UMLS:C1332347 - FACTA Search

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Query: UMLS:C1332347 (ADH)
2,230 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The fluorescence of the natural coenzyme, NADH, is used to monitor the environment of the nicotinamide moiety at the active centre of rabbit muscle glyceraldehyde-3-phosphate dehydrogenase (EC 1.2.1.12). Changes of the fluorescence quantum yield and polarization of a small amount of NADH, totally bound by an excess of enzyme, show that at half-saturation of the oligomer with NAD a conformational change is induced which affects the active centre regions of the remaining subunits. This conformational transition is not effected by adenosine diphosphoribose, suggesting that the binding of the nicotinamide moiety of NAD to two subunits is essential for the change of tertiary structure of the remaining subunits that causes the observed changes of the fluorescence properties of the ADH "tracer probe". It is suggested that this conformational transition of the oligomer is responsible for the major decrease of affinity for NAD which occurs at half-saturation, and possibly for the activation by NAD+ of the reductive dephosphorylation reaction catalysed by the enzyme. It is also suggested, by analogy with haemoglobin, that the molecular basis of the negative cooperativity may be the creation of additional intersubunit bonds during the binding of the first two NAD molecules to the tetramer, and a change from a "relaxed" quaternary structure to a "tense" structure at half-saturation.
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PMID:Conformational changes of glyceraldehyde-3-phosphate dehydrogenase induced by the binding of NAD. A unified model for positive and negative cooperativity. 17 91

ADH from human liver forms binary complexes with NADH, associated with a blue shift of the peak of the fluorescence emission of NADH. The wavelength shift is the same for all isoenzymes but the accompanying intensification of the fluorescence is different. The fluorescence is further increased by the formation of the very tight ternary enzyme-NADH-isobutyramide complexes. These properties are similar to those for the horse liver ADH, as well as the molecular weight of E=40 000 per active site of the dimer molecule (EE). "Stopped-flow" determined velocity constants (ER in equilibrium E+R) were found to be in good agreement with ethanol activity constants previously determined by activity measurement, confirming the validity of the ordered ternary complex mechanism also for the human ADH. No single isoenzyme activity as high as that reported by Mourad and Woronick or Drum has been found.
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PMID:Dissociation and rate constants of some human liver alcohol dehydrogenase isoenzymes. 18 31

1. The effects of coenzyme NAD and related compounds on the electrophoretic properties of the human ADH isozymes have been examined by the technique of affinity electrophoresis. 2. Incorporation of NAD, NADH or AMP into a starch-gel matrix leads to retardation in the cathodal mobilities of the gamma 2 gamma 2 and alpha alpha isozymes, but not the beta 1 beta 1 and gamma 1 gamma 1 isozymes. The heterodimeric isozymes show intermediate effects, and the genetic polymorphism at the ADH3 locus is only discernible if electrophoresis is carried out in the presence of coenzyme. 3. The behaviour of the ioszymes can be attributed to slight differences between the products (alpha, beta 1 and gamma 1) of the common alleles at the three ADH loci and a pronounced difference between the products (gamma 1 and gamma 2) of the alternative alleles at the ADH3 locus in their affinities for the cofactor NAD.
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PMID:Affinity electrophoresis of human alcohol dehydrogenase (ADH) isozymes. 23 Jul 79

The rate of ethanol elimination in vivo was studied with rats in which the energy consumption of the liver was increased by partial hepatectomy. Immediately after partial hepatectomy the activity of alcohol dehydrogenase in the liver remnant was not changed from that of the livers of sham-operated controls, but the rate of ethanol removal was significantly faster. Twenty-four h after the partial hepatectomy the activity of alcohol dehydrogenase was only 48 % of the activity measured in unoperated control rats. Therefore it is concluded that in normal liver the activity of ADH is in excess. In partially hepatectomized rats the rate of ethanol elimination was linearly correlated with the activity of alcohol dehydrogenase, which suggests that when the rate of NADH reoxidation is markedly increased, as in regenerating rat liver, the rate of ethanol elimination may be limited by the activity of alcohol dehydrogenase. The activity of aldehyde dehydrogenase and the concentration of acetaldehyde in the tail blood were not significantly changed from the level of unoperated rats during oxidation of ethanol.
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PMID:Ethanol elimination in regenerating rat liver: the roles of alcohol dehydrogenase and acetaldehyde. 46 53

