Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:1.4.1.2 (glutamate dehydrogenase)
4,380 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. The specific radioactivities of non-esterified and esterified cholesterol, progesterone and 20alpha-hydroxypregn-4-en-3-one were determined in slices of superovulated rat ovary after incubation with [1-(14)C]acetate in vitro for various times. The specific radioactivities of progesterone and 20alpha-hydroxypregn-4-en-3-one were equal, and (during the fourth hour of incubation) exceeded those of the non-esterified cholesterol and the esterified cholesterol by factors of 2.8 and 7.6 respectively. 2. After separation of homogenates of superovulated rat ovary slices previously incubated with [(14)C]acetate into subcellular fractions by differential centrifugation, the specific radioactivities of non-esterified cholesterol in the cytosol, mitochondria, lipid-containing storage granules and microsomal fraction were 1220, 1510, 1420 and 4020d.p.m./mumol respectively; the corresponding values for the specific radioactivity of the esterified cholesterol were 600, 700, 730 and 760d.p.m./mumol. The specific radioactivities of progesterone and 20alpha-hydroxypregn-4-en-3-one were equal in all fractions; the corresponding mean specific radioactivity of progesterone+20alpha-hydroxypregn-4-en-3-one was 6150d.p.m./mumol. 3. By using glutamate dehydrogenase and cytochrome (a+a(3)) as mitochondrial markers, the presence of cholesterol side-chain cleavage enzyme was demonstrated in microsomal fraction free of mitochondrial contamination. 4. The specific radioactivities of ovarian non-esterified and esterified cholesterol, progesterone and 20alpha-hydroxypregn-4-en-3-one were determined up to 8h after the intravenous injection of [4-(14)C]cholesterol into superovulated rats. At all times the specific radioactivities of progesterone and 20alpha-hydroxypregn-4-en-3-one were equal to the specific radioactivity of non-esterified cholesterol and exceeded, by up to 3.3-fold, that of the esterified cholesterol. 5. It is concluded that non-esterified cholesterol formed from [(14)C]acetate in the endoplasmic reticulum equilibrates slowly with non-esterified cholesterol in other subcellular fractions, and is preferentially converted into steroids. Such a mechanism presupposes the operation of a microsomal cholesterol side-chain cleavage enzyme using non-esterified cholesterol as its substrate. Unrelated evidence is presented in support of the existence of such an enzyme. The results are discussed in the light of other biochemical and electron-microscopic findings relating to the compartmentation of cholesterol in steroidogenic tissues.
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PMID:The compartmentation of non-esterified and esterified cholesterol in the superovulated rat ovary. 512 30

Content of progesterone and cortisol was studied in blood plasma. Activities of organelle-specific enzymes were estimated in mitochondria (malate dehydrogenase, glutamate dehydrogenase, H + ATPase) and in endoplasmic reticulum (inosine-5-diphosphatase) of liver, kidney tissues and blood serum of rats, which were born after the influence of embryotoxic effectors. Correlation was found in alterations of the patterns studied. The steroid hormonal systems appear to affect the stability of mitochondrial and microsomal membranes in liver and kidney tissues of experimental animals.
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PMID:[Correlation between the changes in the functional state of enzyme and hormonal systems of the mature rat]. 614 50

To study the possible hepatotoxicity of vitamin A supplementation and its potentiation by ethanol, rats were fed diets with either normal or fivefold increased vitamin A content, both with or without ethanol. Ethanol with a normal vitamin A diet produced the expected proliferation of the smooth endoplasmic reticulum and moderate mitochondrial lesions. Vitamin A supplementation by itself produced endoplasmic reticulum proliferation, slight enlargement of mitochondria, and moderate decrease in cytochrome oxidase activity and cytochrome aa3 content. The combination of high vitamin A and ethanol resulted in much more striking lesions, with giant mitochondria containing paracrystalline inclusions and depression of oxygen consumption in state-3 respiration with five different substrates, including palmitate and palmitoyl coA. The depression of fatty acid oxidation may have contributed to the lipid accumulation. The blood levels of vitamin A were unaffected whereas liver levels of vitamin A were increased by vitamin A supplementation and decreased by ethanol. As a net result the liver vitamin A content of the high-A-ethanol groups was not greater than that of the normal-A-control group, suggesting that a metabolite of vitamin A rather than vitamin A itself may have been responsible for the potentiation of vitamin A toxicity by ethanol. Mitochondrial toxicity reflected itself also in decreased content of various cytochromes and reduced activity of enzymes, including glutamate dehydrogenase. The activity of the latter was increased in the serum. Implications of these findings for the routine treatment of alcoholics with vitamin A and the monitoring for possible signs of toxicity are discussed.
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PMID:Hepatotoxicity of vitamin A and ethanol in the rat. 627 29

