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 subcellular localization of the aldehyde dehydrogenase activity from the ALDH (EC 1.2.1.3) enzyme has been studied in nutritionally manipulated Drosophila melanogaster adults from a wild (LRC) and an ADH-null (bAdhn4) strain. ALDH activities from ALDH or ADH (EC 1.1.1.1) enzymes were selectively inhibited by prefeeding respectively the flies sucrose solutions supplemented with either cyanamide or acetone respectively. ALDH, ADH (as a cytosolic marker) and succinate dehydrogenase (EC 1.3.9.1) (as a mitochondrial marker) activities were assayed in both the mitochondrial and cytosolic fractions isolated from flies subjected to each treatment. Total ALDH activity in the cytosolic fraction was found to be between five (ADH strain) and ten (ADH strain) times higher than that in the mitochondrial fraction. Prefeeding cyanamide resulted in a 64% (ADH strain) and a 90% (ADH strain) reduction of the cytosolic ALDH activity, whereas prefeeding acetone resulted in a 38% (ADH strain) reduction of this activity. Prefeeding both cyanamide and acetone resulted in a total inhibition of ALDH activity, which was also observed after an extended cyanamide treatment. In conclusion, our results support that, contrary to what occurs in larvae, in adults the ALDH activity from ALDH enzyme is mainly localized in the cytosolic fraction: about 85% in ADH+ and 90% in ADH- strains. Although larvae and adults use different ALDH activities to detoxify acetaldehyde (from ADH and ALDH enzymes, respectively) both of them are cytosolic. Reasons for these different uses are discussed in relation to the subcellular localization of ALDH activity.
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PMID:Aldehyde dehydrogenase (ALDH) activity in Drosophila melanogaster adults: evidence for cytosolic localization. 835 17

The effects of anaerobic, semi-aerobic and short aeration fermentation conditions and the addition of ergosterol and oleic acid to musts on the specific activity of alcohol and aldehyde dehydrogenase (ADH and ALDH) from two yeast species, Saccharomyces cerevisiae and Torulaspora delbrueckii, were studied. ADH I biosynthesis only occurred during the first few hours of fermentation. ADH II from S. cerevisiae and ALDH-NADP+ from the two yeast species behaved as constitutive enzymes under all fermentation conditions. ADH II from T. delbrueckii was only synthesized in small amounts, and its activity was always lower than in S. cerevisiae, where it was responsible for the termination of alcoholic fermentation during the steady growth phase.
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PMID:Influence of fermentation conditions on specific activity of the enzymes alcohol and aldehyde dehydrogenase from yeasts. 841 48

The oxidation of aldehydes by horse liver alcohol dehydrogenase (HL-ADH) is more complex than previously recognized. At low enzyme concentrations and/or high aldehyde concentrations, a pronounced lag in the assay progress curve is observed when the reaction is monitored for NADH production at 340 nm. When the progress of the reaction is followed by 1H NMR spectroscopy, rapid dismutation of the aldehyde substrate into the corresponding acid and alcohol is observed during the lag phase. Steady-state production of NADH commences only after aldehyde concentrations drop below 5% of their initial value; thereafter, NADH production occurs with continuous adjustment of the equilibrium between aldehyde, alcohol, NADH, and NAD+. The steady-state NADH production exhibits normal Michaelis-Menten kinetics and is in accord with earlier studies using much higher enzyme concentrations where no lag phase was reported. These results establish that the ability of HL-ADH to oxidize aldehydes is much greater than previously thought. The relationship between aldehyde dismutase and aldehyde dehydrogenase activities of HL-ADH is discussed.
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PMID:Horse liver alcohol dehydrogenase-catalyzed oxidation of aldehydes: dismutation precedes net production of reduced nicotinamide adenine dinucleotide. 842 79

