Modulation of the activity of hepatic gamma-glutamyl transpeptidase, adenosine triphosphatase, placental glutathione S-transferase and adenylate cyclase by acute administration of lead nitrate

The effect of a single administration of lead nitrate on the activity of gamma-glutamyltranspeptidase (gamma-GT), adenosine triphosphatase (ATPase), the placental form of glutathione S-transferase (GST-P) and adenylate cyclase (AC), four enzymes widely used as phenotypic markers for preneoplasia, was investigated in the liver of male Wistar rats. The results of the histochemical enzymatic staining indicated that an acute treatment with lead nitrate induces the activity of gamma-GT, mainly in the hepatocytes located around zone I of the liver acinus, with a maximum seen between 72-96 hours. On the other hand, the activity of ATPase was found to be severely inhibited at 2-3 days after treatment, as shown by a strong decrease in the staining of the bile canaliculi of zones II and III. Immunohistochemical analysis revealed that lead nitrate administration also resulted in the appearance in most of the hepatocytes of GST-P, an enzyme whose activity is almost undetectable in normal rat liver, but is elevated in preneoplastic liver lesions. Finally, lead nitrate treatment resulted in an inhibition of AC activity which was maximal after 24 hours.     

Early biochemical alterations induced by 2-acetylaminofluorene in rat liver

Livers from rats fed the carcinogen 2-acetylaminofluorene (AAF) were analyzed at weekly or semiweekly intervals to correlate appearance of enzymatic markers in total liver homogenates with histochemical events accompanying formation of hyperplastic liver nodules. gamma-Glutamyltranspeptidase (gamma-GT)-positive foci appeared by day 11 and visible nodules were present by days 28-35. Specific activity of homogenate gamma-GT increased in parallel to formation of hyperplastic foci and nodules, declined and then rose again to 20-fold that of controls by day 77. Specific activity of ornithine decarboxylase increased in advance of that of gamma-GT, to a level of 8-fold above control during the period of formation of hyperplastic foci. An early response was a 2-fold rise in the specific activity of nucleoside diphosphate phosphatase during the first week of carcinogen administration. The specific activity of 5'-nucleotidase, known to increase during liver regeneration, declined as the animals aged and was not increased by the dietary AAF. The enzymatic alterations induced by AAF could not be mimicked by cell proliferation, diet stress or the hepatotoxicity induced by feeding 1.87% 4-acetamidophenol.     

Gamma-glutamyl transpeptidase, glutathione, and L-glutamic acid in the rat epididymis during postnatal development

During postnatal development, gamma-glutamyl transpeptidase (gamma-GT), reduced glutathione (GSH), and L-glutamic acid (L-Glu) were assayed in the epididymides of rats at 5-day intervals between 10 and 60 days of age and compared to adult levels. gamma-GT activity (with gamma-glutamyl-p-nitroanilide as substrate) and L-Glu (nicotinamide adenine dinucleotide conversion-dependent assay) were measured photometrically, while GSH (o-phthalaldehyde reaction) was quantified with a fluorometric assay. In immature rats, the epididymal gamma-GT was very low but increased after 25 days of age in the caput and after 50 days of age in the cauda. The enzyme level in the epididymal caput was by far the highest in the adult rat reproductive tissues. The postnatal increase of gamma-GT in epididymal caput and cauda was associated with a decline of its substrate GSH and an accumulation of the product L-Glu. These observations provide evidence for the in vivo hydrolytic activity of gamma-GT and explain the high levels of L-Glu found in the epididymis of rats and other mammals.     

Effects of starvation, a hyperprotein diet and treatment with nicotinamide on L-threonine aldolase and allothreonine aldolase in the rat liver

In order to evaluate if the aminoacid L-threonine and its isomer allothreonine are metabolized by a single protein or by two specific enzymatic proteins, in the rat liver, we have studied the behaviour of L-threonine aldolase activity and allothreonine aldolase activity in rats which are injected with nicotinamide (1 g/ Kg) or have received a special diet containing 91% of casein or that have been starved for several days. The L-threonine aldolase enhances its activity in all three cases, while the allothreonine aldolase does not show significative changes of activity. These different behaviours of the two enzymatic activities, support the hypothesis that in the rat liver two proteins are necessary for the metabolism of the L-threonine and its isomer allothreonine.     

