UMLS:C0016382 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0016382 (flushing)
6,387 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Inherited variations in alcohol and aldehyde dehydrogenases, the principal enzymes of ethanol metabolism, have been implicated in determining susceptibility to alcoholism and alcohol-related organ damage. An association between an RFLP for the alcohol dehydrogenase-2 (ADH2) gene and alcohol-induced liver damage was demonstrated in a Caucasian population. Genotyping studies revealed an increase in the ADH3(2) allele in patients with alcohol-induced cirrhosis. PCR studies of the ALDH5 gene have demonstrated diverse polymorphism within a short segment of its coding region, with marked inter-racial variation in allele frequencies. In addition, the Caucasian alcohol-induced flushing reaction has been characterised and its relationship with phenotypic polymorphism of ALDH1 examined.
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PMID:Alcohol and acetaldehyde dehydrogenase gene polymorphism and alcoholism. 791 53

A deficiency in low Km aldehyde dehydrogenase (ALDH2) is regarded as the main factor responsible for "Oriental flushing" and other symptoms due to alcohol sensitivity. In this study, the relationship of the ALDH2 genotype to alcohol-associated symptoms and drinking behavior was investigated in 524 Japanese workers, using a new, rapid, and nonisotopic polymerase chain reaction (PCR) method. Differences in the frequency of alcohol-associated manifestations between the normal homozygote and the other deficient types were apparent. In addition, among the ALDH2-deficient individuals, the atypical homozygote was obviously more hypersensitive to alcohol than the heterozygote, judging from the frequency of flushing or other drinking-associated manifestations with a small dose of alcohol. Drinking frequency also apparently decreased in the following order: typical homozygote, heterozygote, atypical homozygote. Similarly, mean amounts of alcohol consumption also decreased in the same order, although considerable variation existed within the typical homozygote and the heterozygote group. In contrast, neither the manifestations nor the drinking behavior were, in general, influenced by polymorphism of the alcohol dehydrogenase beta-subunit (ADH2) gene in males. These findings further indicate the important contribution of the ALDH2 genotype to alcohol sensitivity in Orientals.
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PMID:Characterization of the three genotypes of low Km aldehyde dehydrogenase in a Japanese population. 807 34

The alcohol-flush reaction occurs in Asians who inherit the mutant ALDH2*2 allele that produces an inactive aldehyde dehydrogenase enzyme. In these individuals, high blood acetaldehyde levels are believed to be the cause of the unpleasant symptoms that follow drinking. We measured the alcohol elimination rates and intensity of flushing in Chinese subjects in whom the alcohol dehydrogenase ADH2 and ALDH2 genotypes were determined. We also correlated ADH2, ADH3, and ALDH2 genotypes with drinking behavior in 100 Chinese men. We discovered that ADH2*2 and ADH3*1, alleles that encode the high activity forms of alcohol dehydrogenase, as well as the mutant ALDH2*2 allele were less frequent in alcoholics than in controls. The presence of ALDH2*2 was associated with slower alcohol metabolism and the most intense flushing. In those homozygous for ALDH2*1, the presence of two ADH2*2 alleles correlated with slightly faster alcohol metabolism and more intense flushing, although a great deal of variability in the latter was noted.
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PMID:Alcohol and aldehyde dehydrogenase polymorphisms and alcoholism. 851 27

In humans, ingested alcohol is mainly metabolized by the combination of class I alcohol dehydrogenase (ADH) and aldehyde dehydrogenase (ALDH). In Orientals, there are highly frequent polymorphisms both in the class I ADH beta subunit (ADH2) and in the low Km ALDH (ALDH2). We characterized the three genotypes of ALDH2 in a Japanese population. In the present study, we evaluated the effects of the ADH2 polymorphism in the same population (424 males and 100 females) controlling for the effects of the ALDH2 polymorphism. In the ALDH2(1)/ALDH2(2) group, the frequency of facial flushing with one glass of beer was significantly higher in the ADH2(1)/ADH2(2) and ADH2(2)/ADH2(2) genotype than in the ADH2(1)/ADH2(1) genotype. Likewise, the proportion of persons with positive results for ethanol-induced cutaneous erythema differed significantly depending on the ADH2 genotype in both the ALDH2(1)/ALDH2(1) and ALDH2(1)/ALDH2(2) genotypes. However, drinking habits were not significantly associated with the ADH2 genotype, suggesting that the ADH2 genotype influences the metabolism of ethanol only in the peripheral tissues.
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PMID:The contribution of polymorphism in the alcohol dehydrogenase beta subunit to alcohol sensitivity in a Japanese population. 883 33

