EC:3.1.3.9 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.3.9 (glucose-6-phosphatase)
3,081 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Three groups of 6 male chicks each were fed a commercial diet and were given drinking water which contained either 0, 150 or 300 mug. of mercury/ml. as mercuric chloride from hatching to 3 weeks of age. The chicks were killed, the livers were removed and weighed, and the activities of selected enzymes were measured in the 800 X gav supernatant fractions of the liver homogenates. Liver weights were depressed from control values in chicks receiving 300 p.p.m. mercury but not in chicks receiving 150 p.p.m. Fatty acid synthetase specific activity was depressed by both levels of added mercury, but microsomal fatty acid elongation was depressed only by 300 p.p.m. of mercury. Both levels of added mercury stimulated acid phosphatase specific activity. The speecific activities of cytochrome c oxidase, glucose-6-phosphatase and 6-phosphogluconate dehydrogenase were unaffected by added mercury. The data support the hypothesis that mercury administration does not result in generalized hepatotoxicity.
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PMID:Mercuric chloride effects on the activities of some hepatic enzymes in chicks. 17 40

The effect of 1.8 mg/liter (LC50) of mercuric chloride exposure on the activities of alkaline phosphatase, acid phosphatase, glucose-6-phosphatase, amylase, pepsin, trypsin, tripeptidase glycyl-glycine dipeptidase and carnosinase has been examined in Channa punctatus. The three phosphatases have been inhibited in the liver but showed an increase in activity in the intestine and pyloric caeca. Amylase, pepsin and trypsin have also shown a slight increase in activity. There has been no significant alteration in the activites of the peptidases. The results show that mercury inhibits the activites of phosphatases in the liver but has no significant effect on the digestive enzymes within the experimental period of 96 hours.
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PMID:Effect of mercuric chloride on the digestive system of a teleost fish, Channa punctatus. 21 48

The change in the levels of DNA, RNA, protein, glucose-6-phosphatase, and microsomal enzymes in the rat liver following exposure to methylmercury was studied. The turnover rate of the membranes was also investigated by means of radioactive glycerol. A marked increase in microsomal enzyme levels, with no increase in smooth endoplasmic reticulum, was found one to four hours following administration. A delay in incorporation of radioactive glycerol and more rapid degradation of microsomal membranes were also detected as a result of mercury intoxication. These observations suggest an instability of the microsomal membranes which would be responsible for the early increase in microsomal enzymes upon homogenization. A general inhibition of the microsomal enzymes and proteins was found 1-2 days after mercury administration. The inhibition of glucose-6-phosphatase activity, however, was not noted until day 5. Most of the enzymatic activities returned to normal between days 5 and 8. A reduction of DNA and protein was found in the liver homogenate after 2 hours of intoxication. However, no change in the RNA level was detected.
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PMID:Methylmercury induced biochemical and microsomal changes in the rat liver. 72 4

In order to determine the specific action of cadmium on bone metabolism, the effect of cadmium on alkaline phosphatase activity, a marker enzyme of osteoblasts, was compared with that of other divalent heavy metal ions, i.e., zinc, manganese, lead, copper, nickel and mercury (10 microM each), using cloned osteoblast-like cells, MC3T3-E1. Cadmium had the strongest inhibitory effect on alkaline phosphatase activity of the cells among the metals tested. At the same dose, however, cadmium failed to inhibit cellular glucose-6-phosphatase and lactate dehydrogenase activities, suggesting that the inhibitory effect of cadmium on alkaline phosphatase was specific and was not dependent on cell injury. Cadmium treatment caused a significant decrease in cellular zinc level, but mercury treatment had no such effect at the dose inhibiting alkaline phosphatase activity. There was a good correlation between decrease of cellular zinc level and inhibition of alkaline phosphatase activity in cadmium-treated cells. Concomitant treatment of the cells with zinc prevented the cadmium-induced inhibition of alkaline phosphatase activity. However, this was not the case in the mercury-induced inhibition. Cadmium also inhibited the mineralization of osteoblasts. When 10 or 20 microM zinc was concomitantly added to the cultures, the inhibition of mineralization was prevented. These data suggest that the inhibitory effect of cadmium in osteoblasts may be closely related to its influence on the cellular zinc metabolism.
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PMID:Preventive effects of zinc on cadmium-induced inhibition of alkaline phosphatase activity and mineralization activity in osteoblast-like cells, MC3T3-E1. 274 54