Influence of age on duodenal brush border membrane and specific activities of brush border membrane enzymes in Wistar rats.

To examine age-related changes in the morphology of intestinal brush border membrane (BBM; microvilli) and specific activities of intestinal BBM enzymes including alkaline phosphatase (ALP), gamma-glutamyl transpeptidase (gamma-GT), and disacchridase, four groups of Wistar rats were sacrificed at 2.5 wk, 5 wk, 5 mon and 23 mon. In an electron microscopic examination, morphologically a less dense BBM structure in the duodenum of rats aged 23 mon was observed than that of rats aged 5 mon. Specific activity of ALP in the duodenum from 5-mon-old rats was significantly higher than from rats aged 2.5 wk and 23 mon. The mucosal tissues from 5-wk-old rats had significantly higher specific activity of gamma-GT than did tissues from the other ages. In sucrase and maltase specific activities, 5-mon-old rats had higher activities of these enzymes than other age groups, especially 2.5-wk- and 23-mon-old rats. There was also a significant effect of site on intestinal BBM enzyme activities in post-weanling rats. Regional gradients of ALP and gamma-GT along the entire small intestine (duodenum > jejunum > ileum) were remarkable. Disaccharidase activities peaked in the jejunum and declined toward both the duodenum and ileum. Taken together the result obtained here suggested that 5-mon-old rats had the most elevated intestinal function. This result also strongly indicated that the structure of the intestinal BBM and development of intestinal BBM enzymes in Wistar rate were markedly influenced by age during the postnatal period.     

gamma-Glutamyl transpeptidase activity in mice: age dependent changes and effect of cortisol.

gamma-Glutamyl transpeptidase (gamma-GT) activity in various organs of mice during ontogenesis has been determined. The activity profile in foetus, neonates and the adult animal were compared to ascertain the functional significance of the enzyme. In addition, the effect of cortisol on gamma-GT activity in adult kidney is presented.     

Effect of a high fructose diet on the activities of enzymes implicated in the conversion of fructose to glucose by the liver and the intestinal mucosa of the rat

The activity of enzymes implicated in the metabolic pathway of fructose to glucose conversion was shown in rat liver and intestine. In rats on normal diet, the specific activity of glucose-6-phosphatase, fructokinase, fructose-1,6-diphosphatase and triokinase was low in the intestine confirming that sugar conversion is not operative in this organ. In rats on a fructose diet, all the specific enzymatic activities tested were increased except for the hepatic triokinase and triose phosphate isomerase and for the intestinal triose phosphate isomerase. The intestine acquires the possibility to transform fructose to glucose by modifying the activities of enzymes implicated in the same metabolic pathway as that intervening in the liver.     

Flow microfluorometric identification of liver cells with elevated gamma-glutamyltranspeptidase activity after carcinogen exposure.

We have developed a fluorometric cytochemical assay for gamma-glutamyltranspeptidase (gamma-GT) using the substrate gamma-glutamyl-4-methoxy-2-naphthylamide in which the released methoxynaphthylamine was coupled with 5-nitrosalicylaldehyde to form a yellow fluorescent crystalline product within the cells. Single cell suspensions were obtained by collagenase perfusion of livers from rats that had either received a two-thirds partial hepatectomy followed 24 hr later by a single injection of diethylnitrosamine (DEN) or received a partial hepatectomy alone. Cultured HTC cells were used as a source of gamma-GT+ cells. Fluorescence (gamma-GT activity) was low in most of the cells from both DEN-exposed and control rats, but high in HTC cells. The livers of both DEN-exposed and control rats had a subpopulation of cells that were gamma-GT+; this population could be quantitated and sorted by flow cytometry. Five weeks post injection the number of GT+ cells from the rats exposed to DEN was more than 20 times that from the control rats. Increased gamma-GT activity may be a useful cytochemical marker for preneoplastic liver cells.     

