Role of the liver-enriched transcription factor DBP in expression of the cytochrome P450 CYP2C6 gene.

AUTOR(ES)

Yano, M

RESUMO

The CYP2C6 gene becomes maximally transcriptionally activated in livers of postpubertal rats. We examined the role of upstream DNA and liver-specific transcription factors in regulation of this promoter by use of transient transfection of heterologous chloramphenicol acetyltransferase gene constructs and vectors containing cDNAs encoding the liver-enriched transcription factors HNF-1 alpha, C/EBP, and DBP. Only DBP was able to activate the CYP2C6 promoter in HepG2 cells. Transactivation was not observed in one mouse and two human nonhepatic origin cell lines tested. Analysis of various constructs in which CYP2C6 upstream DNA was deleted revealed that DNA between -38 to -103 was involved in DBP-mediated activation. A partially purified preparation of DBP produced a footprint between -43 and -64 bp upstream of the transcription start site. A 32P-labeled double-stranded oligonucleotide, containing sequence information corresponding to -40 to -65, bound to both partially pure DBP and extracts from livers of rats as young as 1 week and as old as 25 weeks of age, as assessed by gel mobility shift analysis. This binding was eliminated by coincubation with excess unlabeled -40/-65 double-stranded oligonucleotide and by an oligonucleotide corresponding to the D site of the rat albumin gene. A gel mobility shift-Western immunoblot analysis revealed that the -40/-65 sequence bound to DBP only in liver nuclear extracts from rats older than 3 weeks; maximal binding was observed by 7 weeks of age, and no binding was detected from 1-week-old rat liver extracts. Interestingly, the DBP-binding regions of both CYP2C6 and albumin bind to C/EBP, but this factor is capable of transactivating only the latter gene. Although the DBP-binding regions in these two genes share no obvious sequence similarities, the CYP2C6 region contains consensus palindromic half sites for DBP-related binding proteins and affinity for recombinant DBP of 17-fold greater than that of the D site of albumin. This difference in affinity is probably responsible for the markedly lower amounts of DBP required for half-maximal activation of the CYP2C6 promoter, as compared with the albumin promoter, in transactivation transfection assays. These data indicate that the CYP2C6 gene may be regulated, at least in part, by DBP, a liver transcription factor produced when rats reach puberty that may also be involved in maintenance of albumin gene transcription.

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