The contribution of "cure by dapsone monotherapy'' to the reduction of prevalence of leprosy in the State of Orissa, India, 1983-1993

The activity of phosphofructokinase-2, fructose, 1,6-bisphosphatase, glucokinase, and also the level of fructose 2,6-bisphosphate and glycogen were examined in the liver of normal, and streptozotocin-diabetic rats. It was shown that the activity of phosphofructokinase-2 was decreased in the liver of diabetic rats. Besides that the activity determined at pH 6.6 (the "active" or unphosphorylated enzyme form) was 3-fold reduced whereas the "total" enzyme activity as measured at pH 8.5 was lowered 1,7-fold. The phosphofructokinase-2 activity assay at two pH values allows to estimate a degree of phosphorylation of bifunctional enzyme which is markedly enhanced in diabetes. The fall of the bifunctional enzyme k in case activity is accompanied by the lowered fructose 2.6-bisphosphate level, increased fructose 1,6-bisphosphatase activity that in turn favours the liver tissue glycolysis inhibition and gluconeogenesis enhanced in diabetes.     

Sinusoidal endothelial cell damage by activated macrophages in rat liver necrosis

BACKGROUND: Massive hepatic necrosis caused by fibrin deposition in the hepatic sinusoids develops with hepatic macrophage activation in rats given endotoxin after administration of heat-killed Corynebacterium parvum. Targeted cells of such macrophages were investigated. METHODS: In C. parvum-treated rats, the pathological appearance of liver cells was serially measured in serum following endotoxin administration and compared with the appearance in the perfusate during closed liver perfusion with endotoxin. RESULTS: Serum activities of tumor necrosis factor, purine nucleoside phosphorylase present in both hepatocytes and sinusoidal endothelial cells, and levels of alanine aminotransferase were higher after 30 minutes, 1 hour, and 3 hours, respectively. Pretreatment of rats with gadolinium chloride, an inhibitor of macrophage function, reduced this liver injury. Although alanine aminotransferase activity remained almost unchanged in the liver perfusate, purine nucleoside phosphorylase activity increased. This increase was reduced when rats were pretreated with gadolinium chloride. There was sinusoidal endothelial cell damage around hepatic macrophages in the liver perfused with endotoxin. CONCLUSIONS: Activated hepatic macrophages may cause sinusoidal endothelial cell damage leading to hepatocyte necrosis in rats given C. parvum and endotoxin.     

Adenylate cyclase activity in microdissected rat liver tissue: periportal to pericentral activity gradient

Adenylate cyclase activity was measured in microdissected samples from lyophilized cryostat sections of rat liver by means of an improved assay. Livers were obtained from adult Sprague-Dawley rats fasted for 22 hr. Adenylate cyclase activities, basal and those elicited by various agents, were determined in dissected samples from periportal and pericentral regions of the classic liver lobule. In all samples, enzyme activity was strongly stimulated by glucagon, cholera toxin, guanosine-5'-O-(3-thiotriphosphate), sodium fluoride and forskolin. The beta-adrenergic agonist isoproterenol produced very weak, if any, enzyme stimulation. Angiotensin II did not inhibit the activity elicited by lithium chloride and GTP at high concentrations, and pertussis toxin did not enhance the GTP-stimulated activity. We observed a periportal-to-pericentral gradient for basal and agent-stimulated activities.     

In situ measurement of glutamate concentrations in the periportal, intermediate, and pericentral zones of rat liver

We developed a quantitative histochemical assay for measurement of local glutamate concentrations in cryostat sections of rat liver. Deamination of glutamate by glutamate dehydrogenase (GDH) was coupled to the production of formazan and formazan precipitation was used for colorimetric visualization. The method was tested and validated with gelatin model sections with known glutamate concentrations. Calibration graphs showed linear relationships with high correlation coefficients (> 96%) between glutamate concentrations or section thickness and absorbance values. The method was reproducible, with a constant percentage of 60 +/- 5% of glutamate being converted in gelatin model sections containing glutamate concentrations of 2 mM and higher. Glutamate concentrations were estimated in periportal, intermediate, and pericentral zones of liver lobules that contain low, intermediate, and high GDH activity, respectively. In fed adult male rat livers, periportal zones contained the highest concentrations of glutamate (approximately 14 mM) and intermediate and pericentral zones approximately 13 and 9 mM, respectively. On starvation, glutamate concentrations increased only in the small rim of pericentral cells that express glutamine synthetase, to approximately 15 mM. In livers of fetal and newborn rats, glutamate was homogeneously distributed, with a concentration of approximately 5 mM. In suckling rat liver, distribution of glutamate was still homogeneous but the concentration was increased to approximately 8 mM. These glutamate distribution patterns were in agreement with those detected immunohistochemically.     

