EC:1.1.1.1 - FACTA Search

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Query: EC:1.1.1.1 (alcohol dehydrogenase)
9,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

4-Methyl pyrazole (4-MP, a specific inhibitor of alcohol dehydrogenase) reduced ethanol elimination by 30-50% and completely removed the ethanol-induced inhibition of galactose elimination in 2 control subjects. Ethanol elimination was accelerated in 2 alcoholics with adequate nutrition, but the effect of 4-MP was comparable to that in controls. In 2 other alcoholic subjects, who reported poor nutritional intake, intermediate rates of ethanol elimination were observed and 4-MP had almost no effect on ethanol or galactose elimination. These results suggest that alcohol abuse may result in an increased contribution to ethanol elimination by pathways other than that involving alcohol dehydrogenase (ADH) and that the decreased contribution from ADH, possibly potentiated by inadequate nutrition, may diminish the ethanol-induced shift in the NAD-coupled redox state. Since liver damage produced by alcohol abuse is believed to be related to changes from the normal redox state caused by ethanol, these results may explain why alcoholic liver damage is uncommon in alcoholics living on a marginal diet. Since 4-MP effectively eliminates the ethanol-induced shift in the redox state, a therapeutic trial with 4-MP in alcoholics with a high risk for liver disease is indicated.
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PMID:Ethanol and galactose metabolism as influenced by 4-methylpyrazole in alcoholics with and without nutritional deficiencies. Preliminary report of a new approach to pathogenesis and treatment in alcoholic liver disease. 0 33

Rat hearts perfused with oxygenated buffer containing [1-14C]ethanol metabolized small amounts of the ethanol to carbon dioxide. Very sensitive techniques are required to separate the resulting 14CO2 from the ethanol. This metabolism is not inhibited by levels of pyrazole which markedly inhibit NAD dependent liver alcohol dehydrogenase (EC 1.1.1.1). In vitro studies suggest that NADP functions as a cofactor for the rat heart alcohol dehydrogenase activity of crude heart homogenates. The kinetics parameters, the specific activity, and the pH dependence of the enzyme activity measured in these experiments suggest that it may have a minor role in ethanol metabolism by the rat.
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PMID:Ethanol metabolism by the rat heart and alcohol dehydrogenase activity. 0 36

Various flavins, FMN, FAD, and acriflavin, were immobilized to Sepharose using several different coupling methods. The only product stable enough to permit extended studies was acriflavin coupled to epoxy-substituted Sepharose. The nonenzymic oxidizing capacity towards NAD(P) H was investigated and a 25% specific activity, compared to that of free acriflavin, was observed. The reduced acriflavin was immediately auto-reoxidized in air and could thus be reused. It was shown that acriflavin-Sepharose preparations function as NAD(P)H oxidizing agents in a number of different dehydrogenase systems including lactate dehydrogenase (LDH), alcohol dehydrogenase (ADH), malate dehydrogenase (MDH), alanine dehydrogenase (alaDH), and glutamate dehydrogenase (GDH). The amount of expensive coenzyme necessary for high product formation of such systems was thereby markedly reduced.
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PMID:Continuous regeneration of NAD(P)+ by flavins covalently bound to sepharose. 0 69

The histrochemistry of the adrenal glands was studied in four adult male marmosets (two Callithrix jacchus and two Callithrix penicillata). It was impossible to demonstrate any reactivity to UDPG-GT, ADH, alanyl aminopeptidase, leucine aminopeptidase, xilitol (NAD-dependent) dehydrogenase, beta-glucuronidase and aryl-sulfatase in these glands. Total phosphorylase was found in scattered cells of the glomerulosa and adjacent outer fasciculata of one C. penicillata. The dehydrogenases (LDH, G-6-PDH,6-PGDH, NADPH2-TR,ICDH,SDH,NADH2-TR, alpha-GPDH, beta-OHBDH) as well as the hydrolases (except alkaline phosphatase, ATPase, and acetylcholinesterase) showed a stonger reactivity in the cortical part. Some hydrolases (naphthol acetate esterase, acid phosphatase) and cytochrome oxidase were less reactive in the zona glomerulosa, where the dehydrogenases were more abundant. The outer fasciculata and the reticularis also showed a strong dehydrogenase reactivity.
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PMID:Histochemical studies on the adrenal glands of the marmosets (Callithrix jacchus and Callithrix penicillata). 0 44

