EC:1.4.1.2 - FACTA Search

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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)

We describe a procedure using immobilized nicotinamide as an affinity chromatographic ligand for the binding of NAD(P)+-dependent dehydrogenases. The procedure involves preparation of nicotinamide N1-(N-(6-aminohexyl)-acetamide)-agarose and modification of the immobilized nicotinamide by the addition of a ketone or an aldehyde to form an adduct. The nicotinamide, which has no affinity for dehydrogenase, becomes a very specific ligand of dehydrogenase, which binds the ketone or the aldehyde as substrate or inhibitor. In tests, the adduct prepared with immobilized nicotinamide and sodium pyruvate bound specifically to lactate dehydrogenase (EC 1.1.1.27), whereas the adduct prepared with alpha-ketoglutarate bound to glutamate dehydrogenase (EC 1.4.1.3). This technique enables the rapid isolation of a given dehydrogenase.
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PMID:Rapid separation of dehydrogenases by affinity chromatography with new induced specificity phases. 294 22

Intact rat liver cells from the perivenous region were isolated by collagenase perfusion after first destroying the periportal region by a brief portal infusion of digitonin. Periportal cells were isolated after retrograde digitonin infusion. Significantly higher alanine aminotransferase, gamma-glutamyltransferase and lactate dehydrogenase activities and lower glutamate dehydrogenase and pyruvate kinase activities in periportal than in perivenous cells demonstrate marked separation. The high yield allows further characterization in vitro of the cell populations.
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PMID:Digitonin-collagenase perfusion for efficient separation of periportal or perivenous hepatocytes. 299 54

Fifteen isolates of blood containing Plasmodium vivax were collected from hospital in-patients in Rangoon and the schizonts were harvested for starch gel electrophoresis of the following parasite isoenzymes--glucose phosphate isomerase (GPI) (EC.5.3.1.9), NADP-dependent glutamate dehydrogenase (GDH) (EC.1.4.1.4), lactate dehydrogenase (LDH) (EC.1.1.1.27) and 6-phosphogluconate dehydrogenase (6PGD) (EC.1.1.1.43). Variation was found only in GPI. The other three isoenzymes appeared to be invariant in all the isolates. Forms of GPI were recorded in two isolates of P. vivax which differed from those reported for P. falciparum; these new forms were designated GPI-4 and GPI-5.
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PMID:Isoenzyme variation in schizonts of Plasmodium vivax from Burma. 301 88

Intact periportal (pp) or perivenous (pv) hepatocytes were prepared by digitonin-collagenase liver perfusion. The degree of separation was indicated by significant differences between the pp and pv cells in their activity of the pp markers, alanine aminotransferase (pp/pv = 2.1), gamma-glutamyltranspeptidase (3.4) and lactate dehydrogenase (1.3), and of the pv markers, glutamate dehydrogenase (0.73) and pyruvate kinase (0.81). This pattern was not altered by a 3-day pretreatment with phenobarbital (PB). The hepatocytes isolated from the pv area contained higher activities of microsomal NADPH-cytochrome c reductase, 7-ethoxycoumarin O-deethylase, 7-ethoxyresorufin O-deethylase and benzo(a)pyrene hydroxylase, and of cytosolic glutathione transferase. Cytochrome P-450 and UDP-glucuronosyltransferase were slightly higher in pv cells. Treatment with PB induced NADPH-cytochrome c reductase, glutathione transferase, cytochrome P-450 and UDP-glucuronosyltransferase but the degree of induction was found to be at least as strong in pp cells as in pv cells. The induction of 7-ethoxyresorufin O-deethylase and 7-ethoxycoumarin O-deethylase was clearly more prominent in pp cells. On the other hand, PB reduced the activities of benzo(a)pyrene hydroxylase and alcohol dehydrogenase in both cell types. These results demonstrate by direct enzyme assay of separated cells the dominance of the pv-region for metabolizing drugs in the normal liver. Contrary to several other studies, however, our data indicate that induction by PB occurs panacinarily, i.e., relatively more in the pp region, thus diminishing rather than exaggerating the original pv dominance.
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PMID:Effect of phenobarbital on the distribution of drug metabolizing enzymes between periportal and perivenous rat hepatocytes prepared by digitonin-collagenase liver perfusion. 302 20

