Abstract | dc.description.abstract | Liver alcohol dehydrogenase oxidizes ethanol to acetaldehyde, which is further oxidized to acetate by aldehyde dehydrogenase-2
(ALDH2*1). Individuals who carry a low-activity ALDH2 (ALDH2*2) display high blood acetaldehyde levels after ethanol consumption,
which leads to dysphoric effects, such as facial flushing, nausea, dizziness, and headache (‘‘Asian alcohol phenotype’’), which result in an
aversion to alcohol and protection against alcohol abuse and alcoholism. Mimicking this phenotype may reduce alcohol consumption in
alcoholics. RNA interference (RNAi) is a cell process in which a short interfering RNA (siRNA) of 21e25 bp guides the degradation
of a complementary target mRNA. Thus, siRNAs may be useful in mimicking the Asian phenotype by inhibiting ALDH2 gene expression.
We determined the inhibitory effect of three chemically synthesized siRNAs targeted against rat ALDH2 mRNA in human embryonic
kidney cells (HEK-293 cell lines) transfected with a plasmid carrying the rat ALDH2 cDNA. Two of the three siRNAs were active, yielding
a 65e75% reduction of ALDH2 activity. Based on the most promising siRNA sequence, three short hairpin RNA (shRNA) genes driven by
the human U6 RNA promoter were designed and cloned in a plasmid. After transfection of HEK-293 cells, one of the genes was shown to
be active, yielding a 50% reduction of ALDH2 activity. This effect is consistent with a 50% reduction in ALDH2 mRNA, whereas neither bactin
mRNA nor the interferon-inducible transmembrane protein-1 mRNA levels were affected. This study describes chemically synthesized
siRNAs and an endogenously synthesized shRNA, which reduce ALDH2 activity and constitute tools that should be of value for
further alcohol research. 2009 Elsevier Inc. All rights reserved. | en_US |