Mammalian alcohol dehydrogenase of higher classes: analyses of human ADH5 and rat ADH6

Abstract Alcohol dehydrogenases (ADH) of classes V and VI, ADH5 and ADH6, have been defined in man and rodents, respectively. Sequence data have been obtained at cDNA and genomic levels, but limited data are available for functionality and substrate repertoire. The low positional identity (65%) between the two ADHs, place them into separate classes. We have shown that the ADH5 gene yields two differently processed mRNAs and harbors a gene organization identical to other mammalian ADHs. This is probably due to an alternative splicing in the eighth intron that results in a shorter message missing the ninth exon or a normal message with the expected number of codons. The isolated rat ADH6 cDNA was found to be fused to ADH2 at the 5′-end. The resulting main open reading frame translates into an N-terminally extended polypeptide. In vitro translation results in a polypeptide of about 42 kDa and further, protein was possible to express in COS cells as a fusion product with Green Fluorescent Protein. Both ADH5 and ADH6 show genes and gene products that are processed comparably to other mammalian ADHs and the deduced amino acid sequences indicate a lack of ethanol dehydrogenase activity that probably explains why no corresponding proteins have been isolated. The functionality of these ADHs is therefore still an enigma.