Human alcohol dehydrogenases of class I and class II but not class III catalyse NAD+-dependent aldehyde oxidation in addition to the NADH-dependent aldehyde reduction. The two reactions are coupled, i.e. the enzymes display dismutase activity. Dismutase activity of recombinantly expressed human class I isozymes beta1beta1 and gamma2gamma2, class II and class III alcohol dehydrogenases was assayed with butanal as substrate by gas chromatographic-mass spectrometric quantitations of butanol and butyric acid. The class I gamma2gamma2 isozyme showed a pronounced dismutase activity with a high kcat, 1300 min(-1), and a moderate Km, 1.2 mM. The class I beta1beta1 isozyme and the class II alcohol dehydrogenase showed moderate catalytic efficiencies for dismutase activity with lower kcat values, 60-75 min(-1). 4-Methylpyrazole, a potent class I ADH inhibitor, inhibited the class I dismutation completely, but cyanamide, an inhibitor of mitochondrial aldehyde dehydrogenase, did not affect the dismutation. The dismutase reaction might be important for metabolism of aldehydes during inhibition or lack of mitochondrial aldehyde dehydrogenase activity.
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PMID:Aldehyde dismutase activity of human liver alcohol dehydrogenase. 884 67

Genetic polymorphisms of the alcohol dehydrogenase ADH2 and aldehyde dehydrogenase ALDH2 genes were investigated in Japanese, Finn, and Lapp populations by using PCR-RFLP and SSCP analyses. The ALDH2 genotypes were unequivocally determined by a PCR-RFLP assay with a mismatched primer. The determination of the ADH2 genotypes, however, was found to be problematic in PCR with the reported oligonucleotide primer sets because there are high homologies among the ADHl, ADH2, and ADH3 gene sequences. The problem of the heterozygote excess in typing results obtained by using the previously reported PCR-RFLP methods was resolved by nested PCR, in which an internal primer set reamplified the ADH2 sequence selectively from a mixture of the ADH gene sequences amplified in the first PCR amplification of genomic DNA samples as templates. A newly designed primer pair with longer sequences and single 3' end mismatches was later found to achieve a predominant amplification of the ADH2 sequence in a single PCR. RFLP and SSCP analyses of PCR products with the new primer set gave results fully consistent with those by nested PCR. Thus, the ADH2 genotypes defined in this study were free from any typing errors. The ADH2 and ALDH2 allele frequencies observed in this study were found not to be biased significantly from those reported previously from Japanese populations, and these were monomorphic for Lapp and Finn populations.
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PMID:A study on ADH2 and ALDH2 genotyping by PCR-RFLP and SSCP analyses with description of allele and genotype frequencies in Japanese, Finn and Lapp populations. 906 14

The requirement of vitamin A (retinol) for successful completion of vertebrate embryogenesis is well established. Retinoid signaling involves a two-step metabolic event in which retinol is first converted to retinal, and then retinal is converted to the active ligand retinoic acid, which modulates the transcriptional activity of a nuclear retinoic acid receptor (RAR). During mouse embryogenesis, retinoic acid is not detected at 6.5 days of embryonic development (E6.5) when gastrulation first initiates, but it is detected at E7.5 and later. This suggests that retinoid signaling during embryogenesis may be initiated during the primitive streak stage. Here we have used whole-mount in situ hybridization to examine E6.5-E8.5 mouse embryos for expression of RAR alpha, RAR beta, RAR gamma, and two enzymes, class IV alcohol dehydrogenase (ADH-IV) and class I aldehyde dehydrogenase (ALDH-I), which have been shown to have retinol and retinal dehydrogenase activities, respectively. At E6.5, RAR alpha mRNA was expressed ubiquitously in embryonic and extraembryonic tissues, RAR gamma mRNA was detected throughout all embryonic tissues, but mRNAs for RAR beta, ADH-IV, and ALDH-I were not detected. By E7.5, RAR alpha mRNA was still ubiquitous, RAR beta mRNA was now observed in presumptive hindbrain ectoderm and adjacent mesenchyme, RAR gamma mRNA was still observed in all embryonic tissues, and ADH-IV as well as ALDH-I mRNAs were now both expressed in primitive streak mesoderm. In E8.5 embryos, RAR alpha mRNA was still ubiquitous, RAR beta mRNA was present in the caudal hindbrain as well as the closed neural tube and foregut, RAR gamma mRNA was widespread but most prevalent in caudal embryonic tissues, and mRNAs for both ADH-IV and ALDH-I were expressed in cranial mesenchyme, somites, and paraxial mesoderm. Thus, ADH-IV and ALDH-1, two metabolic enzymes able to convert retinol to retinoic acid, are both initially expressed in primitive streak mesoderm at E7.5 when retinoic acid is first detectable. On the other hand, RAR alpha and RAR gamma expression is widespread and present at E6.5 prior to retinoic acid detection. These results suggest that upregulation of ADH-IV and ALDH-I gene expression in primitive streak mesoderm may lead to retinoic acid synthesis and initiation of retinoid signaling during mouse embryogenesis.
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PMID:Initiation of retinoid signaling in primitive streak mouse embryos: spatiotemporal expression patterns of receptors and metabolic enzymes for ligand synthesis. 909 25