Liver endoplasmic membrane contains two hemoproteins, cyt. P-450 and cyt. b5. Cytochrome P-450 catalyzes the hydroxylation of lipid-soluble compounds, while the cyt. b5 system is involved in desaturation of fatty acids. NAD(P)H and oxygen are essential components for both systems. Oxidation of ethanol to acetate in the liver, via alcohol and acetaldehyde dehydrogenases, leads to an elevated cellular NADH content. It has been proposed that oxidation of the cytosolic NADH occurs predominantly in the mitochondria via the substrate oxidation-reduction shuttle. In order to investigate the effects of elevated levels of cytosolic NADH on the state of the endoplasmic hemoprotein system, microsomes from a fatty human liver (post-ethanol intake) were isolated and studied. Microsomal cyt. b5 reductase was found to reoxidize cytoplasmic NADH directly and transfer the reducing equivalents readily to the microsomal oxidases. Addition of catalytic amounts of alcohol dehydrogenase, NAD, and ethanol to microsomes resulted in a rapid reduction of microsomal cyt. b5. These results are consistent with the proposal that the catalytic moiety of cyt. b5 reductase is exposed to the aqueous phase of the membrane and directly accepts reducing equivalents from the cytoplasm. Microsomes from fatty human liver showed an increased rate of cyt. b5 dependent desaturation of fatty acids. These findings suggest that ethanol metabolism may selectively affect the activity of one or the other microsomal hemoprotein. Thus, when the desaturase activity is low, drug metabolism by the cyt. P-450 pathway may predominate. Conversely, an increase in the desaturase level may lead to a decreased drug metabolism. This mechanism may underlie the clinical observations of drug intolerance reactions associated with alcohol intake.
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PMID:The role of microsomal cytochrome b5 in the metabolism of ethanol, drugs and the desaturation of fatty acids. 1 14

A comparative study of cell cytosol alcohol dehydrogenase (ADH) from yeast Torulopsis candida IBFM-Y-127 grown on glucose and hexadecane which were the only source of carbon, was made. In both cases ADH had a pH optimum within the range of 7.0--10.0, when various normal primary alcohols (C2--C16) were used. The enzyme was active only in the presence of NAD, which cannot be substituted by NADP. The total activity of ADH decreased approximately 8-fold when the length of hydrocarbon radicals was changed from C2 up to C16. When the cells were grown on hexadecane, only ethyl, n-buthyl, n-amyl and n-hexyl alcohols were active as substrates. The dehydration rate of each alcohol was far lower than that for the cytosol of glucose-grown cells. In the latter case the enzyme activity also decreased with an increase in the alcohol radical from C2 to C6. In all cases studied methyl alcohol and cyclic (cinnamyl alcohol--C8) alcohol were not dehydrated at all. Disc-electrophoresis in polyacrylamide gel, involving gel colouration for the assay of enzyme activity showed that glucose--grown cell cytosol contained three forms of ADH. One of those forms was highly active when short--chain normal primary alcohols were used; this form may be probably regarded as "classical" ADH (EC 1.1.1.1). The two other forms caused intensive dehydration of long-chain alcohols (the best substrates were C7--C10 alcohols for one form and C10--C14 for the others). The two forms of ADH are probably isoenzymes of octanol dehydrogenase (EC 1.1.1.73). Cytosol of cells grown on n-alcane, had a reduced number of ADH forms. The data obtained are discussed in terms of the regulatory role of carbon and energy source (glucose or hexadecane) in the redistribution of alcohol dehydrogenases between structural components of cells (mitochondria) and cytosol.
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PMID:[Cytosolic alcohol dehydrogenases from yeast Torulopsis candida]. 1 29