Regulation of rat 6-phosphofructo-2-kinase/fructose-2,6-bisphosphatase. Role of the NH2-terminal region

The role of the NH2-terminal region of the liver and skeletal muscle 6-phosphofructo-2-kinase/fructose 2,6-bisphosphatases was investigated, as well that of a mutant of the liver isoform lacking the first 22 amino acids, by the overexpression of these enzymes in Escherichia coli and the comparison of their kinetic properties. The muscle isoform and the deletion mutant had Km values for fructose 6-phosphate which were 50- and 20-fold higher, respectively, than that of the liver isoform, and the bisphosphatase maximal velocity of the liver deletion mutant was 4-fold higher than that of the native liver isoform. Phosphorylation of the liver isoform increased bisphosphatase activity by 2-3-fold and the Km for fructose 6-phosphate of the 6-phosphofructo-2-kinase by 10-15-fold, but these kinetic effects were greatly diminished for the deletion mutant despite equivalent phosphorylation by cAMP-dependent protein kinase. Arg-173 of the skeletal muscle isoform was found to be functionally equivalent to the residue corresponding to the essential fructose 6-phosphate binding residue of the liver kinase domain, Arg-195. The results suggest that 1) the NH2-terminal regions of the liver and skeletal muscle isoforms are important determinants of fructose 6-phosphate affinity, and 2) the initial 22 amino acids of the liver isoform exert an inhibitory influence on the bisphosphatase and mediate, at least in part, the response of both activities of the enzyme to cAMP-dependent phosphorylation.     

Investigation on glutamine amidohydrolase (EC 3.5.1.2) and glutamine aminotransferase (EC 2.5.1.15) activity in liver and plasma of EAC-bearing mice following glutaminase therapy

The anti-neoplastic activity of bacterial glutaminase on Ehrlich ascites tumor-bearing mice was studied by determining the reduction in the tumor cell count and extension of life span of the host after therapy. The therapeutic effect of glutaminase in relation to change in activity of glutaminolytic enzymes (glutamine amidohydrolase (GNase) and glutamine aminotransferase (GAt)) in liver and plasma were also studied. Bacterial glutaminase was shown to be effective in lowering the tumor burden with increased life span of the host. Glutamine amidohydrolase activity in the liver and plasma was raised significantly with increased tumor burden, whereas GAt activity remained unchanged. Following glutaminase therapy, this high level of GNase activity decreased in comparison to the untreated control. These changes were not seen when normal mice were treated with the same enzyme. Thus alteration in the enzyme levels, particularly GNase was observed to have some correlation with progression of the tumor growth.     

Comparison of serum beta-hexosaminidase isoenzyme B activity with serum carbohydrate-deficient transferrin and other markers of alcohol abuse

We have compared beta-hexosaminidase (beta-Hex) activity, carbohydrate-deficient transferrin (CDT), mean corpuscular volume (MCV), gamma-glutamyltransferase (GGT), aspartate aminotransferase (AST) and alanine aminotransferase (ALT) values in serum from male alcoholic patients with the corresponding values in moderate and non-drinking subjects. The total beta-Hex activity was 2.5 times higher in the alcoholics than in the moderate drinkers and this increase was mainly due to a 5-fold increase in the activity of the B-isoform of the enzyme. This was expressed as a percentage of the total beta-Hex activity and called 'beta-Hex B%'. Strong correlations were found between alcohol consumption (g/ day) and beta-Hex B% (r = 0.757, P < 0.001, n = 42), alcohol consumption and CDT (r = 0.671, P < 0.001, n = 42), and beta-Hex B% and CDT (r = 0.628, P < 0.001, n = 57). Serum beta-Hex B% had a sensitivity of 94% and a specificity of 91% in detecting alcoholic drinking of > 60 g/day. As a single marker of alcoholic drinking, it was markedly more sensitive than MCV and the liver enzymes GGT, AST and ALT, and slightly more sensitive than serum CDT (94 vs 83%). At the CDT cut-off level of 20 U/l, 17% of the moderate and non-drinkers would have been classified as alcoholic drinkers and 17% of the alcoholics would have been classified as moderate drinkers. Some of these misclassifications were eliminated if the beta-Hex B% results were taken into account. We suggest that serum beta-Hex B% can be a useful and inexpensive laboratory test for alcohol abuse.     