We have previously shown that inositol-1,4,5-trisphosphate (IP3) releases Ca2+ from an intracellular calcium store in permeabilized acinar cells of rat pancreas (H. Streb et al., 1983, Nature (London) 306:67-69). This observation suggests that IP3 might provide the missing link between activation of the muscarinic receptor and Ca2+ release from intracellular stores during stimulation. In order to localize the intracellular IP3-sensitive calcium pool, IP3-induced Ca2+ release was measured in isolated subcellular fractions. A total homogenate was prepared from acinar cells which had been isolated by a collagenase digestion method. Endoplasmic reticulum was separated from mitochondria, zymogen granules and nuclei by differential centrifugation. Plasma membranes and endoplasmic reticulum were separated by centrifugation on a sucrose step gradient or by precipitation with high concentrations of MgCl2. IP3-induced Ca2+ release per mg protein in the total homogenate was the same as in leaky cells and was sufficiently stable to make short separation procedures possible. In fractions obtained by either differential centrifugation at 7000 X g, sucrose-density centrifugation, or MgCl2 precipitation there was a close correlation of Ip3-induced Ca2+ release with the endoplasmic reticulum markers ribonucleic acid (r = 0.96, 1.00, 0.91, respectively) and NADPH cytochrome c reductase (r = 0.63, 0.98, 0.90, respectively). In contrast, there was a clear negative correlation with the mitochondrial markers cytochrome c oxidase (r = -0.64) and glutamate dehydrogenase (r = -0.75) and with the plasma membrane markers (Na+ + K+)-ATPase (r = -0.81) and alkaline phosphatase (r = -0.77) in all fractions analyzed. IP3-induced Ca2+ release was distributed independently of zymogen granule or nuclei content of the fractions as assessed by electron microscopy. The data suggest that inositol-1,4,5-trisphosphate releases Ca2+ from endoplasmic reticulum in pancreatic acinar cells.
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PMID:Effect of inositol-1,4,5-trisphosphate on isolated subcellular fractions of rat pancreas. 633 62

This study examines the structural relationship of mitochondria and the endoplasmic reticulum in liver. Livers of rat and Japanese quail were homogenized and fractionated in media of 0.25 M-sucrose, either 5mM or 50 mM in sodium Hepes [4-(2-hydroxyethyl)-1-piperazine-ethanesulphonic acid], pH 7.4 (2.2 mM or 22 mM in Na respectively), designated here as low- and high-salt media. Three particulate fractions were prepared by sequential centrifugation. A nuclear pellet sedimenting at 300 g was obtained as described by Shore & Tata [(1977) J. Cell Biol. 72, 714-725], and from the resulting supernatant thereof a low-speed pellet (1100-1500 g) and a high-speed pellet (8000-10 000 g) were prepared. In the low-salt medium the yields of mitochondrial matrix enzymes (citrate synthase, glutamate dehydrogenase, ornithine carbamoyltransferase) and their specific activities in the low-speed pellet were over twice those in the high-speed pellet. In the high-salt medium the yield of matrix enzymes was 4-5 times, and the specific activities were up to 3 times, higher in the low-speed pellet than in the high-speed pellet. Oxygen uptake and respiratory control ratio were also much higher in the low-speed pellets in both media. Some 50-65% of the microsomal marker enzyme glucose 6-phosphatase was in the supernatant from the high-speed pellet, and the rest sedimented with the mitochondria. Repeated washing with the high-salt medium removes only a limited amount of reticulum. Washing with salt-free sucrose removes most of the reticulum, but a fraction remains strongly bound to mitochondria. Homogenates from quail and rat liver were fractioned isopycnically on Percoll gradients in either 0.25 M-sucrose or 0.25 M-sucrose/50 mM-sodium Hepes. Up to five particulate bands were separated and assayed. Mitochondria were present in two to three bands and were associated with endoplasmic reticulum. As seen in the phase-contrast microscope the mitochondria prepared in the low-salt medium consist of separate organelles. In the high-salt medium the mitochondria appear as chains of from three to ten organelles not touching each other. On addition of univalent ions at concentrations above 20 mM, the mitochondria aggregate into chains, and at higher ionic strength larger multidimensional aggregates are formed. The dispersion and aggregation of mitochondria are reversible. Negatively stained electron micrographs reveal a branched mitochondrial structure, with mitochondria held together by strands of reticulum.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Mitochondrial-reticular cytostructure in liver cells. 635 78

