Partial characterization of the human CYP1A1 negatively acting transcription factor and mutational analysis of its cognate DNA recognition sequence.

AUTOR(ES)

Boucher, P D

RESUMO

Previous studies in our laboratory identified a negative regulatory domain in the 5'-flanking region of the human CYP1A1 gene containing two negative regulatory elements (NRE). Characterization of one of these elements revealed three nuclear protein binding regions: a 21-bp palindrome with a point of symmetry at -784 and two guanine- and cytosine-rich elements that flank the palindrome. Functional studies suggested the palindrome is critical for transcriptional repression, whereas the guanine- and cytosine-rich sequences play a secondary role. In this study, the interaction between nuclear proteins and the CYP1A1 NRE was further defined. Electrophoretic mobility shift assays (EMSA) indicated that the NRE -784 palindrome alone, but not the guanine- and cytosine-rich sequences minus the palindrome, was capable of specific nuclear protein binding. Competitive cotransfection experiments confirmed this observation in intact cells. Specific residues important for DNA-protein interactions were identified by site-directed mutagenesis and competitive EMSA. The loss of specific protein binding was also correlated with the loss of negative regulatory activity in a transient-expression assay. Finally, competitive EMSA was performed with consensus oligonucleotides for known transcription factors. An NF-Y consensus sequence efficiently competed with the NRE probe for specific nuclear protein binding. EMSA supershift analyses indicate that a protein immunologically related to NF-YB is part of the specific nuclear protein complex binding the human CYP1A1 NRE. These studies have refined our understanding of the sequences critical for the transcriptional repression of human CYP1A1. To our knowledge, this is also the first report implicating a member of the NF-Y transcription factor family in negative gene regulation.

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