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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)
Lactate
(LDH) and succinate (SDH) dehydrogenases activities decreased in red and white muscles of rat under acute ethanol loading indicating the inhibition of energy metabolism and stepped up lactic acid formation under stress conditions. Aspartate aminotransferase (AAT) and
glutamate dehydrogenase
(
GDH
) were found to increase. In contrast to these, the AMP deaminase activity decreased in white muscle suggestive of decreased deamination of nucleic acids. The ornithine cycle enzymes such as argininosuccinate synthetase (ArSS) and arginase indicated diminished activities showing low level of operation of urea cycle and consequent accumulation of ammonia was observed in red muscle with low production of glutamine, whereas in the case of white muscle this trend is reversed. The possible alterations of ethanol toxicity on energy requirements, transdeamination patterns, ureogenesis and glutamine production have been discussed.
...
PMID:Metabolic alterations in the red and white muscles of rat to acute ethanol treatment. 618 32
The activities of various ammoniagenic, gluconeogenic, and glycolytic enzymes were measured in the renal cortex and also in the liver of rats made diabetic with streptozotocin. Five groups of animals were studied: normal, normoglycemic diabetic (insulin therapy), hyperglycemic, ketoacidotic, and ammonium chloride treated rats. Glutaminase I,
glutamate dehydrogenase
, glutamine synthetase, phosphoenolpyruvate carboxykinase (PEPCK), hexokinase, phosphofructokinase, fructose-1,6-diphosphatase, malate dehydrogenase, malic enzyme, and lactate dehydrogenase were measured. Renal glutaminase I activity rose during ketoacidosis and ammonium chloride acidosis. Glutamate dehydrogenase in the kidney rose only in ammonium chloride treated animals. Glutamine synthetase showed no particular variation. PEPCK rose in diabetic hyperglycemic animals and more so during ketoacidosis and ammonium chloride acidosis. It also rose in the liver of the diabetic animals. Hexokinase activity in the kidney rose in diabetic insulin-treated normoglycemic rats and also during ketoacidosis. The same pattern was observed in the liver of these diabetic rats. Renal and hepatic phosphofructokinase activities were elevated in all groups of experimental animals. Fructose-1,6-diphosphatase and malate dehydrogenase did not vary significantly in the kidney and the liver. Malic enzyme was lower in the kidney and liver of the hyperglycemic diabetic animals and also in the liver of the ketoacidotic rats.
Lactate
dehydrogenase fell slightly in the liver of diabetic hyperglycemic and NH4Cl acidotic animals. The present study indicates that glutaminase I is associated with the first step of increased renal ammoniagenesis during ketoacidosis. PEPCK activity is influenced both by hyperglycemia and ketoacidosis, acidosis playing an additional role. Insulin appears to prevent renal gluconeogenesis and to favour glycolysis. The latter would seem to remain operative in hyperglycemic and ketoacidotic diabetic animals.
...
PMID:Renal enzymes during experimental diabetes mellitus in the rat. Role of insulin, carbohydrate metabolism, and ketoacidosis. 623 75
Affinity precipitation, a novel technique closely related to immunoprecipitation and affinity chromatography, has been evaluated in systems comprised of dehydrogenases and a bifunctional NAD derivative, Bis-NAD.
Lactate
dehydrogenase and
glutamate dehydrogenase
were easily precipitated whereas yeast alcohol dehydrogenase required the presence of salt to enhance the affinity precipitation. Liver alcohol dehydrogenase did not precipitate, probably because most of the affinity complexes formed were composed of only two enzyme molecules. Affinity precipitation was carried out on a preparative scale for the isolation of ox heart lactate dehydrogenase from a crude extract. The yield and purity of the enzyme and the general properties of the procedure are considered very satisfactory.
...
PMID:Affinity precipitation of dehydrogenases. 635 87
Lactate
dehydrogenase (LDH), succinate dehydrogenase (SDH), aspartate aminotransferase (AAT),
glutamate dehydrogenase
(
GDH
), AMP deaminase, ornithine transcarbamylase (OTC), arginase and glutamine synthetase (GS) activities were increased in the kidney of the rat during repeated ethanol loading. The significance of these findings is discussed.
...