Seasonal changes of the blood-testis barrier in viscacha (Lagostomus maximus maximus): a freeze-fracture and lanthanum tracer study

Ursodeoxycholic acid (UDCA or ursodiol) administration has been associated with a reduction of serum liver enzymes in patients with chronic liver disease and with improvement of liver histology in patients with primary biliary cirrhosis. To establish the potential therapeutic efficacy of ursodiol in chronic hepatitis, serum biochemistry and liver histology were investigated in a multicenter, double-blind placebo controlled clinical trial. Sixty patients with non-cholestatic chronic active (mild or severe) hepatitis, mainly of viral (virus C) etiology and almost completely asymptomatic, were enrolled in 3 centers: 29 were assigned to receive placebo and 31 UDCA (600 mg/day) for 1 year. Demographic, biochemical, virological and histological features were balanced between the 2 groups at the entrance into the study. Fifty-six patients (34 males, 22 females; 19 with cirrhosis; 5 HBsAg-positive; 45 anti-HCV positive) were included in the final analysis. Compliance was checked by measuring UDCA levels at the 3 follow-up visits (3, 6 and 12 months). Liver biopsy was performed at the beginning and at the end of treatment and was evaluated blindly by our pathologist (F.C.). Alanine aminotransferase (ALT), aspartate aminotransferase (AST) and gammaglutamyltransferase (GGT) levels were significantly reduced by 25% from baseline values during treatment with ursodiol but not with placebo. The efficacy of UDCA in lowering serum AST and ALT was more pronounced in the presence of cirrhosis. The semiquantitative liver histological score used remained substantially unchanged after treatment and no differences between placebo and UDCA were found for portal or periportal necrosis or inflammation, intralobular degeneration, cholestasis or fibrosis.(ABSTRACT TRUNCATED AT 250 WORDS)     

Hepatic lipidosis in anorectic, lactating holstein cattle: a retrospective study of serum biochemical abnormalities

The association between hepatic lipidosis (HL) and disease in 59 anorectic, ketotic, lactating Holstein heifers and cows was investigated. Severe HL, as determined by histologic evaluation of liver tissue, was present in 46 animals; only half of these animals required intensive treatment for ketosis, and only half had serum biochemical evidence of liver disease, as determined by the presence of a last value of 2-fold or greater than the upper limit of the reference ranges for at least 2 of the 4 serum tests: gamma-glutamyl transferase, aspartate aminotransferase, and sorbitol dehydrogenase activities and bile acid concentrations. Most cattle with biochemical evidence of liver disease and severe HL had been lactating for 14 or more days. Cows that required intensive treatment inconsistently had serum biochemical evidence of liver disease. Although cattle with severe HL had significantly higher serum bilirubin concentrations and aspartate aminotransferase and sorbitol dehydrogenase activities than cattle with less severe lipidosis, the specificity of abnormally high serum sorbitol dehydrogenase activity or bilirubin concentration for severe lipidosis was only 8%. Abnormally high serum aspartate aminotransferase activity was 83% sensitive and 62% specific for severe lipidosis. Serum glucose and total carbon dioxide concentrations were significantly lower in cattle with severe lipidosis than in those with mild or moderate lipidosis, and low serum glucose or total carbon dioxide concentrations were rare in cattle without severe lipidosis. From these data, we conclude that the use of a single biochemical or histopathologic criterion to define severity of disease or degree of liver compromise in anorectic, ketotic cows results in the misidentification of many animals.     