3-Aminopyridine mononucleotide, a nicotinamide mononucleotide analog, was prepared by enzymatic cleavage of 3-aminopyridine adenine dinucleotide by a snake venom phosphodiesterase and isolated by means of ion exchange chromatography. The spectrophotometric and fluorometric properties of this analog were studied. Several anions were shown to quench the fluorescence intensity of this analog. pH was shown to have a pronounced effect on the fluorescence intensity. 3-Aminopyridine mononucleotide was shown to be a coenzyme-competitive inhibitor of yeast alcohol dehydrogenase. The 3-aminopyridine mononucleotide was diazotized with the use of nitrous acid. A time dependent irreversible inactivation of yeast alcohol dehydrogenase resulted from incubation with the diazotized 3-aminopyridine mononucleotide at pH 7.0. Incubation of the enzyme with NAD prior to the addition of the diazotized 3-aminopyridine mononucleotid protected the enzyme against inactivation.
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PMID:Studies of yeast alcohol dehydrogenase with 3-aminopyridine monucleotide. 1 65

Electrophoresis in polyacrylamide gel slabs has been used to study the isoform composition and substrate specificity of alcohol dehydrogenases in the embryo and young seedlings of the diploid wheat Triticum monococcum L., the tetraploid T. dicoccon (Schrank) Schuebl and the hexaploid T. spelta L. Three alcohol dehydrogenases of different substrate specificity and developmental pattern were distinguished: a) the NAD-dependent alcohol dehydrogenase, catalyzing the oxidation of different primary and secondary aliphatic and aromatic alcohols, as well as certain compounds with several hydroxyl groups (tris, triethanolamin) and revealing, after electrophoresis, one major band in the diploid wheat and three bands in both polyploid wheats; b) the NADP-dependent aromatic alcohol dehydrogenase (substrate--cinnamic alcohol), revealing, after electrophoresis, one major fast moving band in the diploid wheat and two bands in polyploid wheats; c) an aromatic alcohol dehydrogenase (2-3 bands after electrophoreis) with no specificity to the cofactors (NAD or NADP).
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PMID:[Electrophoretic analysis of substrate specificity of wheat alcohol dehydrogenases]. 3 21

The kinetics of enzymatic oxidation of ethanol in the presence of alcohol dehydrogenase within a wide range of ethanol and NAD concentrations (pH 6.0--11.5) were studied. It was shown that high concentrations of ethanol (greater than 0.7--5 mM, depending on pH) and NAD (greater than 0.4--0.8 mM) activate alcohol dehydrogenase from horse liver within the pH range of 6.0--7.9. A mechanism of activation based on negative cooperativity of ADH subunits for binding of ethanol and NAD was proposed. The catalytic and Michaelis constants for alcohol dehydrogenase were calculated from ethanol and NAD at all pH values studied. The changes resulting from the subunit cooperativity were revealed. The nature of ionogenic groups of alcohol dehydrogenase, which affect the formation of complexes between the enzyme and NAD and ethanol, and the rate constants for catalytic oxidation of ethanol was assumed. The biological significance of the enzyme capacity for activation by high concentrations of ethanol within the physiological range of pH in the blood under excessive use of alcohol is discussed.
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PMID:[Effect of intersubunit interaction in horse liver alcohol dehydrogenase on the kinetics of ethanol oxidation]. 3 51

A protein fraction, which did not contain NADP [or NADPH]-dependent aldehyde reductase as well as NAD [or NADP]-dependent aldehyde dehydrogenases, but which catalyzed oxidation of fatty-aromatic aldehydes, was isolated from extract of rat liver tissue using ammonium sulfate fractionation combined with gradient syvorptive chromatography on DEAE-Sephadex A-25 [or Molselect DEAE-25], CM-Sephadex C-25 and gel-filtration on Sephadex G-200. Investigations of molecular weight and catalytic properties of the protein fraction obtained enabled to identify it with xanthine oxidase [EC 1.2.3.2]. Aldehyde dehydrogenases as well as xanthine oxidase are involved in oxidation of fatty-aromatic aldehydes to corresponding fatty acids, besides the reduction of the aldehydes to alcohols, catalyzed by aldehyde reductase and alcohol dehydrogenases.
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PMID:[Oxidation of fatty-aromatic aldehydes in liver tissues]. 3 12

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