Within the uterine glands, the following enzymes were demonstrated by histochemical methods after 30, 58, 80, 100, and 110 d of pregnancy, respectively: beta-N-acetyl-hexosaminidase, beta-galactosidase, beta-glucuronidase, alpha-mannosidase, acid phosphatase, alkaline phosphatase, esterases, cytochrome oxidase, 5-nucleotidase, leucine aminopeptidase, adenosine triphosphatase, diaphorases (NADH, NADPH), glucose-6-phosphate dehydrogenase, 6-phosphogluconate dehydrogenase, succinate dehydrogenase, isocitrate dehydrogenase (NAD, NADP), beta-hydroxybutyrate dehydrogenase, glycero-3-phosphate dehydrogenase, NAD-glycero-3-phosphate dehydrogenase, glutamate dehydrogenase (NAD, NADP), lactate dehydrogenase. The results show that the activities of G-6-PDH, 6-PGDH, and cytochrome oxidase increase within secreting cells during the 2nd half of pregnancy. The activities of the other enzymes remained almost unchanged during the period of investigation. The description of our results distinguishes between gland neck, middle, and distal part of the secretory unit, respectively. In general, the enzyme activities are similar within the middle and distal gland segments, but lower in the epithelia of the neck region. The activity of dehydrogenases was medium to intensive within the middle and distal gland segments, but only low to medium within the neck portion. Of the hydrolases, the acid phosphatase, ATPase, leucine aminopeptidase, and beta-galactosidase demonstrated an intensive activity within activity secreting cells. The enzyme activities of the gland epithelia are compared with these of the uterine surface epithelia and the histochemical results are discussed in context with their significance in histiotrophic nutrition.
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PMID:[Enzyme histochemistry of the pig placenta. III. Histotopics of enzymes in the uterine epithelium]. 309 49

Oral administration of L-triiodothyronine (L-T3) (0.015-1 mg/kg) for 30 days to mature rats or cynomolgus monkeys resulted in both species in a high mortality at 1 mg/kg (after 2 weeks of treatment) and a progressive loss in body weight. Dose-related elevations in plasma marker enzymes occurred, mainly after 1-2 weeks of treatment. The approximate no-effect dose for these changes was around 0.015-0.020 mg/kg for both rat and primate. The large elevations of leucine aminopeptidase (LAP) at 1 mg/kg L-T3 in monkey indicated hepatocellular toxicity although in the rat such large increases in alanine aminotransferase (ALT) and glutamate dehydrogenase (GLDH) were not seen. L-T3 also showed little toxicity to rat hepatocytes in vitro. High concentrations of L-T3 (7 x 10(-9) to 7 x 10(-7) M) had minimal effects on parameters of cell viability such as lactate dehydrogenase (LDH) leakage, chromium-51 release and [3H]leucine incorporation. Urinary enzymes in the rat showed a similar profile to those in plasma. Large rises in alkaline phosphatase (AKP) and N-acetyl glucosaminidase (NAG) at 1 mg/kg indicated possible proximal tubular damage although this was not supported histologically. Clinically, in both species L-T3 appeared more toxic to males than females but this was not supported histologically. The histological lesions observed were different in the 2 species. In the monkeys there was extensive lipid vacuolation of hepatocytes and changes in thyroid and adrenal cortex. In the rat there was fine, non-lipid vacuolation of hepatocytes and thyroid changes. In the rat, 2 previously unreported lesions were also noted. There were multinucleated cells in the renal distal tubular epithelium, and focal fibroplasia of serosal surfaces of abdominal viscera.
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PMID:Comparison of the toxicity of orally administered L-triiodothyronine (T3) in rat and cynomolgus monkey. 320 78

The effect of hypoxia and post-hypoxic recovery were studied in gastrocnemius muscle of young-adult and mature beagle dogs. Furthermore, the possible interference of pharmacological treatment with nicergoline was evaluated in these conditions. Muscular glycolytic fuels, intermediates and end-products (glycogen, glucose, glucose 6-phosphate, pyruvate, lactate), Kreb's cycle intermediates (citrate, alpha-ketoglutarate, succinate, malate) and related free amino acids (glutamate, alanine), ammonium ion, energy store and mediators (ATP, ADP, AMP and creatine phosphate), and the energy charge potential were evaluated. Furthermore, in the crude extract and/or mitochondrial fraction of another portion of the same gastrocnemius muscle the maximum rate (Vmax) of some muscular enzymes related to the anaerobic glycolytic pathway (hexokinase, lactate dehydrogenase), the Kreb's cycle (citrate synthase, malate dehydrogenase), the aminoacid pool related to the Krebs' cycle (glutamate dehydrogenase and aspartate aminotransferase), the electron transfer chain (cytochrome oxidase) and NAD+/NADH exchanges (total NADH cytochrome c reductase) was evaluated. Some glycolytic metabolites and Krebs' cycle intermediates were modified by acute hypoxia, while free amino acids and energy mediators remained practically unchanged. The pharmacological treatment maintained the glucose and succinate muscular concentrations within the normal range, during hypoxia. The behaviour of muscular metabolites during hypoxia and/or post-hypoxic recovery is an age-related event. In fact, only in young-adult animals did the altered values return to normal in post-hypoxic recovery. In the present experimental conditions, only minor changes were observed as far as muscular enzyme activities are concerned. In any case, some enzyme activities tested showed different Vmax in young-adult dogs in comparison with mature ones.
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PMID:Effect of hypoxia, aging and pharmacological treatment on muscular metabolites and enzyme activities. 322 9