Enzymatic response to glucocorticoids of the chick intestinal endoderm associated with various mesenchymal cell types

The aim of the present study was to test the morphological and functional maturation of recombinants composed of chick intestinal endoderms associated to different mesenchymal supports and their enzymatic response to glucocorticoids. For this purpose 5.5-day chick embryonic intestinal endoderm has been associated to 14-day fetal rat gut mesenchyme, to rat intestinal fibroblasts (6-day neonatal rat intramucosal fibroblasts) or to rat control fibroblasts, originating from 20-day fetal rat skin and lung and from 6-day neonatal rat intestinal muscle. The recombinants were grown as intracoelomic grafts either for 12 days or for 10 days plus 2 days in organ culture in the presence of dexamethasone. The data show that heterospecific recombinants achieve subnormal morphogenesis and enzymatic maturation. The organ culture experiments further reveal that sucrase activity is insensitive to dexamethasone in all types of recombinants whereas, alkaline phosphatase is highly stimulated over the levels present in the intestine developed in situ whatever the stromal support, except when this support is provided by rat gut mesenchyme. These results support the view that in the intestine the hormonal response is mediated by epithelial-mesenchymal interactions.     

Developmental studies on creatine kinase. Isoenzyme in rat gastrointestinal tract

Creatine kinase activity and its isoenzymatic profile in rat intestinal mucose during normal development have been studied. Creatine kinase enzymatic activity increased stepwise during fetal development and the first week of life. An isoenzymatic pattern of exclusively CK-BB types occurred in all segments of the digestive tract during the early fetal stage. The isoenzyme profile of creatine kinase in the esophagic tissue with advancing maturation of the fetus shifted in the same way as in adults, with preferential concentration of CK-MM. However, CK-BB continued to be the main isoenzyme in the rest of the digestive tract. Our results show that rats are particularly suitable for experimental studies of intestinal creatine kinase isoenzymes.     

Age- and sex-related changes in type-1 iodothyronine deiodinase messenger ribonucleic acid in rat liver and kidney.

To evaluate the age- and sex-related changes in Type 1 iodothyronine deiodinase gene expression in the liver and kidneys, we measured 5'-deiodinating activity and deiodinase mRNA in developing rats. The activity in the liver increased after birth, and that in neonates was approximately half that in adults. In contrast, the activity in neonatal kidneys remained very low. The relative importance of activity in male kidneys compared to the liver increased from the ages of 1 to 20 days. The male adult rat liver showed a higher level of activity than the female liver. Deiodinase mRNA in the male liver gradually increased from 1 to 20 days, in correlation with the activity. In kidneys, deiodinase mRNA was low before day 20, and there was no significant sex difference in all age groups. In orchiectomized male rats, the activity and mRNA in the liver was similar to the low levels found in females; however, the levels in the kidneys were not significantly different than those of normal males. These data suggest that the age- and sex-related changes in iodothyronine deiodinase gene expression are regulated mainly at the pretranslational level, and that the relative importance of kidneys to liver in iodothyronine deiodinase increases from birth to age 20 days due to the difference in the gene expression.     

Immunological comparison of cholesterol esterases.

Rat pancreas cholesterol esterase has been immunologically compared with rat intestinal cholesterol esterase. Monospecific precipitating antisera against purified rat pancreas cholesterol esterase were produced in rabbits. Immune IgG, isolated from the antisera, crossreacted with the cholesterol esterase of intestine in the immunodiffusion assay with a pattern of complete identity. Titration of the pancreatic and intestinal enzyme with immune IgG revealed a maximum precipitation (99 and 98%) and maximum inhibition of enzyme activity (66 and 65%) when the ratio of enzyme activity (units) to immune IgG (mg) was 4.1 and 4.0, respectively. The immunological identity demonstrated in these studies lend support to the concept that intestinal cholesterol esterase is derived from the pancreatic enzyme. In additional studies, the immune IgG was employed in the immunodiffusion assay to test for cross-reaction with cholesterol esterases prepared from rat aorta, adrenal, and liver and with cholesterol esterases prepared from the pancreas of rabbit, dog, cow, and guinea pig. There was no evidence of cross-reaction in any case. Further, cholesterol esterase prepared from the pancreas of rabbit, dog, and cow retained full enzymatic activity when titrated with immune IgG.     