The metabolism of trans,trans-muconaldehyde (MA), a highly reactive alpha,beta-unsaturated dialdehyde, was examined in vitro using purified yeast alcohol and aldehyde dehydrogenases (ADH and ALDH, respectively). In the presence of NAD(+)-fortified ALDH, the mono-oxidation product (acid/aldehyde) was the primary metabolite formed with trace amounts of the dioxidation product (trans,trans-muconic acid). In NADH-fortified reactions with ADH, both the mono- and direduction products (hydroxy/aldehyde and dihydroxy, respectively) were readily detected. Oxidation and reduction products of MA were formed in incubates containing both dehydrogenases together with either NAD+ or NADH. Unexpectedly, an additional metabolite was detected, which was a major product in both NAD(+)- and NADH-fortified systems containing ALDH and ADH in combination and whose formation could be inhibited by pyrazole (an ADH inhibitor). ALDH-mediated oxidation of a synthetic standard of the hydroxy/aldehyde derivative of MA resulted in formation of this new metabolite, which was also a major product formed by rat hepatocytes incubated with MA. Using HPLC/photodiode array detection, the new metabolite was found to cochromatograph and have a uv spectrum identical to that of a synthetic standard of the hydroxy/acid derivative of MA. The metabolite was confirmed as the hydroxy/acid derivative of MA after preparative HPLC, TMS derivatization, and GC/MS analysis. The hydroxy/acid metabolite was not formed during ADH-mediated reduction of the mono-oxidation product of MA, suggesting that this metabolite was formed by yeast dehydrogenases via a primary reduction of MA and subsequent oxidation of the hydroxy/aldehyde to the hydroxy/acid. These data show that the hydroxy/acid derivative is a novel metabolite of MA, which arises from the interaction of both oxidative and reductive routes of metabolism.
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PMID:Metabolism of trans,trans-muconaldehyde by aldehyde and alcohol dehydrogenases: identification of a novel metabolite. 158 67

The three-dimensional structure of human beta 1 beta 1 alcohol dehydrogenase (ADH; EC 1.1.1.1) complexed with NAD+ has been determined by x-ray crystallography to 3.0-A resolution. The amino acids directly involved in coenzyme binding are conserved between horse EE and human beta 1 beta 1 alcohol dehydrogenase in all but one case [serine (horse) vs. threonine (human) at position 48]. As a result, the coenzyme molecule is bound in a similar manner in the two enzymes. However, the strength of the interactions in the vicinity of the pyrophosphate bridge of NAD+ appears to be enhanced in the human enzyme. Side-chain movements of Arg-47 and Asp-50 and a shift in the position of the helix comprising residues 202-212 may explain both the decreased Vmax and the decreased rate of NADH dissociation observed in the human enzyme vs. the horse enzyme. It appears that these catalytic differences are not due to substitutions of any amino acids directly involved in coenzyme binding but are the result of structural rearrangements resulting from multiple sequence differences between the two enzymes.
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PMID:Structure of human beta 1 beta 1 alcohol dehydrogenase: catalytic effects of non-active-site substitutions. 189 63