PMID:Renal ammonia metabolic response in the rat to repeated ethanol loading. 648 7
Crocodilians such as caimans and alligators are uricotelic and ammoniotelic animals. They are carnivorous but they excrete ammonium ions in an alkaline urine. The metabolic organization of the kidney of the Mississippi alligator was studied by measuring the renal metabolite profile, the activities of enzymes, and the behavior of kidney tubules in vitro. The liver and tail muscle were also studied. Both awake and anesthetized animals were in a state of low plasma bicarbonate and low blood pH with high plasma lactate concentration. This did not prevent the excretion of an alkaline urine (pH 7.76). alpha-Ketoglutarate was low in all three tissues and lactate was high. Glutamate concentration and
glutamate dehydrogenase
activity were highest in the kidney with a low equilibrium constant for alanine aminotransferase (KGPT). Glutaminase I was found only in the kidney. It could not be detected in liver or muscle. Glutamine synthetase was found only in the liver. Phosphoenolpyruvate carboxykinase (PEPCK) was present in both liver and kidney. Alanine aminotransferase and malic enzyme showed high activity in the kidney but were inconspicuous in liver and muscle. Malate dehydrogenase and lactate dehydrogenase were present in all three tissues. Renal tubules incubated with glutamine and alanine were ammoniagenic and gluconeogenic.
Lactate
was gluconeogenic. Enzyme activities were measured at both 30 and 37 degrees C. The studies on renal tubules were also performed at these two temperatures. Temperature had little effect on the data including acid-base values in the blood. Our findings demonstrate that the kidney of the alligator is perfectly equipped for various metabolic functions and especially for ammoniagenesis and gluconeogenesis.
...
PMID:Metabolic machinery of the alligator kidney. 649 95
Renal adaptation to chronic metabolic acidosis was studies in Arbor Acre hens receiving ammonium chloride by stomach tube 0.75 g/kg/day during 6 days. During a 14-day study, it was shown that the animals could excrete as much as 60% of the acid load during ammonium chloride administration. At the same time urate excretion fell markedly but the renal contribution to urate excretion (14%) did not change. During acidosis, blood glutamine increased twofold and the tissue concentration of glutamine rose in both liver and kidney. Infusion of L-glutamine led to increased ammonia excretion and more so in acidotic animals. Glutaminase I,
glutamate dehydrogenase
, alanine aminotransferase (GPT), and malic enzyme activities increased in the kidney during acidosis but phosphoenolpyruvate carboxykinase (PEPCK) activity did not change. Glutaminase I was not found in the liver, but hepatic glutamine synthetase rose markedly during acidosis. Glutamine synthetase was not found in the kidney. Renal tubules incubated with glutamine and alanine were ammoniagenic and gluconeogenic to the same degree as rat tubules with the same increments in acidosis.
Lactate
was gluconeogenic without increment during acidosis. The present study indicates that the avian kidney adapts to chronic metabolic acidosis with similarities and differences when compared to dog and rat. Glutamine originating from the liver appears to be the major ammoniagenic substrate. Our data also support the hypothesis that hepatic urate synthesis is decreased during acidosis.
...
PMID:The kidney of chicken adapts to chronic metabolic acidosis: in vivo and in vitro studies. 681 56
During a long-term study in the rat some enzyme activities were determined in plasma, lung, spleen and skeletal muscle. Twelve rats of each sex were investigated every 49 days from 35 until 1115 days of life.
Lactate
dehydrogenase in lung and spleen decreases; in muscle and plasma, however, the activity varies considerably. Malate dehydrogenase in the tissues remains nearly unchanged apart from distinct peaks in the first year of life; in plasma the activity takes an M-shaped course. In contrast to the changes of
glutamate dehydrogenase
in the tissues with a tendency to diminish, this enzyme increases in plasma during the lifetime. Aspartate aminotransferase activity in the tissues, except muscle, varies with a rhythmical behaviour, and in plasma shows a gradual increase. Alanine aminotransferase in lung and spleen has two activity peaks. In muscle this enzyme varies only slightly after a steep initial decrease. In plasma the activity has a tendency to rise. Creatine kinase in the tissues reveals several activity peaks. In plasma the activity course is U-shaped. Adenylate kinase in spleen and lung rises, whereas in muscle the activity varies considerably. The nearly identical decrease of alkaline phosphatase activity in the tissues during ageing is also reflected by a concomitant behaviour in plasma. Leucine arylamidase in lung and muscle both have a U-shaped characteristic, whereas in spleen the activity changes in a shorter period. In plasma, a rhythmical behaviour is apparent. Aldolase in plasma tripled during the observation period. Except for lactate dehydrogenase and aldolase, distinct sex-differences are observed in plasma. With progressive age the animals suffer increasingly from characteristic diseases, which beside experimental components have influenced the enzyme pattern. Enzyme activities in plasma and tissues show a complex pattern and are only of limited importance in understanding the ageing process.
...