Entamoeba histolytica is an amitochondriate protozoan parasite with numerous bacterium-like fermentation enzymes including the pyruvate:ferredoxin oxidoreductase (POR), ferredoxin (FD), and alcohol dehydrogenase E (ADHE). The goal of this study was to determine whether the genes encoding these cytosolic E. histolytica fermentation enzymes might derive from a bacterium by horizontal transfer, as has previously been suggested for E. histolytica genes encoding heat shock protein 60, nicotinamide nucleotide transhydrogenase, and superoxide dismutase. In this study, the E. histolytica por gene and the adhE gene of a second amitochondriate protozoan parasite, Giardia lamblia, were sequenced, and their phylogenetic positions were estimated in relation to POR, ADHE, and FD cloned from eukaryotic and eubacterial organisms. The E. histolytica por gene encodes a 1,620-amino-acid peptide that contained conserved iron-sulfur- and thiamine pyrophosphate-binding sites. The predicted E. histolytica POR showed fewer positional identities to the POR of G. lamblia (34%) than to the POR of the enterobacterium Klebsiella pneumoniae (49%), the cyanobacterium Anabaena sp. (44%), and the protozoan Trichomonas vaginalis (46%), which targets its POR to anaerobic organelles called hydrogenosomes. Maximum-likelihood, neighbor-joining, and parsimony analyses also suggested as less likely E. histolytica POR sharing more recent common ancestry with G. lamblia POR than with POR of bacteria and the T. vaginalis hydrogenosome. The G. lamblia adhE encodes an 888-amino-acid fusion peptide with an aldehyde dehydrogenase at its amino half and an iron-dependent (class 3) ADH at its carboxy half. The predicted G. lamblia ADHE showed extensive positional identities to ADHE of Escherichia coli (49%), Clostridium acetobutylicum (44%), and E. histolytica (43%) and lesser identities to the class 3 ADH of eubacteria and yeast (19 to 36%). Phylogenetic analyses inferred a closer relationship of the E. histolytica ADHE to bacterial ADHE than to the G. lamblia ADHE. The 6-kDa FD of E. histolytica and G. lamblia were most similar to those of the archaebacterium Methanosarcina barkeri and the delta-purple bacterium Desulfovibrio desulfuricans, respectively, while the 12-kDa FD of the T. vaginalis hydrogenosome was most similar to the 12-kDa FD of gamma-purple bacterium Pseudomonas putida. E. histolytica genes (and probably G. lamblia genes) encoding fermentation enzymes therefore likely derive from bacteria by horizontal transfer, although it is not clear from which bacteria these amebic genes derive. These are the first nonorganellar fermentation enzymes of eukaryotes implicated to have derived from bacteria.
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PMID:Evidence for the bacterial origin of genes encoding fermentation enzymes of the amitochondriate protozoan parasite Entamoeba histolytica. 917 24

The activities of alcohol dehydrogenase isoenzymes (class ADH I and ADH II) and aldehyde dehydrogenase (ALDH) were measured using fluorogenic substrates in the liver of rats. Animals were dosed with 6 g of methanol/kg b.w. after 6, 12, 24 hours and 2, 5 and 7 days. Liver ADH I and ADH II activities were gradually increased after 6 h and up to 7 days after intoxication. ALDH activity in the liver had the highest elevation at 6 h, and then it decreased but was higher than the control value. It is concluded that subacute administration of methanol to rats leads to induction of hepatic enzymes involved in alcohols metabolism and that tested fluorogenic substrates are useful for these measurements.
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PMID:The activity of enzymes oxidizing alcohols in the liver of rats after methanol intoxication measured with fluorogenic substrates. 997 58