We determined the genotypes of the alcohol dehydrogenase (ALDH) and aldehyde dehydrogenase (ALDH2) loci of different ethnic groups living in Brazil, using saliva DNA amplified by PCR and allele-specific oligonucleotides. Self-reports of flushing reaction after drinking were also studied. The allelic frequencies of ADH2 and ALDH2 were found to be lower than those reported other authors, which might be a result of the admixture origin of the Brazilian population. Variability in facial flushing reaction suggests that other factors play a role in the expression of alcohol-induced flushing.
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PMID:Allele frequency of ADH2 and ALDH2 among Brazilians of different ethnic groups. 916 Jul 96

Alcohol and histamine metabolic pathways in the body have the common enzymes aldehyde dehydrogenase and aldehyde oxidase. The metabolite of ethanol, acetaldehyde, can effectively compete with the metabolites of histamine, methylimidazole acetaldehyde, and imidazole acetaldehyde. At the periphery, alcohol and acetaldehyde liberate histamine from its store in mast cells and depress histamine elimination by inhibiting diamine oxidase, resulting in elevated histamine levels in tissues. Histamine mediates alcohol-induced gastric and intestinal damage and bronchial asthma as well as flushing in Orientals. On the other hand, alcohol provokes food-induced histaminosis and histamine intolerance, which is an epidemiological problem. There are many controversial reports concerning the effect of H2 receptor antagonists on ethanol metabolism and the activity of alcohol dehydrogenase in the stomach. In addition, alcohol affects histamine levels in the brain by modulating histamine synthesis, release, and turnover. Histamine receptor antagonists can affect ethanol metabolism and change the sensitivity of animals to the hypnotic effects of alcohol. In contrast to other neurotransmitters, the involvement of the brain histamine system in the mechanisms of the central actions of alcohol and in the pathogenesis of alcoholism is poorly studied and understood.
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PMID:Alcohol-histamine interactions. 1034 73

High alcohol sensitivity common among Orientals is mainly due to genetic polymorphism in the low K(m) aldehyde dehydrogenase (ALDH2) gene. The relation of the ALDH2 genotype to alcohol sensitivity and drinking behavior was investigated in a Japanese occupational population. The frequency of alcohol-associated symptoms generally increased in the order of the typical homozygote, heterozygote, and atypical homozygote. Both drinking frequency and amounts of alcohol consumption were also significantly affected by the polymorphism. Polymorphism in the alcohol dehydrogenase beta-subunit (ADH2 gene) appeared to contribute to skin flushing post-alcohol exposure but not to alcohol drinking behavior. Multivariate analysis revealed that high alcohol consumption, the ALDH2*1/*1 genotype, and high daily hassles levels significantly contribute to the prevalence of those with a high problem-drinking score in an occupational population. In the study to assess the effects of the ALDH2 polymorphism and alcohol use on the induction of chromosome alterations in peripheral lymphocytes, we found that lymphocytes from habitual drinkers with the atypical ALDH2 genotypes had significantly higher frequencies of sister-chromatid exchange (SCE) than those from the typical ALDH2 genotype. We also measured acetaldehyde reversibly bound to hemoglobin (HbAA). In volunteers with the ALDH2*1/*2 genotype, the HbAA levels increased immediately after the drink and the elevated levels persisted up to 48 h. Among male workers, HbAA levels were significantly correlated with the recent alcohol consumption levels in both the ALDH2*1/*1 and ALDH2*1/*2 genotypes. However, the slope was much steeper in the ALDH2*1/*2 than in the ALDH2*1/*1. SCE and HbAA may be utilized as a good biomarker for health problems in the atypical ALDH2 genotype. Further extensive studies are required for evaluation of the interactive effects of genetic and environmental factors on alcohol-related health problems.
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PMID:[Genetic factors which regulate alcohol drinking behavior and their effects on health status]. 1047 85

