A pleiotropic element in the medium-chain acyl coenzyme A dehydrogenase gene promoter mediates transcriptional regulation by multiple nuclear receptor transcription factors and defines novel receptor-DNA binding motifs.

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Mol Cell Biol. 1994 July; 14(7): 4360-4372

A pleiotropic element in the medium-chain acyl coenzyme A dehydrogenase gene promoter mediates transcriptional regulation by multiple nuclear receptor transcription factors and defines novel receptor-DNA binding motifs.

M E Carter, T Gulick, D D Moore and D P Kelly

Department of Medicine, Washington University School of Medicine, St. Louis, Missouri 63110.

ABSTRACT

We previously identified a complex regulatory element in themedium-chain acyl coenzyme A dehydrogenase gene promoter thatconfers transcriptional regulation by the retinoid receptorsRAR and RXR and the orphan nuclear receptor HNF-4. In this studywe demonstrate a trans-repressing regulatory function for theorphan receptor COUP-TF at this same nuclear receptor responseelement (NRRE-1). The transcriptional regulatory propertiesand receptor binding sequences of each nuclear receptor responseelement within NRRE-1 are also characterized. NRRE-1 consistsof four potential nuclear hormone receptor hexamer binding sites,arranged as [<--1-(n)s-2-->-3-->(n)4<--4], threeof which are used in alternative pairwise binding by COUP-TFand HNF-4 homodimers and by RAR-RXR heterodimers, as demonstratedby mobility shift assays and methylation interference analysis.Binding and transactivation studies with mutant NRRE-1 elementsconfirmed the existence of distinct retinoid, COUP-TF, and HNF-4response elements that define novel receptor binding motifs:COUP-TF homodimers bound sites 1 and 3 (two hexamer repeat sequencesarranged as an everted imperfect repeat separated by 14 bp orER14), RAR-RXR heterodimers bound sites 1 and 2 (ER8), and HNF-4homodimers bound sites 2 and 3 (imperfect DR0). Mixing cotransfectionexperiments demonstrated that the nuclear receptor dimers competeat NRRE-1 to modulate constitutive and ligand-mediated transcriptionalactivity. These data suggest a mechanism for the transcriptionalmodulation of genes encoding enzymes involved in cellular metabolism.

Mol Cell Biol. 1994 July; 14(7): 4360-4372

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