To study the effect of an acute dose of ethanol on carbon tetrachloride (CCl4) concentration and hepatotoxicity, female rats received ethanol (2.5 ml/kg body wt.) either intragastrically or intraperitoneally following intragastric administration of CCl4 (1.5 ml/kg body wt.). Three hours after acute CCl4 intoxication there was a striking increase in CCl4 concentration in animals treated simultaneously with ethanol intragastrically compared to those receiving ethanol intraperitoneally. This increase was significant (P less than 0.05) and amounted to 211% for blood, 236% for liver and 405% for fat tissue, whereas animals treated with CCl4 alone showed CCl4 concentrations in the range between the two other experimental groups. Serum activities of glutamate oxalacetate transaminase, glutamate pyruvate transaminase and glutamate dehydrogenase were found to be considerably higher in animals treated with the combination of CCl4 and ethanol when compared to those receiving CCl4 alone, showing that ethanol given intraperitoneally or intragastrically enhances CCl4 hepatotoxicity. Since the intraperitoneal administration of ethanol led to a reduction rather than an increase in CCl4 concentration in the early phase of intoxication, additional mechanisms independent of actual levels of CCl4, such as direct effects of ethanol on the CCl4 metabolizing enzyme of the membrane of the endoplasmic reticulum, have to be implicated in the pathogenesis of the potentiation of CCl4 hepatotoxicity by ethanol.
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PMID:Effect of ethanol on carbon tetrachloride levels and hepatotoxicity after acute carbon tetrachloride poisoning. 653 81

Stereologic ultrastructural methods were applied to several cell types involved in the production of monoclonal antibodies against the mitochondrial enzyme glutamic dehydrogenase (GDH). These cell types included SP2/O murine cells, in vitro cultured hybrid cells producing monoclonal antibodies, and the same hybrid cells maintained as solid and ascites tumors (TH and ATH cells, respectively). The statistical analysis of quantitative data indicates that the fusion between SP2/O cells and spleen lymphocytes does not induce significant changes in the fine structure of the former cells. Moreover, the transfer of hybrid cells from in vitro to in vivo conditions induces their transformation from an immature state to mature plasma cells. The increase in mitochondria and rough endoplasmic reticulum suggests that the ascites tumor provides cells with an environment more suitable for expressing their activity than does the solid tumor.
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PMID:Stereological study of murine myeloma and hybridoma cells in vitro and in vivo. 687 17

The main pathway for the hepatic oxidation of ethanol to acetaldehyde proceeds via ADH and is associated with the reduction of NAD to NADH; the latter produces a striking redox change with various associated metabolic disorders. NADH also inhibits xanthine dehydrogenase activity, resulting in a shift of purine oxidation to xanthine oxidase, thereby promoting the generation of oxygen-free radical species. NADH also supports microsomal oxidations, including that of ethanol, in part via transhydrogenation to NADPH. In addition to the classic alcohol dehydrogenase pathway, ethanol can also be reduced by an accessory but inducible microsomal ethanoloxidizing system. This induction is associated with proliferation of the endoplasmic reticulum, both in experimental animals and in humans, and is accompanied by increased oxidation of NADPH with resulting H2O2 generation. There is also a concomitant 4- to 10-fold induction of cytochrome P4502E1 (2E1) both in rats and in humans, with hepatic perivenular preponderance. This 2E1 induction contributes to the well-known lipid peroxidation associated with alcoholic liver injury, as demonstrated by increased rates of superoxide radical production and lipid peroxidation correlating with the amount of 2E1 in liver microsomal preparations and the inhibition of lipid peroxidation in liver microsomes by antibodies against 2E1 in control and ethanol-fed rats. Indeed, 2E1 is rather "leaky" and its operation results in a significant release of free radicals. In addition, induction of this microsomal system results in enhanced acetaldehyde production, which in turn impairs defense systems against oxidative stress. For instance, it decreases GSH by various mechanisms, including binding to cysteine or by provoking its leakage out of the mitochondria and of the cell. Hepatic GSH depletion after chronic alcohol consumption was shown both in experimental animals and in humans. Alcohol-induced increased GSH turnover was demonstrated indirectly by a rise in alpha-amino-n-butyric acid in rats and baboons and in volunteers given alcohol. The ultimate precursor of cysteine (one of the three amino acids of GSH) is methionine. Methionine, however, must be first activated to S-adenosylmethionine by an enzyme which is depressed by alcoholic liver disease. This block can be bypassed by SAMe administration which restores hepatic SAMe levels and attenuates parameters of ethanol-induced liver injury significantly such as the increase in circulating transaminases, mitochondrial lesions, and leakage of mitochondrial enzymes (e.g., glutamic dehydrogenase) into the bloodstream. SAMe also contributes to the methylation of phosphatidylethanolamine to phosphatidylcholine. The methyltransferase involved is strikingly depressed by alcohol consumption, but this can be corrected, and hepatic phosphatidylcholine levels restored, by the administration of a mixture of polyunsaturated phospholipids (polyenylphosphatidylcholine). In addition, PPC provided total protection against alcohol-induced septal fibrosis and cirrhosis in the baboon and it abolished an associated twofold rise in hepatic F2-isoprostanes, a product of lipid peroxidation. A similar effect was observed in rats given CCl4. Thus, PPC prevented CCl4- and alcohol-induced lipid peroxidation in rats and baboons, respectively, while it attenuated the associated liver injury. Similar studies are ongoing in humans.
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PMID:Role of oxidative stress and antioxidant therapy in alcoholic and nonalcoholic liver diseases. 889 26

