 3--control. The activity of the sorbitol dehydrogenase in blood serum was determined by the kinetic method, activity of the alanine aminotransferase and alkaline phosphatase - photometrically. It is shown, that in animals with the model hepatitis the activity of sorbitol dehydrogenase in blood serum increases 20-fold, wherein statistical significance between animals with hepatitis maintained under the conditions of full ration and those of low-protein diet is not established. In the group of animals with acetaminophen-induced hepatitis the preservation on the control level of the alkaline phosphatase activity on the base of the increase of alanine aminotransferase by 2.2 times and ratio ALT/ALP>5 testifies about hepatocellular liver injury. In the group of animals with drug-induced hepatitis and alimentary deprivation of protein, the increase of the alkaline phosphatase and alanine aminotransferase activity is observed, herewith the ratio ALT/ALP ranges from 2 to 5 and testifies about mixed liver injury. The conclusion was made, that alimentary deprivation of protein is the critical factor for the development of the disturbances of functional and structural liver integrity, and the therapeutic approaches to the correction of the drug-induced liver injury should be different depending on the value of protein ration in the anamnesis, taking into account the different types of liver injury.

[Cytochrome p450 system components and nitric oxide synthase activity in mouse liver under conditions of retinoid stores absence].

p-Hydroxylase and N-demethylase activities of cytochrome P450 system, NO-synthase activity and the intensity of nitric oxide and superoxide anion production in mitochondrial, postmicrosomal and microsomal cellular fractions were studied in mouse liver under conditions of retinoid stores absence. It is determined, that under conditions of retinoid stores absence the activation of NO-synthase is occurring with decreasedp-hydroxylase activity of cytochrome P450 system. The results of the generation intensity analysis showed the level of NO and O(2-) in liver mitochondrial fraction of knock-out mice, and changes in NADPH-dependent O(2-) production in microsomal fraction of mouse liver cells.