The protein encoded by the wild-type p53 proto-oncogene has been shown to suppress transformation, whereas certain mutations that alter p53 become transformation competent. Fusion proteins between p53 and the GAL4 DNA binding domain were made to anchor p53 to a DNA target sequence and to allow measurement of transcriptional activation of a reporter plasmid. The wildtype p53 stimulated transcription in this assay, but two transforming mutations in p53 were unable to act as transcriptional activators. Therefore, p53 can activate transcription, and transformationactivating mutations result in a loss of function of the p53 protein. The inability of the p53 mutant proteins to activate transcription may enable them to be transformation competent.
Regulatory elements in intron sequences have been identified for several eukaryotic genes. The fourth intron of p53 is known to increase expression of p53 in a position dependent manner. We asked whether p53 intron 4 sequences interacted with DNA binding proteins to exact their effect. Three overlapping DNA fragments spanning the 5' end of p53 intron 4 were determined to specifically interact with protein in nuclear extracts from several cell lines by band shift analysis. Methylation interference experiments were used to identify purine residues involved in this protein-DNA interaction. Two G nucleotides were identified at intron 4 positions 33 and 44 and these were replaced by T and C, respectively. These two single base pair substitutions in the intron resulted in 1) lack of protein binding and 2) decreased expression of p53 as measured by a transformation assay. Thus the binding of protein to p53 intron 4 was shown to have functional significance. These experiments demonstrated a specific protein binding region in the 5' end of intron 4 critical for p53 expression and distinct from those elements already known to be involved in splicing.
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