About: Inefficient aldehyde metabolism by an aldehyde dehydrogenase 2 (ALDH2) genetic variant, ALDH2*2 (rs671), increases the risk of esophageal cancer with alcohol consumption. Here we tested the hypothesis that additional genetic differences in ALDH2 besides ALDH2*2 exist resulting in inefficient acetaldehyde metabolism after alcohol consumption. Human volunteers were recruited who self-reported flushing after alcohol. The first stage recruited East Asians and the second stage non-East Asians. After phone screening and ALDH2 sequencing, volunteers were subjected to an alcohol challenge (0.25g/kg). Physiological parameters and breath acetaldehyde levels were assessed. Twenty-six participants were given an alcohol challenge. In the first stage, when comparing the ALDH2*1/*2 genotype to ALDH2*1/*1 genotype, tachycardia (104{+/-}3* versus 73{+/-}4 beats per minute), increases in facial skin temperature (99.6{+/-}0.4* versus 95.9{+/-}0.50F), and increases in breath acetaldehyde (peak: 2.1{+/-}0.4* versus 0.2{+/-}0.3ppm, n=8/group, *p<0.01) occurred after alcohol consumption. In the second stage, heterozygotes for an ALDH2 intron variant (rs4646777, G>A) caused increases in facial skin temperature (98{+/-}1* versus 94{+/-}1 OF, n=4, *p<0.01) without tachycardia or acetaldehyde accumulation after alcohol consumption. Subjects self-identifying as non-East Asian genotyped with an ALDH2*1/*2 variant also displayed a characteristic ALDH2*1/*2 phenotype after alcohol consumption. Further, ALDH2 point mutations rs747096195 (R101G) and rs190764869 (R114W) showed reduced acetaldehyde metabolism and increases in facial skin temperature after an alcohol challenge relative to wild type ALDH2 subjects. Taken together, we developed a method to non-invasively phenotype genetic differences for ALDH2 in humans including quantifying aldehyde metabolism in single subjects. We also discovered genetic differences besides ALDH2*2 that cause inefficient aldehyde metabolism.

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About: Inefficient aldehyde metabolism by an aldehyde dehydrogenase 2 (ALDH2) genetic variant, ALDH22 (rs671), increases the risk of esophageal cancer with alcohol consumption. Here we tested the hypothesis that additional genetic differences in ALDH2 besides ALDH22 exist resulting in inefficient acetaldehyde metabolism after alcohol consumption. Human volunteers were recruited who self-reported flushing after alcohol. The first stage recruited East Asians and the second stage non-East Asians. After phone screening and ALDH2 sequencing, volunteers were subjected to an alcohol challenge (0.25g/kg). Physiological parameters and breath acetaldehyde levels were assessed. Twenty-six participants were given an alcohol challenge. In the first stage, when comparing the ALDH21/2 genotype to ALDH21/1 genotype, tachycardia (104{+/-}3* versus 73{+/-}4 beats per minute), increases in facial skin temperature (99.6{+/-}0.4* versus 95.9{+/-}0.50F), and increases in breath acetaldehyde (peak: 2.1{+/-}0.4* versus 0.2{+/-}0.3ppm, n=8/group, p<0.01) occurred after alcohol consumption. In the second stage, heterozygotes for an ALDH2 intron variant (rs4646777, G>A) caused increases in facial skin temperature (98{+/-}1 versus 94{+/-}1 OF, n=4, p<0.01) without tachycardia or acetaldehyde accumulation after alcohol consumption. Subjects self-identifying as non-East Asian genotyped with an ALDH21/2 variant also displayed a characteristic ALDH21/2 phenotype after alcohol consumption. Further, ALDH2 point mutations rs747096195 (R101G) and rs190764869 (R114W) showed reduced acetaldehyde metabolism and increases in facial skin temperature after an alcohol challenge relative to wild type ALDH2 subjects. Taken together, we developed a method to non-invasively phenotype genetic differences for ALDH2 in humans including quantifying aldehyde metabolism in single subjects. We also discovered genetic differences besides ALDH22 that cause inefficient aldehyde metabolism. Goto Sponge NotDistinct Permalink

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Attributes	Values
type	abstract
value	Inefficient aldehyde metabolism by an aldehyde dehydrogenase 2 (ALDH2) genetic variant, ALDH22 (rs671), increases the risk of esophageal cancer with alcohol consumption. Here we tested the hypothesis that additional genetic differences in ALDH2 besides ALDH22 exist resulting in inefficient acetaldehyde metabolism after alcohol consumption. Human volunteers were recruited who self-reported flushing after alcohol. The first stage recruited East Asians and the second stage non-East Asians. After phone screening and ALDH2 sequencing, volunteers were subjected to an alcohol challenge (0.25g/kg). Physiological parameters and breath acetaldehyde levels were assessed. Twenty-six participants were given an alcohol challenge. In the first stage, when comparing the ALDH21/2 genotype to ALDH21/1 genotype, tachycardia (104{+/-}3* versus 73{+/-}4 beats per minute), increases in facial skin temperature (99.6{+/-}0.4* versus 95.9{+/-}0.50F), and increases in breath acetaldehyde (peak: 2.1{+/-}0.4* versus 0.2{+/-}0.3ppm, n=8/group, p<0.01) occurred after alcohol consumption. In the second stage, heterozygotes for an ALDH2 intron variant (rs4646777, G>A) caused increases in facial skin temperature (98{+/-}1 versus 94{+/-}1 OF, n=4, p<0.01) without tachycardia or acetaldehyde accumulation after alcohol consumption. Subjects self-identifying as non-East Asian genotyped with an ALDH21/2 variant also displayed a characteristic ALDH21/2 phenotype after alcohol consumption. Further, ALDH2 point mutations rs747096195 (R101G) and rs190764869 (R114W) showed reduced acetaldehyde metabolism and increases in facial skin temperature after an alcohol challenge relative to wild type ALDH2 subjects. Taken together, we developed a method to non-invasively phenotype genetic differences for ALDH2 in humans including quantifying aldehyde metabolism in single subjects. We also discovered genetic differences besides ALDH22 that cause inefficient aldehyde metabolism.
Subject	Metabolism Aldehydes Classical genetics EC 1.2.1 Fermented drinks Hepatotoxins IARC Group 2B carcinogens Underwater diving physiology Chinese inventions Flavors Alcoholic drinks Hazardous air pollutants Drinking culture Genes on human chromosome 12 Polymorphism (biology) Distilled drinks
part of	Phenotyping genetic differences in aldehyde dehydrogenase 2 after an alcohol challenge in humans
is abstract of	Phenotyping genetic differences in aldehyde dehydrogenase 2 after an alcohol challenge in humans
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