Elimination of [2H]ethanol in vivo as studied by gas chromatography/mass spectrometry occurred at about half the rate in deer mice reported to lack alcohol dehydrogenase (ADH-) compared with ADH+ deer mice and exhibited kinetic isotope effects on Vmax and Km (D(V/K] of 2.2 +/- 0.1 and 3.2 +/- 0.8 in the two strains, respectively. To an equal extent in both strains, ethanol elimination was accompanied by an ethanol-acetaldehyde exchange with an intermolecular transfer of hydrogen atoms, indicating the occurrence of dehydrogenase activity. This exchange was also observed in perfused deer mouse livers. Based on calculations it was estimated that at least 50% of ethanol elimination in ADH- deer mice was caused by the action of dehydrogenase systems. NADPH-supported cytochrome P-450-dependent ethanol oxidation in liver microsomes from ADH+ and ADH- deer mice was not stereoselective and occurred with a D(V/K) of 3.6. The D(V/K) value of catalase-dependent oxidation was 1.8, whereas a kinetic isotope effect of cytosolic ADH in the ADH+ strain was 3.2. Mitochondria from both ADH+ and ADH- deer mice catalyzed NAD+-dependent ethanol oxidation and NADH-dependent acetaldehyde reduction. The kinetic isotope effects of NAD+-dependent ethanol oxidation in the mitochondrial fraction from ADH+ and ADH- deer mice were 2.0 +/- 0.1 and 2.3 +/- 0.3, respectively. The results indicate only a minor contribution by cytochrome P-450 to ethanol elimination, whereas the isotope effects are consistent with ethanol oxidation by the catalase-H2O2 system in ADH- deer mice in addition to the dehydrogenase systems.
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PMID:Dehydrogenase-dependent ethanol metabolism in deer mice (Peromyscus maniculatus) lacking cytosolic alcohol dehydrogenase. Reversibility and isotope effects in vivo and in subcellular fractions. 292 22

Microquantitative measurements of ADH-activity were carried out on the livers of male and female rats, guinea-pigs and horses (two geldings and a mare). Lyophilized cryostat sections of liver parenchyma were microdissected the whole way along the sinusoidal length from the terminal afferent vessels to the terminal efferent venule. ADH activity in samples of about 50-150 ng was measured in a microbiochemical assay using the oil-well technique without enzymatic cycling, by direct luminometric determination of NADH. On the basis of the single measurements, mean values of total hepatic ADH activity could be calculated and the specific distribution patterns graphically demonstrated. Total activity of ADH in the liver of the female rat is 1.6 times higher than in the male; the male distribution pattern exhibits a relative maximum in the intermediary zone of the acinus while the activity in the liver of female rats increases towards a perivenous maximum. Mean values for total ADH activity in the livers of male and female guinea-pigs are almost equal and there is, moreover, no clear intra-acinar gradient. Mare and castrated male horses show high hepatic ADH activity which is evenly distributed in the liver acinus.
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PMID:Microquantitative determination of the distribution patterns of alcohol dehydrogenase activity in the liver of rat, guinea-pig and horse. 293 53

Lipid peroxidation has been invoked as a mechanism of alcoholic liver injury but its role has been controversial and the mechanism by which it occurs is unclear. Catalytic iron is known to play an important role in cellular injury and is produced during mobilization of ferritin iron. In vivo administration of a large acute dose of ethanol (5 g/kg) which produces hepatic lipid peroxidation in chow-fed rats resulted in mobilization of non-heme iron. The generation of NADH from alcohol metabolism via ADH or superoxide from acetaldehyde-xanthine oxidase mobilized iron from horse spleen ferritin in vitro. Chronic feeding of alcohol as 36% of energy for 6 weeks does not itself produce peroxidation in the rat but potentiates acute effects of ethanol. It produced microsomal induction which enhanced iron-stimulated lipid peroxidation and increased hepatic non-heme iron. Carbon monoxide increased rather than decreased accumulation of microsomal peroxidation products in vitro suggesting that cytochrome P-450 reductase mediates peroxidation but cytochrome P-450 may metabolize products. Incubation at lowered oxygen tensions equivalent to those observed in the perivenular zone (pO2 = 24 mmHg) enhanced in vitro iron mobilization but decreased peroxidation. Lipid peroxidation and its stimulation by iron mobilization and microsomal induction may be an important contributory mechanism of alcohol-induced liver injury.
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PMID:Lipid peroxidation as a mechanism of alcoholic liver injury: role of iron mobilization and microsomal induction. 313 9

Increased alcohol tolerance following chronic alcohol administration has been explained by increased mitochondrial oxidation of NADH and or increased activation of MEOS. According to our experiments this increased tolerance after chronic alcohol consumption is connected with an increased activity of ADH.
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PMID:Increase of alcohol dehydrogenase and protein content of liver following chronic ethanol administration. 315 63

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