The helix-loop-helix protein rE12 and the C/EBP-related factor rNFIL-6 bind to neighboring sites within the c-fos serum response element - PubMed (original) (raw)

Comparative Study

. 1991 Dec;6(12):2165-78.

Affiliations

• PMID: 1766666

Comparative Study

The helix-loop-helix protein rE12 and the C/EBP-related factor rNFIL-6 bind to neighboring sites within the c-fos serum response element

R Metz et al. Oncogene. 1991 Dec.

Abstract

We show that members of two major families of transcription factors, the helix-loop-helix and C/EBP families, interact with the c-fos serum response element (SRE). Two cDNA clones encoding SRE binding factors (clones 9 and 21) were isolated by the direct screening of a PC12 lambda gt11 cDNA library using SRE oligonucleotide sequences as probes. Clone 9 encodes the rat homolog of the human HLH transcription factor, E12 (called here rE12). Clone 21 encodes a b-zip domain polypeptide that is related to the liver transcription factor C/EBP, and is homologous to the human NFIL-6 transcription factor (called here rNFIL-6). Using in vitro-translated products we show that rNFIL-6 recognizes a 'CCAATT' motif which overlaps the c-fos dyad symmetry element (DSE), the binding site for serum regulatory factor (SRF). Factor rE12 binds to an E-box enhancer sequence, 'CATCTG', immediately adjacent to the rNFIL-6 site, within the SRE. Antibodies specific to rE12 and rNFIL-6 disrupt nucleoprotein complexes with these DNA-binding sites, confirming the interaction of native in vivo factors. We present evidence that rNFIL-6 and SRF binding are mutually exclusive, consistent with the overlap of their binding sites. The demonstration that rE12 and rNFIL-6 bind to the SRE at sites adjacent to the major c-fos regulatory element, the DSE, raises the possibility that helix-loop-helix and C/EBP families regulate the SRE and provide a new basis for the multifunctional properties of the SRE, including possible tissue specificity of expression.

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