The alcohol dehydrogenase (ADHs) and aldehyde dehydrogenases (ALDHs) involved in alcohol metabolism are polymorphic. Different alleles encode subunits of the enzymes that are related to differences in alcohol metabolism with different ethnic groups. This study examined the allele frequencies at the ADH1, ADH2, ADH3 and ALDH2 loci in Alaska Natives entering treatment for alcoholism to determine if allele frequencies at these loci differ among five distinct Alaska Native groups: Yupik and Inupiat Eskimos, Athabascan, Tlingit and Aleut. It was found that all persons were homozygous for the ADH1*1, ADH2*1 and ALDH2*1 alleles. Variations, however, were found for the allele distribution of the ADH3 genotype. Comparison with a general population sample found no differences in allele distributions for ADHs and ALDH2*1, but differences were found when comparisons were made with four Asian Groups. The study's findings suggest that the Alaska Natives are not protected from the risk of alcoholism in the same way that Asians who possess the ALDH2*2 genotype are considered to have a negative risk factor. Nor, does there appear to be any generalized differences between Alaska Native alcoholics and members of the general population with respect to the ALDH and ADH polymorphisms studied herein.
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PMID:ADH and ALDH polymorphisms among Alaska Natives entering treatment for alcoholism. 1022 78

Long-term consumption of large amounts of alcohol is the main cause of chronic pancreatitis. All heavy drinkers, however, do not contract chronic pancreatitis. Although genetic predisposition to alcoholism and alcoholic liver disease has been reported, genetic susceptibility to alcoholic pancreatitis is still a matter of debate. To determine the relation between genotypes of alcohol-metabolizing enzymes and chronic alcoholic pancreatitis, we examined genotype patterns of aldehyde dehydrogenase 2 (ALDH 2), alcohol dehydrogenase 2 (ADH 2) and cytochrome P-4502E1 (CYP2E1) in 54 patients with chronic alcoholic pancreatitis who were diagnosed in general hospitals in all over Japan and compared with those in 30 patients with chronic nonalcoholic pancreatitis or in 46 alcoholics with normal pancreatic function. There were no significant differences in the distribution of genotypes of ALDH 2 and CYP2E1 among those three groups. As for the ADH 2 genotype, distribution of 2(1)/2(1), 2(1)/2(2), and 2(2)/2(2) was 35%, 30%, and 35% in alcoholics with normal pancreatic function; 4%, 39%, and 57% in the chronic alcoholic pancreatitis group; and 0%, 50%, and 50% in the chronic nonalcoholic pancreatitis group, respectively. The frequency of ADH 2(2) allele was significantly higher in the chronic alcoholic pancreatitis group, compared with alcoholics with normal pancreatic function; but, it was not significantly different from that in the chronic nonalcoholic pancreatitis group. We also examined the relation between pancreatic fibrosis or pancreatitis histologically diagnosed and genotypes of alcohol-metabolizing enzymes in alcoholic autopsy cases. Twenty of 31 cases showed moderate or severe pancreatic fibrosis and showed intralobular + interlobular fibrosis, which is characteristic in alcoholic pancreatitis or intralobular fibrosis. ADH 2(2) allele tended to show a high frequency in the intralobular + interlobular fibrosis group, compared with that in the intralobular fibrosis group (75.0% vs. 41.7%, p < 0.1). The chronic pancreatitis group had a significantly higher frequency of the ADH 2(2) allele than that in cases without such findings (87.5% vs. 58.7%, p < 0.05). However, the ALDH 2 and CYP2E1 genotypes showed no significant relation to the findings of pancreatic fibrosis or histological pancreatitis. These data suggest that the risk of chronic alcoholic pancreatitis diagnosed clinically and pathologically seems to be associated with the ADH 2(2) allele in the genotypes of alcohol-metabolizing enzymes.
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PMID:Genotypes of alcohol-metabolizing enzymes in relation to alcoholic chronic pancreatitis in Japan. 1023 86

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