U-rich sequence-binding proteins (URBPs) interacting with a 20-nucleotide U-rich sequence in the 3' untranslated region of c-fos mRNA may be involved in the first step of c-fos mRNA degradation.

AUTOR(ES)

You, Y

RESUMO

Rapid decay of the c-fos transcript plays a critical role in controlling transforming potential of the c-fos proto-oncogene. One of the mRNA instability determinants is a 75-nucleotide AU-rich element (ARE) present in the 3' untranslated region of the c-fos transcript. It appears to control two steps in the process of c-fos mRNA degradation: removal of the poly(A) tail, which does not require the AUUUA motifs, and subsequent degradation of deadenylated mRNA, which appears to be dependent on the AUUUA motifs. In this study, we report the identification of four U-rich sequence binding proteins (URBPs) that specifically interact with a 20-nucleotide U-rich sequence within the c-fos ARE. Gel mobility shift assay and competition experiments showed that these protein factors form three specific band-shifted complexes with the c-fos ARE. Binding activity of one of the protein factors, a 37-kDa protein, is significantly affected by serum induction and by pretreatment of cells with drugs known to stabilize many of the immediate-early gene mRNAs. Combining UV cross-linking with a new approach, designated sequential RNase digestion, we were able to better determine the molecular masses of these cellular proteins. The binding sites for the four proteins were all mapped to a 20-nucleotide U-rich sequence located at the 3' half of the c-fos ARE, which contains no AUUUA pentanucleotides but stretches of uridylate residues. Single U-to-A point mutations in each of the three AUUUA motifs within the c-fos ARE have little effect on formation of the mobility-shifted complexes. Our data indicate c-fos ARE-protein interaction involves recognition of U stretches rather than recognition of the AUUUA motifs. We propose that UTBP binding may be involved in the first step, removal of the Poly(A) tail, in the c-fos ARE-mediated decay pathway.

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