Administration of beta-carotene in beadlets to baboons potentiates alcohol-induced liver injury. To determine whether this also occurs in other species, and whether the beadlet carrier itself contributes to the toxicity, rats were given for 2 mo vitamin A (1.4 U/J), beta-carotene (4.8, 12.0, and 24.0 U/J, with or without beadlets), or corresponding amounts of beadlets without beta-carotene, in diets containing either carbohydrates or equivalent amounts of ethanol. Isoenergetic substitution of ethanol (36% of total energy) for carbohydrates reduced hepatic vitamin A by 80%, and such a depletion was also observed with beta-carotene as vitamin A precursor. By contrast, ethanol raised hepatic beta-carotene, which was further increased by beadlets. Thus, whereas alcohol promoted hepatic depletion of vitamin A, it had the opposite effect on beta-carotene. Ethanol seems to affect the homeostasis of beta-carotene. Furthermore, the ethanol-induced oxidative stress, assessed by an increase in hepatic 4-hydroxynonenal and F2-isoprostanes (measured by gas chromatography-mass spectrometry), was not improved despite a concomitant rise in hepatic antioxidants (beta-carotene and vitamin E). Moreover, beadlets resulted in proliferation of the smooth endoplasmic reticulum and in leakage of the mitochondrial glutamate dehydrogenase into the plasma, reflecting mitochondrial injury (both documented by electron microscopy). Thus, in rats given ethanol, beta-carotene is not an efficient vitamin A precursor. Its bioavailability was improved by beadlets, but the ethanol-induced oxidative stress was not attenuated and there was associated hepatotoxicity that now needs to be assessed in humans.
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PMID:beta-Carotene beadlets potentiate hepatotoxicity of alcohol. 939 78

Activities of hexokinase (HK), glucose-6-phosphate dehydrogenase (G6PDH), fructose-6-phosphate kinase (F6PK), glutamate dehydrogenase (GlutDH), aspartate aminotransferase (AAT), malate dehydrogenase (MDH) and glycerol-3-phosphate dehydrogenase (GPDH) were determined in tissue extracts of testes and ovaries of adult Dipetalogaster maximus (Uhler) and Triatoma infestans (Klug) (Hemiptera: Reduviidae), insect vectors of Chagas disease. The fine structure organization of the same organs were studied by electron microscopy. Results allow the following inferences: in testes from both species, most of the glucose would be utilized through the glycolytic pathway. Amino acid catabolism for energy purposes appears to be unimportant. The number of mitochondria and the development of the rough endoplasmic reticulum in cells of the spermatogenic line indicate the occurrence of active oxidative metabolism and protein synthesis; in ovaries, levels of G6PDH indicate the existence of an active pentose pathway which would supply the NADPH required for fat and ecdysteroid synthesis. Amino acid catabolism appears to be relatively more important in ovary than in testis. Fat and glycogen are stored in follicular cells of D. maximus; oocytes of both species contain numerous fat droplets. Abundant mitocondria are present in follicular cells and oocytes. A well developed rough endoplasmic reticulum and free ribosomes are also conspicuous in these cells. The malate/aspartate H-transfer system seemed to be relatively more important than the glycerophosphate shuttle in ovaries as well in testes.
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PMID:Comparative study of enzymes in testes and ovaries from adult Dipetalogaster maximus (Uhler) and triatoma infestans (Klug) (Hemiptera: Reduviidae). correlation with fine structural organization. 1175 15


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