Comparative studies investigating influences of temperature and time of preincubation on the interactions of an organomercurial agarose gel and p-mercuribenzoate with glucose-6-phosphatase of native and Triton X-114-modified rat liver microsomes were carried out. The effect of p-mercuribenzoate on glucose 6-phosphate hydrolysis is a result of two processes, a moderate membrane perturbation connected with release of some latency and temperature- and time-dependent inhibition of the catalytic activity. Short-term preincubation with both organic mercurials at 37 degrees C is a necessary condition for the entire inhibition of the enzyme activity of native as well as of Triton X-114-modified microsomes. A binding site of the phosphohydrolase itself is accessible to p-mercuribenzoate and the phenyl mercury residue of the affinity gel from the cytoplasmic surface even in native microsomes. Kinetic analyses reveal a formally competitive mechanism of inhibition using native microsomes, but the kinetic picture changes to a noncompetitive pattern of Lineweaver-Burk plots when the inhibitor-loaded microsomes are modified optimally by Triton X-114. This behavior can be evaluated as the first convincing evidence for drastic changes of the conformational status of the phosphohydrolase during the membrane modification process. A combined conformational flexibility-substrate transport model characterizing the microsomal glucose-6-phosphatase as an integral channel-protein embedded within the hydrophobic interior of the membrane is proposed.
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PMID:Evidence for changes in the conformational status of rat liver microsomal glucose-6-phosphate:phosphohydrolase during detergent-dependent membrane modification. Effect of p-mercuribenzoate and organomercurial agarose gel on glucose-6-phosphatase of native and detergent-modified microsomes. 302 56

Alterations in the levels of selected enzymes have been studied in the liver, kidney and brain of mouse following mercuric chloride (1 mg/Kg body wt./d) administration for 10, 20 and 30 d. The activity of acid phosphatase increased in all the tissues, the highest increase was recorded in the kidneys which showed as much as 4.5 fold elevation following mercuric chloride administration for 30 d. Although the alkaline phosphatase activity in the liver and the brain increased following HgCl2 administration, the kidneys experienced a tremendous decline in this enzyme following the same treatment. Mercury-induced changes in ATPase were complex inasmuch as the nature and magnitude of these changes varied with the tissue as well as the duration of the treatment. Whereas the liver ATPase declined after all the treatment intervals, this enzyme increased in the kidney and brain following administration of HgCl2 for 10 d. However, both the kidneys and brain registered a substantial fall in ATPase activity when HgCl2 administration was continued for 30 d. The levels of both glucose-6-phosphatase and succinic dehydrogenase decreased in all the tissues following HgCl2 administration. Invariably, the magnitude of decrease was the highest after 30 d treatment with HgCl2.
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PMID:Enzyme changes in the brain, liver and kidney following repeated administration of mercuric chloride. 302 11

The freshwater murrel, Channa punctatus, was exposed to a sublethal concentration of mercuric chloride (3 micrograms/liter) for 120 days and the following effects were examined: changes in the levels of glucose and lactic acid in blood and of glycogen and lactic acid in liver and muscles; rate of absorption of glucose from the intestine; and changes in the activities of glucose-6-phosphatase (G-6-Pase), hexokinase, lactate dehydrogenase (LDH), pyruvate dehydrogenase (PDH), succinate dehydrogenase (SDH), malate dehydrogenase (MDH), glutamate dehydrogenase (GDH), L-amino acid oxidase (AO), and xanthine oxidase (XO) in brain, gills, intestine, kidney, liver, and muscles. Mercury-treated fish were hypoglycemic and hypolactemic. The glycogen content of liver and muscles remained unaltered but the muscle lactic acid level decreased significantly. The rate of intestinal absorption of glucose was reduced significantly by exposure to mercury. G-6-Pase activity was decreased in all the tissues. Hexokinase activity also decreased in mercury-exposed fish but it was significant only in intestine, kidney, and liver. The activities of LDH, PDH, SDH, and MDH also were decreased significantly except LDH in brain and MDH in kidney where an insignificant decrease and an insignificant increase, respectively, were recorded. GDH and AO activities were elevated in most of the tissues except GDH in gills, and AO in gills and muscles where a decrease was observed. XO activity in brain, gills, and kidneys was significantly elevated, but no marked alteration was noted in other tissues.
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PMID:Effect of mercuric chloride on some biochemical and physiological parameters of the freshwater murrel, Channa punctatus. 608 7

