Mutational spectrum induced by acetaldehyde in the HPRT gene of human T lymphocytes resembles that in the p53 gene of esophageal cancers

doi:10.1093/carcin/22.11.1825

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Carcinogenesis, Vol. 22, No. 11, 1825-1830, November 2001
© 2001 Oxford University Press

CARCINOGENESIS

Mutational spectrum induced by acetaldehyde in the HPRT gene of human T lymphocytes resembles that in the p53 gene of esophageal cancers

Peri Noori and Sai-Mei Hou^,1

Environmental Medicine Unit, Department of Biosciences, The Karolinska Institute, CNT/NOVUM, S-141 57 Huddinge, Sweden

As the primary metabolite of alcohol, acetaldehyde (AA) maybe responsible for many pathological effects related to consumptionof alcohol, such as esophageal cancer. The spectrum of p53 mutationsin esophageal tumors is indicative of the involvement of exogenousagents, such as tobacco smoke. There is, however, no experimentalproof for the involvement of alcohol as data on mutational spectruminduced by AA in human genes is completely lacking. The aimof this study is to investigate whether AA leaves mutationalfingerprint in the HPRT reporter gene in human peripheral Tcells. Pre-existing in vivo HPRT mutants were removed from PHA-stimulatedT lymphocytes before in vitro treatment with 2.4 mM AA for 24h. Following cell growth to allow mutation expression, independent6-thioguanine-resistant mutants were selected from large numbersof subcultures showing a 3-fold induction of mutant frequencyon average. A total of 73 induced and 36 spontaneous mutantswere found to carry a missense, nonsense, frameshift or splicemutation. Base substitutions were identified in the coding orsplicing sequences of 55 induced and 26 control mutants. Theinduced base changes were mainly G > A transition (40%, Gon non-transcribed strand) followed by A > T transversions(14.5%, A on non-transcribed strand). The control mutants hadsignificantly (P = 0.04) less G > A transition (15.4%) andcompletely lacked A > T transversions. We also identified5'-AGG-3' or 5'-AAG-3' as potential target sequences for AA-inducedG > A transitions. This specific mutational spectrum inducedby AA is consistent with the known formation and persistencyof N²-ethyl-2'-guanosine adduct and with the predominance ofG > A transitions and mutations at A:T base pairs in thep53 gene of esophageal tumors. We conclude that AA may be involvedin the pathogenesis of esophageal cancer.

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