Alterations in glutathione peroxidase activity following reperfusion injury to rat liver

Prevention of cellular damage after warm ischemia is of major importance in liver transplantation. In this study, we determined the extent to which lipid peroxides contribute to the pathogenesis of hepatic cell damage induced by transient warm ischemia with subsequent reperfusion. In addition, the function and immunohistochemical features of glutathione peroxidase, a potent physiological lipid peroxide scavenger of the liver, was assessed. Reperfusion following 15 or 30 minutes of warm ischemia resulted in a significant elevation in serum and liver lipid peroxidase (LPO) levels. In addition, necrosis of the hepatic periportal area accompanied with remarkable rises in serum aspartate aminotransferase (AST) and alanine aminotransferase (ALT) were observed. In contrast, 30 min of ischemia without reperfusion caused minimal hepatocellular damage. The adverse changes after ischemia/reperfusion were minimized by pretreatment with superoxide dismutase (SOD). These results indicate that increased lipid peroxidation by production of radicals after reperfusion caused the liver cell damage. After ischemia/reperfusion, liver glutathione peroxidase (GSH-PO) activity was significantly decreased and its location altered in the damaged liver. These findings suggest that GSH-PO contributes significantly to the protection against hepatic reperfusion injuries.     

Expression of adhesion molecules on endothelial cells after contact with knitted Dacron

Glutamine synthetase and carbamoylphosphate synthetase I expression was examined immunohistochemically in livers of spf-ash homozygous and hemizygous mice, in which one of the urea cycle enzymes (ornithine carbamoyltransferase) is deficient and hyperammonemic disorders are obvious. In the mutant adult mouse liver, only hepatocytes lining central veins expressed glutamine synthetase. In contrast, other hepatocytes expressed carbamoylphosphate synthetase I but not glutamine synthetase. This complementary expression pattern is similar to that seen in wild-type mouse liver. In the liver of mutant young mice, which showed severe retarded growth and abnormal hair and skin development, the developmental expression pattern of both enzymes was also similar to that of the corresponding wild-type liver. However, suppression of carbamoylphosphate synthetase I expression in the pericentral hepatocytes occurred later in the mutant than in wild-type liver. These results show that high plasma concentrations of ammonium ions, which are one of the substrates for both the enzymes, do not change their complementary expression. Instead they support the idea that factor(s) associated with central veins rather than humoral factors direct pericentral hepatocytes to express glutamine synthetase and to suppress carbamoylphosphate synthetase I expression.     

Quantitative comparison between the gel-film and polyvinyl alcohol methods for dehydrogenase histochemistry reveals different intercellular distribution patterns of glucose-6-phosphate and lactate dehydrogenases in mouse liver

The precise histochemical localization and quantification of the activity of soluble dehydrogenases in unfixed cryostat sections requires the use of tissue protectants. In this study, two protectants, polyvinyl alcohol (PVA) and agarose gel, were compared for assaying the activity of lactate dehydrogenase (LDH) and glucose-6-phosphate dehydrogenase (G6PDH) in normal female mouse liver. Quantification of enzyme activity was determined cytophotometrically in periportal (PP), pericentral (PC) and midzonal (MZ) areas. No coloured reaction product was present in PVA media after the incubation period. In contrast, the agarose gels appeared to be highly coloured after incubation. As a consequence, sections incubated with gel media were less intensely stained than those incubated in PVA-containing media. The specific G6PDH reaction (test minus control) yielded approximately 75% less formazan in sections incubated by the agarose gel method than with the PVA method. Further, the amount of formazan deposits attributable to G6PDH activity was highest in the midzonal and pericentral zones of the liver lobule with PVA media, and Kupffer cells could be discriminated easily because of their high G6PDH activity. Significant zonal differences or Kupffer cells could not be observed when agarose gel films were used for the detection of G6PDH activity. The LDH localization patterns appeared to be more uniform after incubation with both methods: no significant differences in specific test minus control reactions were seen between PP, PC and MZ. However, less formazan production (33%) was detected in sections incubated with agarose gels when compared with those incubated with PVA media.(ABSTRACT TRUNCATED AT 250 WORDS)     