Acetaldehyde (AcH), the first metabolite of ethanol (EtOH), is a chemically reactive and pharmacologically active compound. The author has been engaged in the study of AcH in cooperation with many researchers for three decades. We have found many biological actions of AcH which cause cardiovascular symptoms after drinking and also inhibited EtOH absorption via the canine and rat intestinal tract. This report covers the following five points. 1. The subjects were classified into a non-flushing group and a flushing group, according to the degree of facial flushing after drinking 200 ml of Sake (Japanese rice wire) at a rate of 100 ml per 5 min. Blood EtOH profile was much the same in both groups, yet peak blood AcH concentration in the flushing group was significantly higher than that in the non-flushing group. All subjects in the flushing group showed marked flushing and an increase in pulse rate after drinking, but these symptoms were not apparent in the non-flushing group. These results suggested that cardiovascular symptoms were caused by AcH itself. 2. Urinary excretions of both norepinephrine and epinephrine increased in the flushing cases after drinking Sake in comparison with those who drank the same volume of water. However, these catecholamines did not change in the non-flushing group. These results suggested that it is catecholamines released from the sympathetic nerve end or the adrenal medulla by AcH which caused an increase in pulse rate. 3. Bradykinin is released from high molecular kininogen by activated kallikrein and acts to dilate distal blood vessels and raise permeability in tissues. On the other hand, kallidin is released from low molecular kininogen by activated glandular kallikrein and its action is weaker than that of bradykinin. Blood low molecular kininogen levels in the flushing group decreased gradually after drinking and were mutually related to the blood AcH concentrations. But levels in the non-flushing group showed no difference before and after drinking. The decrease in low molecular kininogen levels indicates that kallidin released from glandular kallikrein exists in the glandular tissues such as the kidneys, sweat glands, saliva glands, etc. We hypothesize that kallikrein activated by AcH in the sweat glands produces kallidin which cause vessels around the glands to dilate, and flushing of the face and the whole body occurs due to escalation of the sphere of dilatation of blood vessels. 4. A isolated 30 cm length of the canine jejunum segment with intact vascular supply was performed. After pretreatment with cyanamide (CY), a potent inhibitor of aldehyde dehydrogenase, or pyrazole (PY), a potent inhibitor of alcohol dehydrogenase, a 17% EtOH solution (0.4 g/kg) was administered into the jejunum segment, and 150 min after the administration of EtOH, the fluid from the segment was collected to determine its volume and EtOH concentration. The CY-pretreatment group, in which an extremely high AcH concentration developed, in comparison with the control and PY-pretreatment groups, showed a gradual increase of portal blood EtOH, a 25% reduction in the amount of absorbed EtOH, and an 85% smaller absorption rate constant value (Ka value). These facts indicate that the presence of a high AcH concentration in the blood results in a reduction of EtOH absorption and retardation of EtOH reaching the systemic circulation. The rapid reduction of portal blood flow and lower EtOH level in the portal vein observed in the CY group, in comparison with the other groups, also indicate that the reduction of EtOH permeability through the absorption site to the blood is an important retarding factor induced by AcH. 5. After segmenting a 20 cm length of rat intestine, cannulae for EtOH perfusion were inserted into each end of the intestine segment. Perfusion of EtOH solution (4%) was performed for 30 min at steady rate, beginning 60 min after pretreatment with CY and/or PY. The blood EtOH and AcH concentrations in the f
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PMID:[Biological actions of acetaldehyde]. 1072 60