PMID:Long-term observation of plasma and tissue enzyme activities in the rat. 720 25
The two gluconeogenic substrains of renal epithelial cells, LLC-PK1-FBPase+ and OKGNG+, have been shown to differ markedly in their metabolism of lactate and pyruvate. OKGNG+ cells consumed lactate as well as pyruvate at high rates in contrast to LLC-PK1-FBPase+ cells, which failed to take up or utilize lactate. (Aminooxy)acetate (AOA), an inhibitor of transamination reactions, was used to further delineate these differences.
Lactate
consumption of OKGNG+ cells was significantly inhibited by AOA, whereas pyruvate consumption by LLC-PK1-FBPase+ cells was slightly stimulated. Growth of OKGNG+ cultures, however, could be achieved on lactate in the presence of AOA. From these results it was concluded that the cell strains might differ in the subcellular distribution of phosphoenolpyruvate carboxykinase (PEPCK). LLC-PK1-FBPase+ cells may express both mitochondrial and cytosolic PEPCK isoenzymes, whereas OKGNG+ cells express only the mitochondrial isoenzyme. This was tested by directly assaying PEPCK activity in subcellular fractions of the cells. In OKGNG+ cells PEPCK activity fractionated with the mitochondrial marker
glutamate dehydrogenase
; however, in LLC-PK1-FBPase+ cells two-thirds of PEPCK activity was found in the cytosol. In LLC-PK1-FBPase+ cells, PEPCK activity increased twofold on incubation in acidic culture medium (pH 6.9) for 18 h, in contrast to the PEPCK activity in OKGNG+ cells. Northern blot analysis using cDNA probes specific for the mitochondrial and cytosolic PEPCK mRNAs confirmed the enzyme activity data. In LLC-PK1-FBPase+ cells strong expression of cytosolic PEPCK mRNA was observed, whereas in OKGNG+ cells only very low levels could be detected.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Subcellular localization of PEPCK and metabolism of gluconeogenic substrains of renal cell lines. 786 84
Lactic acid
bacteria (LAB) have the enzyme potential to transform amino acids into aroma compounds that contribute greatly to cheese flavour. Generally, amino acid conversion by LAB is limited by their low production of alpha-ketoglutarate since this alpha-ketoacid is essential for the first step of the conversion. Indeed, we have demonstrated that adding exogenous alpha-ketoglutarate to cheese curd, as well as using a genetically modified L. lactis strain capable of producing alpha-ketoglutarate from glutamate, greatly increased the conversion of amino acid to potent aroma compounds in cheese. Here we report the presence of
glutamate dehydrogenase
(
GDH
) activity required for the conversion of glutamate to alpha-ketoglutarate in several 'natural' LAB strains, commonly used in cheese manufacturing. Moreover, we show that the ability of LAB to produce aroma compounds from amino acids is closely related to their
GDH
activity. Therefore,
GDH
activity appears to be a major criterion for the selection of flavour-producing LAB strains, which could be used as a starter or as an adjunct to intensify flavour formation in some cheeses.
...
PMID:Glutamate dehydrogenase activity: a major criterion for the selection of flavour-producing lactic acid bacteria strains. 1236 93
Metabolic changes, principally in intermediary metabolism and nitrogen excretion, were investigated in the marble swamp eel (Synbranchus marmoratus) after 15 and 45 days of artificially induced semi-aestivation. Glucose, glycogen, lactate, pyruvate, free amino acids, triglycerides, ammonia, urea, and urate contents were determined in liver, kidney, white muscle, heart, brain, and plasma.
Lactate
dehydrogenase,
glutamate dehydrogenase
, malate dehydrogenase, aspartate amino transferase, alanine amino transferase, glutamine synthase, ornithine carbamoyl transferase, and arginase enzymes were assayed. The teleost S. marmoratus maintained initial energetic demands by lipid oxidation. The course of normal oxidative processes was observed through tissue enzyme profiles. After the lipid stores were exhausted, the fish consumed body proteins. Constant values of hematocrit during induced semi-aestivation suggested that the water balance remained normal. Therefore, the surrounding water was probably did not trigger the semi-aestivation in this teleost. Decrease of ammonia and increase of renal urea synthesis after 45 days of semi-aestivation led to the assumption that an alternative form of eliminating ammonia exists. Metabolic changes entailed by starvation were proposed to explain the biosynthesis of small molecules involved in the semi-aestivation of S. marmoratus.
...
PMID:Metabolic adjustments during semi-aestivation of the marble swamp eel (Synbranchus marmoratus, Bloch 1795)--a facultative air breathing fish. 1609 34
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