Characteristics and efficiency of glutamine production by coupling of a bacterial glutamine synthetase reaction with the alcoholic fermentation system of baker's yeast

Glutamine production with bacterial glutamine synthetase (GS) and the sugar-fermenting system of baker's yeast for ATP regeneration was investigated by determining the product yield obtained with the energy source for ATP regeneration (i.e., glucose) for yeast fermentation. Fructose 1,6-bisphosphate was accumulated temporarily prior to the formation of glutamine in mixtures which consisted of dried yeast cells, GS, their substrate (glucose and glutamate and ammonia), inorganic phosphate, and cofactors. By an increase in the amounts of GS and inorganic phosphate, the amounts of glutamine formed increased to 19 to 54 g/liter, with a yield increase of 69 to 72% based on the energy source (glucose) for ATP regeneration. The analyses of sugar fermentation of the yeast in the glutamine-producing mixtures suggested that the apparent hydrolysis of ATP by a futile cycle(s) at the early stage of glycolysis in the yeast cells reduces the efficiency of ATP utilization. Inorganic phosphate inhibits phosphatase(s) and thus improves glutamine yield. However, the analyses of GS activity in the glutamine-producing mixtures suggested that the higher concentration of inorganic phosphate as well as the limited amount of ATP-ADP caused the low reactivity of GS in the glutamine-producing mixtures. A result suggestive of improved glutamine yield under the conditions with lower concentrations of inorganic phosphate was obtained by using a yeast mutant strain that had low assimilating ability for glycerol and ethanol. In the mutant, the activity of the enzymes involved in gluconeogenesis, especially fructose 1,6-bisphosphatase, was lower than that in the wild-type strain.     

Nutritional regulation of the activities of lipogenic enzymes of rat liver and brown adipose tissue

Nutrition-induced effects on the activity of enzymes of lipogenesis, fatty acid synthase (FAS: EC 2.3.1.85), ATP citrate lyase (ACL: EC 4.1.3.8), malic enzyme (ME; EC 1.1.1.40), glucose-6-phosphate dehydrogenase (G6PDH: EC 1.1.1.49) and 6-phosphogluconate dehydrogenase (PGDH; EC 1.1.1.44) were investigated in liver and interscapular brown adipose tissue (BAT) of rats. The lipogenic enzymes could be grouped into two categories according to their response to dietary manipulations: FAS and ACL, both key enzymes of lipogenesis, responded fast and strongly to dietary manipulations. ME, G6PDH and PGDH, enzymes which also contribute to metabolic pathways other than lipogenesis, responded in a more sustained and less pronounced fashion. Feed deprivation caused the specific activities of lipogenic enzymes to decline several-fold. Refeeding of previously fasted (up to 3 days) animals increased the activities dramatically (10-to 25-fold) to far above pre-fasting levels ("overshoot"). Repetition of the fasting/refeeding regimen increasingly impaired the ability of both tissues to synthesize overshooting enzyme activities in the subsequent refeeding period. The fasting-induced decline of the activities was prevented when sugars were provided to the animals via drinking water. The sugars displayed different effectivities: sucrose = glucose > fructose > maltose > > lactose. Sugars as the sole nutrient after fasting were also able to induce overshooting enzyme activities. Again, activities of FAS and ACL responded in a more pronounced fashion than the other three enzymes. Transition from feeding one diet to feeding a new diet of different composition led to adaptation of the lipogenic enzyme activities to levels characteristic for the new diet. Replacing a low-carbohydrate with a high-carbohydrate diet proceeded with major alterations of enzyme activities. This process of attaining a new level took up to 20 days and involved pronounced oscillations of the specific activities. In contrast, when a high-carbohydrate diet was replaced with another diet. particular one high in fat, transition to new enzyme activities was completed within 2-3 days and proceeded without oscillations. All dietary manipulations caused more pronounced responses in young (35d-old) than in adult (180d-old) animals.     