Development of vitamin D3 25-hydroxylase activity in rat liver microsomes

The ontogeny of vitamin D3 25-hydroxylase activity has been determined in liver microsomes of rat fetuses and neonates. Production of 25-hydroxyvitamin D3 was low (0.11 pmol/g liver/h) 3 days prior to birth. Production rates were 1.2, 2.2, 1.8, and 2.8 pmol/g liver/h on Day 0, Day 2, Day 7, and Day 15, respectively. 25-Hydroxyvitamin D3 production in neonates increased sixfold from Day 15 to Day 22 to a value twice that of the mothers (17.6 pmol/g liver/h compared with 7.3 pmol/g liver/h). Activity in the maternal microsomes was constant (0.22 to 0.30 pmol/mg protein/h) except for the day of parturition (0.54 pmol/mg protein/h) and Day 22 postpartum (0.44 pmol/mg protein/h). A cytosolic factor, present as early as 3 days prior to birth, was required for vitamin D3 25-hydroxylase activity in the fetuses and stimulated the 25-hydroxylase reaction (up to 2.5-fold) in neonates and mothers. The ability of cytosol to prevent degradation of vitamin D3 was also present in the fetal stage. These data suggest that microsomal vitamin D3 25-hydroxylase activity in rat liver microsomes develops slowly and reaches full activity near the weaning stage. Since the cytosolic factor(s) is/are present in the fetal stage, the limiting component in the maturation of vitamin D3 25-hydroxylase activity in liver microsomes is the development of the cytochrome P-450 vitamin D3 25-hydroxylase.     

Developmental aspects of uridine diphosphate galactose 4-epimerase in rat intestine

Kinetic and developmental characteristics of rat intestinal UDP-galactose 4-epimerase activity have been examined. The enzyme in the adult rat had a V_max. value 2–3 times higher than that of the newborn animal, but the K_m values for the enzyme in the newborn and adult rat were the same (0.17mm). No differences in epimerase activity were found along the length of the jejuno-ileum of adult animals, but higher activity was detected in the lower portion of the villi and crypts. The specific activity of the enzyme in the newborn rat began to rise at about 17 days of age, reaching a peak at 29 days of age, and then became constant at adult values. Total epimerase activity in the newborn rat liver was 2–5 times higher than the total activity in the intestine, and total epimerase activity in the adult intestine was 3–4 times higher than the total activity in the liver. Cortisone injection did not enhance the increase of epimerase normally seen during development, but caused a decrease in activity of this enzyme in the jejunum in rats up to 17 days of age. After 17 days, cortisone treatment had no effect on epimerase activity.     

Gamma glutamyl transferase: application of a new radiochemical assay to the analysis of its subcellular distribution in the rat liver.

gamma-Glutamyl transferase (gamma-GT) is a key catalyst in the metabolism of glutathione. Its activity in the rat liver is usually very low but it increases significantly during the process of chemical hepatocarcinogenesis. A new radiochemical assay is reported which measures the amount of 3H-aniline liberated from gamma-glutamyl-3H-anilide. This assay is highly specific and no biological substances interferes. By applying this new assay to the analysis of the subcellular distribution of the rat liver gamma-GT, it is shown that it distributes between two pools, one which corresponds to a membrane-bound enzyme, the other to a soluble enzyme. The subcellular distribution of gamma-GT is discussed by comparison with the patterns of distribution of classical marker enzymes.     

Influence of Methionine on Toxicity of Fluoride in the Liver of Rats

Oxidative stress is a common mechanism by which chemical toxicity can occur in the liver. The aim of the studies conducted has been to determine what influence the administration of methionine during intoxication with sodium fluoride may have upon the selected enzymes of the antioxidative system in rat liver. The experiment was carried out on Wistar FL rats (adult females) that, for 35 days, were administered distilled water, NaF, or NaF with methionine (doses: 10 mg NaF/kg bw/day, 10 mg Met/kg bw/day). The influence of administered NaF and Met was examined by analyzing the activity of the antioxidative enzymes: superoxide dismutase, catalase, glutathione peroxidase, glutathione reductase, and glutathione transferase in the liver. The results suggest that fluoride reduces the efficiency of the enzymatic antioxidative system in the liver. Administration of methionine during intoxication with sodium fluoride does not have an advantageous influence upon the activity of superoxide dismutase, catalase, reductase, and glutathione transferase in the liver. The slight increase of the activity of glutathione peroxidase after administration of methionine may indicate its protective influence upon that enzyme.     