Multiple forms and gene loci of human alcohol dehydrogenase (ADH EC: 1.2.1.3) and aldehyde dehydrogenase (ALDH, EC: 1.2.1.3) in the major pathway of alcohol metabolism have been found and characterized in the last two decades. With the coenzyme NAD, these enzymes catalyze the reversible conversion of organic alcohols to ketones or aldehydes, and aldehyde to acetic acid. The ADH genes are mapped to chromosome 4p21-25, but the ALDH genes are localized at different chromosomes. The cytochrome P450 2E1 (CYP2E1) gene, which is mapped to chromosome 10q24.3-qter contributes also the conversion of ethanol to acetaldehyde. Genetic polymorphisms have been reported in these alcohol metabolizing enzymes. The metabolisms of alcohol and acetaldehyde in liver and blood after drinking alcohol are thought to be influenced by the interactive action of these enzymes. Amongst the five major classes of the ADH subunits (alpha, beta, gamma, pi, chi, sigma), beta and gamma subunits show genetic polymorphisms. Recently a new nomenclature for ALDH genes has been recommend based on divergent evolution and chromosomal mapping. Two major isoforms designated as cytosolic ALDH1 and mitochondrial ALDH2 can be distinguished by their electrophoretic and kinetic properties as well as by their subcellular localization. Mitochondrial ALDH2 is a major enzyme in the oxidation of acetaldehyde derived from ethanol metabolism. The catalytic deficiency of ALDH2 isozyme is responsible for flushing and other vasomotor symptoms caused by higher acetaldehyde levels after alcohol intake. So far, frequencies of the two alleles of ALDH2 in Mongoloid have been reported in the different population groups. The catalytic deficiency of ALDH2 is caused by a structural point mutation at amino acid position 487, where a substitution of Glu to Lys resulting from a transition of G (C) to A (T) at 1510 nucleotide from the initiation codon has occurred. Individuals deficient in ALDH2 activity refrain from excessive drinking of alcohol due to the aversive reactions, leading to protection against alcoholism. Prevalence of the ALDH2*1 allele is associated with alcoholism, and subsequent studies have confirmed the allelic association with alcoholism in different ethnic groups. The effects of polymorphisms of ADH2 and CYP2E1 remained controversial, even in the same ethnic group. Investigation of mutations for the transacting cis-element in promoter region of the ALDH2 gene will provide important information with respect to regulation of this gene. Transfection assays using the first 600 bp of the upstream nucleotide sequences indicated that a region from -75 to -120 was necessary for the ALDH2 gene expression, and especially NF-Y/CP1 binding site from -92 to -96 (CCAAT box) is important in the expression of the gene. A novel polymorphism due to the nucleotide replacement at -357 G to A was found in all the population groups. Alcoholism is thought to be a multifactorial disease with complex mode of inheritance in addition to psychological and social factors, and many studies of family, adoption and twins concerning alcoholism have revealed that hereditary factor is an important determinant for developing alcoholism. Genetic association studies have contributed to the identification of a number of genetic risk factors for the chronic diseases influenced by genetic disorders and environmental factors.
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PMID:[Classification of alcohol metabolizing enzymes and polymorphisms--specificity in Japanese]. 1139 42

A variety of genetically influenced alcohol-related phenotypes relate to risk for alcohol dependence. In Asians, variation in the alcohol dehydrogenase (ADH2) gene relates to alcohol dependence, alcohol consumption, and reported alcohol-related symptoms, even after controlling for variation in the aldehyde dehydrogenase (ALDH2) gene. The association of ADH2 polymorphisms with alcohol-related behavior, however, has not been well characterized in non-Asians. This study evaluated 84 Ashkenazic Jewish American college students to determine the prevalence of the ADH2*2 allele (0.31). Carriers of ADH2*2 reported significantly fewer drinking days per month. ADH2*2, however, was not related to alcohol use disorders, alcohol-induced flushing and associated symptoms, number of binge drinking episodes in the past 90 days, maximum number of drinks ever consumed, or self-reported levels of response to alcohol. Results suggest that Ashkenazic Jewish Americans with ADH2*2 alleles drink less frequently, which might contribute, in part, to the overall lower rates of alcoholism in this population.
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PMID:ADH2 and alcohol-related phenotypes in Ashkenazic Jewish American college students. 1154 39

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