The topography of phosphatidylcholine, phosphatidylethanolamine and triacylglycerol biosynthetic enzymes within the transverse plane of rat liver microsomes was investigated using two impermeant inhibitors, mercury-dextran and dextran-maleimide. Between 70 and 98% of the activities of fatty acid : CoA ligase (EC 6.2.1.3), sn-glycerol-3-phosphate acyltransferase (EC 2.3.1.15), phosphatidic acid phosphatase (EC 3.1.3.4), diacylglycerol acyltransferase (EC 2.3.1.20), diacylglycerol cholinephosphotransferase (EC 2.7.8.2) and diacylglycerol ethanolaminephosphotransferase (EC 2.7.8.1) were inactivated by mercury-dextran. Dextran-maleimide caused 52% inactivation of the sn-glycerol-3-phosphate acyltransferase. Inactivation of each of these activities except fatty acid : CoA ligase occurred in microsomal vesicles which remained intact as evidenced by the maintenance of highly latent mannose-6-phosphatase activity (EC 3.1.3.9). These glycerolipid biosynthetic activities were not latent, indicating that substrates have free access to the active sites. Moreover, ATP, CDP-choline and CMP appeared unable to penetrate the microsome membrane. These data indicate that the active sites of thease enzymes are located on the external surface of microsomal vesicles. It is concluded that the biosynthesis of phosphatidylcholine, phosphatidylethanolamine and triacylglycerol occurs asymmetrically on the cytoplasmic surface of the endoplasmic reticulum.
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PMID:Topography of phosphatidylcholine, phosphatidylethanolamine and triacylgycerol biosynthetic enzymes in rat liver microsomes. 615 20

Mercury is known to modify enzyme activity through oxidation of thiol groups and respective reverse reactions in vitro and in vivo. However, variations in the activity of carbohydrates, and the significance of this variation after mercury poisoning in different species, has not been established. In the present report, the effects of inorganic mercury on selected hepatic enzymes was studied in the freshwater fish Channa punctatus. Quantitative data clearly showed a dose-response relationship between the amount of mercury retained in the liver and inhibition of enzymes (i.e. alkaline phosphatase, glucose-6-phosphatase, amylase, maltase, lactase, lipase and dehydrogenases). Mechanisms and significance of their modification have also been discussed.
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PMID:Co-enzyme effects of inorganic mercury in the liver of a freshwater fish Channa punctatus. 718 6

The effectiveness of the antioxidant thiol, N-acetylcysteine (NAC), in enhancing methylmercury (CH3HgCl) excretion and its utility as a possible antidote in CH3HgCl poisoning has been reported. NAC, however, has been reported to be ineffective in accelerating excretion of divalent toxic metals, including inorganic mercury, Hg2+. In this study, we evaluated the possible protective effect of short-term pretreatment with NAC against mercuric chloride (HgCl2) toxicity in rat model. This is aimed at determining its chemopreventive or prophylactic benefit in situations of high risk exposure (occupational/industrial) to mercury. Rats were divided into three treatment groups. Group I received saline (10 ml/kg) and served as control. Group II received HgCl2 (5mg/kg) and group III received NAC (10mg/kg) plus (5mg/kg). All administration was via intraperitoneal (i.p.) injection. Saline and NAC were administered for 5days and HgCl2 was administered to rats in groups II and III on the 5th day. Animals were sacrificed 24 hours after HgCl2 injection and samples obtained for biochemical evaluation. Results revealed that single i.p. injection of HgCl2 induced significant renal oxidative damage resulting in significant decrease in the activities of superoxide dismutase (SOD), catalase (CAT), glutathione-s-transferase (GST), depletion of reduced glutathione (GSH) and increase in malondialdehyde (MDA) levels in these rats. The activities of glucose-6-phosphatase (G6Pase) and 5'-nucleotidase (5'-NTD) (markers of microsomal damage) also decreased in these HgCl2 treated rats. The oxidative damage induced by HgCl2 led to significant alterations in renal histology and caused functional impairment (indicated by elevated blood urea nitrogen (BUN) and serum creatinine) in these rats. NAC was effective in attenuating the oxidative damage, functional impairments and histopathological changes that characterized HgCl2 intoxication in this study. Renal antioxidant defense system was re-enforced by NAC, leading to increase in the activities of SOD, CAT, GST and decreases in GSH depletion and MDA level. Our results therefore reveal the ameliorative effect of NAC pretreatment against HgCl2 toxicity in vivo, thus, suggesting its usefulness as a possible chemoprophylactic agent during occupational or industrial exposure to inorganic mercury.
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PMID:N-acetylcysteine pretreatment ameliorates mercuric chloride-induced oxidative renal damage in rats. 2241 58

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