Effect of starvation on lipoprotein lipase activity in the liver of developing rats

Liver lipoprotein lipase activity in neonatal (1- and 5-day-old) rats was 2-3-times than in the liver of adult rats. In mid-suckling (15-day-old) or weaned (30-day-old) animals, it was not significantly different from the low activity detected in adult rats. Starvation resulted in a 3-fold increase of lipoprotein lipase activity in the neonatal liver, but did not affect the activity in the liver of mid-suckling, weaned or adult rats. When isolated livers from both 1- and 5-day-old pups were perfused with heparin, a sharp peak of lipoprotein lipase activity appeared in the perfusate. In fed neonates, the peak area accounted for about 70% of the total (released + non-releasable) activity. In starved neonates, the proportion of heparin-releasable activity increased up to about 90%. These results indicate that neonatal rat liver lipoprotein lipase activity is markedly affected by changes in the nutritional status of the animal, and the effect is restricted to the vascular pool of the enzyme, as was reported in extrahepatic tissues from adult rats.     

Hydrolysis of retinyl palmitate by enzymes of rat pancreas and liver. Differentiation of bile salt-dependent and bile salt-independent, neutral retinyl ester hydrolases in rat liver

Previous studies have demonstrated that homogenates of the livers of rats contain a neutral retinyl ester hydrolase activity that requires millimolar concentrations of bile salts for maximal in vitro activity. The enzymatic properties of this neutral, bile salt-dependent retinyl ester hydrolase activity in liver homogenates are nearly identical to those observed in the present report for the in vitro hydrolysis of retinyl palmitate by purified rat pancreatic cholesteryl ester hydrolase (EC 3.1.1.13). Moreover, anti-rat pancreatic cholesteryl ester hydrolase IgG completely inhibits the bile salt-dependent retinyl ester hydrolase activity of rat liver homogenates whereas normal rabbit IgG does not. We also show that liver homogenates contain a neutral, bile salt-independent retinyl ester hydrolase activity that differs from the bile salt-dependent activity in that 1) its absolute activity does not vary markedly among individual rats, 2) it is not inhibited by antibodies to pancreatic cholesteryl ester hydrolase, and 3) it is localized in the microsomal fraction of liver homogenates. Subfractionation of microsomes demonstrates that the neutral, bile salt-independent retinyl ester hydrolase activity is associated with liver cell plasma membranes and thus may play a role in the hydrolysis of retinyl esters delivered to the liver by chylomicron remnants.     

Enzymes of ammonia detoxication after portacaval shunt in the rat. I. Carbamylphosphate synthetase and aspartate transcarbamylase.

At high systemic blood concentrations ammonia may be partially deviated into the pathway of pyrimidine synthesis, as has been observed in different genetic defects of the urea cycle. The portacaval shunt (PCS) rat presents an animal model to study ammonia detoxication without an underlying enzyme defect in the urea cycle. Since ammonia may induce a deviation into the pyrimidine pathway by influencing enzymatic reactions involved in this pathway, the activity of carbamylphosphate synthetase and aspartate transcarbamylase in liver as well as the excretion of orotic acid in the urine were measured in rats 10, 20 and 30 days after PCS. The results suggest that in this experimental model ammonia may be channeled into the pyrimidine pathway leading to a stimulation of the first enzymatic step and to an increased excretion of orotic acid.     

4-Hydroxytamoxifen sulfation metabolism

Tamoxifen (TAM) is an important chemotherapeutic agent for the treatment of breast cancer. It has also been shown to decrease breast cancer incidence in healthy women at high risk for the disease. The increased risk of endometrial cancer in women has raised concerns in the use of the drug. Tamoxifen has also been shown to be a potent hepatocarcinogen in rats. The oxidative metabolites of TAM include alpha-hydroxytamoxifen (alpha-OH-TAM) and 4-hydroxytamoxifen (4-OH-TAM). The studies on the sulfation of these metabolites are very limited. It has been reported that alpha-OH-TAM is a substrate for rat hydroxysteroid sulfotransferase a (STa). Our studies on the sulfation of 4-OH-TAM demonstrated that 4-hydroxytamoxifen can be sulfated by human liver and human intestinal cytosols. Human phenol-sulfating sulfotransferase and human estrogen sulfotransferase are the major enzymes for the sulfation of 4-OH-TAM. Human dopamine-sulfating sulfotransferase also has sulfation activity for 4-OH-TAM. In contrast, rat liver and intestine cytosols have no detectable sulfation activity for 4-OH-TAM. The results suggest that the alpha-OH-TAM sulfation pathway leads to bioactivation of TAM, and the 4-OH-TAM sulfation pathway leads to detoxification of TAM. This agrees with the fact that TAM is more toxic for rats than for human beings.