The assay of cerebrospinal fluid (CSF) enzymes has been suggested for assessing the extent of damage and patient prognosis in cases of brain injury. A potential difficulty associated with using CSF enzyme levels as predictors of outcome is the possibility that enzyme concentrations may vary substantially from one brain region to another. We have determined the concentrations of seven enzymes in seven brain regions in the rat and cat. Acid phosphatase (ACP), aspartate aminotransferase (AST), isocitrate dehydrogenase (ICDH), lactate dehydrogenase (LD), and malate dehydrogenase (MDH) show little regional variability in the rat and cat while creatine kinase (CK) and glutamate dehydrogenase (GDH) both exhibit considerable regional variability in both animals. Lack of correlation between CSF enzyme levels and prognosis may possibly be explained by the observed regional variability. The enzymes demonstrating more homogeneous concentrations throughout the brain may be better candidates for predicting patient outcome by determination of the CSF enzyme level.
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PMID:The regional variability of enzymes in the brain: relevance to CSF enzyme determinations. 341 84

Starting from 6-chloropurine riboside and NAD+, different reactive analogues of NAD+ have been obtained by introducing diazoniumaryl or aromatic imidoester groups via flexible spacers into the nonfunctional adenine moiety of the coenzyme. The analogues react with different amino-acid residues of dehydrogenases and form stable amidine or azobridges, respectively. After the formation of a ternary complex by the coenzyme, the enzyme and a pseudosubstrate, the reactive spacer is anchored in the vicinity of the active site. Thus, the coenzyme remains covalently attached to the protein even after decomposition of the complex. On addition of substrates the covalently bound coenzyme is converted to the dihydro-form. In enzymatic tests the modified dehydrogenases show 80-90% of the specific activity of the native enzymes, but they need remarkably higher concentrations of free NAD+ to achieve these values. The dihydro-coenzymes can be reoxidized by oxidizing agents like phenazine methosulfate or by a second enzyme system. Various systems for coenzyme regeneration were investigated; the modified enzymes were lactate dehydrogenase from pig heart and alcohol dehydrogenase from horse liver; the auxiliary enzymes were alcohol dehydrogenase from yeast and liver, lactate dehydrogenase from pig heart, glutamate dehydrogenase and alanine dehydrogenase. Lactate dehydrogenase from heart muscle is inhibited by pyruvate. With alanine dehydrogenase as the auxiliary enzyme, the coenzyme is regenerated and the reaction product, pyruvate, is removed. This system succeeds to convert lactate quantitatively to L-alanine. The thermostability of the binary enzyme systems indicates an interaction of covalently bound coenzymes with both dehydrogenases; both binding sites seem to compete for the coenzyme. The comparison of dehydrogenases with different degrees of modifications shows that product formation mainly depends on the amount of incorporated coenzyme.
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PMID:Covalent fixation of NAD+ to dehydrogenases and properties of the modified enzymes. 353 45

Exposure of L929 murine fibroblasts to ozone resulted in K+ leakage and inhibition of several enzymes. Most sensitive to ozone exposure were glyceraldehyde-3-phosphate dehydrogenase and pyruvate kinase. The activities of another cytosolic enzyme, lactate dehydrogenase, the mitochondrial enzymes glutamate dehydrogenase, succinate dehydrogenase, cytochrome c oxidase and the activity of the lysosomal enzymes acid phosphatase and beta-glucuronidase were, initially, not or only slightly affected. The localization of the lysosomal enzymes did not change during ozone exposure. After prolonged exposure complete deterioration of the cells was observed and all enzyme activities declined. The activity of the enzymes was also monitored during ozone exposure of a sonicated cell suspension and it was shown that all these enzymes are in fact susceptible to ozone. These observations clearly demonstrate that, besides the structure and amino acid composition of an enzyme, the localization in the cell plays an important role in its susceptibility to ozone. The intracellular levels of reduced and oxidized glutathione were affected as well. The ATP content, however, proved to be insensitive to ozone exposure.
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PMID:Toxic effects of ozone on murine L929 fibroblasts. Enzyme inactivation and glutathione depletion. 359 71

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