Purification and characterisation of an unusually heat-stable and acid/base-stable class I fructose-1,6-bisphosphate aldolase from Staphylococcus aureus

The fructose-1,6-biphosphate aldolase (EC 4.1.2.13) from Staphylococcus aureus ATCC 12 600 was purified and biochemically investigated. It was found that this aldolase belongs to the class I type of aldolases since the fructose-1,6-bisphosphate cleavage activity was insensitivity to high levels of EDTA. Like class I aldolases of higher organisms, the S. aureus aldolase activity is inhibited on incubation with the substrate dihydroxyacetone-phosphate in the presence of NaBH4. Furthermore, the aldolase activity is not stimulated by monovalent or divalent cations. This enzyme exhibits an extreme stability to high temperature, acid and base. The purified enzyme is not activated after heating at 97 degrees C for 1.6 h. An incubation at 130 degrees C for 10 min is necessary to destroy irreversibly the activity of the aldolase. The optimal temperature for activity, however, is 37 degrees C. It is a monomer with a molecular weight of about 33,000 and exhibits a relatively broad pH optimum ranging over pH 7.5-9.0. Apart from fructose 1,6-bisphosphate as substrate (Km = 0.045 mM), this aldolase also revealed activity with fructose 1-phosphate (Km = 25 mM). The pH of the isoelectric point lies between 3.95 and 4.25.     

Muscle damage induced by experimental hypoglycemia

To determine organ damage due to hypoglycemia, we studied the effects of insulin dose and hypoglycemia duration on serum enzyme activity in rabbits. Thirty rabbits were randomly divided into five groups according to hypoglycemia duration and insulin dose: A2, hypoglycemia for 30 minutes with 2 U/kg insulin; A10, hypoglycemia for 30 minutes with 10 U/kg insulin; B2, hypoglycemia for 60 minutes with 2 U/kg insulin; B10, hypoglycemia for 60 minutes with 10 U/kg insulin; and C, no hypoglycemia with 10 U/kg insulin and 50% glucose. Insulin-induced hypoglycemia was reversed by intravenous injection of glucose. Alterations in serum enzyme activity and creatine kinase (CK) isoenzyme distribution were determined before and after insulin injection. Serum CK activity increased significantly in all hypoglycemic groups compared with preinjection values, and tended to remain high for 24 hours in both groups A10 and B10. Serum activity of alanine aminotransferase (ALT), aspartate aminotransferase (AST), and lactate dehydrogenase (LDH) increased only in group B10. In addition, the level of band 4 of serum CK isoenzymes, which exists predominantly in skeletal muscle and myocardium, increased significantly in group B10. These results suggest that the increase in both serum enzyme and CK band 4 isoenzyme activities during hypoglycemia is primarily due to damage in muscle rather than liver, and that the hypoglycemia duration and insulin dosage may influence the extent of organ damage.     

Major changes in the kinetic mechanism of AMP inhibition and AMP cooperativity attend the mutation of Arg49 in fructose-1,6-bisphosphatase

The significance of subunit interface residues Arg49 and Lys50 in the function of porcine liver fructose-1,6-bisphosphatase was explored by site-directed mutagenesis, initial rate kinetics, and circular dichroism spectroscopy. The Lys50 --> Met mutant had kinetic properties similar to the wild-type enzyme but was more thermostable. Mutants Arg49 --> Leu, Arg49 --> Asp, Arg49 --> Cys were less thermostable than the wild-type enzyme yet exhibited wild-type values for kcat and Km. The Ki for the competitive inhibitor fructose 2,6-bisphosphate increased 3- and 5-fold in Arg49 --> Leu and Arg49 --> Asp, respectively. The Ka for Mg2+ increased 4-8-fold for the Arg49 mutants, with no alteration in the cooperativity of Mg2+ binding. Position 49 mutants had 4-10-fold lower AMP affinity. Most significantly, the mechanism of AMP inhibition with respect to fructose 1,6-bisphosphate changed from noncompetitive (wild-type enzyme) to competitive (Arg49 --> Leu and Arg49 --> Asp mutants) and to uncompetitive (Arg49 --> Cys mutant). In addition, AMP cooperativity was absent in the Arg49 mutants. The R and T-state circular dichroism spectra of the position 49 mutants were identical and superimposable on only the R-state spectrum of the wild-type enzyme. Changes from noncompetitive to competitive inhibition by AMP can be accommodated within the framework of a steady-state Random Bi Bi mechanism. The appearance of uncompetitive inhibition, however, suggests that a more complex mechanism may be necessary to account for the kinetic properties of the enzyme.     

Molecular basis of P450 inhibition and activation: implications for drug development and drug therapy

In previous studies many benzimidazole, imidazole and benzothiazole derivatives had been synthesized and their antimicrobial activities were tested in vitro conditions. Four of these compounds showed minimal inhibitory concentrations (MIC) of 5-25 micrograms/ml against standard strains and clinical isolates. In order to determine whether these four compounds can be used for therapeutic purpose, their serum MIC values and side effects on hepatic and renal functions were determined. Different concentrations of the compounds were tested on Wistar rats. Compound 1 was administered orally, intramuscularly and intravenously; compounds 2, 3 and 4 were given orally and intramuscularly. Blood samples were taken 4 and 24 h after administration of the compounds. Serum MIC values were investigated by bioassay and serum levels of biochemical parameters by autoanalyzer. None of the tested compounds showed antimicrobial activity at their serum concentrations. Although creatinine activity was found at normal levels in all experiments, compounds 1 and 2 caused a significant increase in blood urea nitrogen (BUN) level. The values of aspartate aminotransferase and/or alanine aminotransferase and/or alkaline phosphatase which are characteristic for liver function were generally found at high levels. According to these results, it can be concluded that the tested compounds caused damage in liver and biliary tracts without antimicrobial activity by their serum concentrations.     

Postcholestatic alkaline phosphatase activity after relief of bile duct obstruction in the rat

The effects of obstructive cholestasis on the activity of alkaline phosphatase have been extensively studied in serum and liver tissue. However, very little is known about the activity of this enzyme in the postcholestatic condition after relief of the biliary obstruction. The purpose of this study has been to characterize alkaline phosphatase activity in serum, liver and bile in the postcholestatic period and to relate it to changes in bile acid secretory rate. Serum activity and biliary secretory rates of alkaline phosphatase were markedly increased in rats subjected to a reversible obstructive cholestasis for 24 hr or 48 hr and progressively declined along the postcholestatic period to values not significantly different from those of control rats within 48 hr. A significant direct linear relationship between the biliary secretory rates of enzyme activity and bile salts was apparent both in cholestatic groups and in the control groups. The slope of the regression line (units of alkaline phosphatase secreted per micromole of bile salts) was 1.5-fold to 3-fold higher in cholestatic animals. Remarkably, a positive y-intercept of regression lines suggested that a significant fraction of the enzyme was secreted independently of bile salts; this fraction was 18-fold and 34-fold greater in 24-hr and 48 hr cholestatic rats, respectively, compared with that in controls. Sodium taurocholate administered intravenously, either as a bolus or as an infusion at increasing submaximal rates, resulted in parallel increases of bile salt and alkaline phosphatase secretory rates into bile. The enzyme activity secreted per micromole of taurocholate was significantly greater in cholestatic than in control rats.(ABSTRACT TRUNCATED AT 250 WORDS)     

Glutamate dehydrogenase, alanine aminotransferase, thymidine kinase, and arginase in fetal and adult human and rat liver

In fetal livers of both man and rat thymidine kinase activity was 12 times higher than in the adult, glutamate dehydrogenase and arginase were present at 20-50% of their adult values, whereas alanine aminotransferase activity was only an insignificant fraction of that in the adult. Although the developmental changes for the four enzymes were quantitatively similar in both species, qualitatively there were some significant differences. In adult human liver, glutamate dehydrogenase activity was distributed almost equally between the cytosol and particles; the concentration of only the soluble enzyme increased after birth. In rat liver, glutamate dehydrogenase remained exclusively a particulate enzyme. The soluble hepatic alanine aminotransferase activity rose in both species after birth (from less than 2 U/g to 41-57 U/g, respectively). Thymidine kinase was wholly soluble in the fetal livers; only in adult human liver was additional activity (at least 50% of the total) found in the particles. Arginase isozymes, identical and apparently the same single isozyme in fetal and adult rat liver, show an ontogenetic change in man. A shift from a single form, common to human fetal liver and fetal kidney, to at least two variants in adult human liver, indicates another complexity of the fully differentiated liver in man.