Understanding RNA Binding by the Nonclassical Zinc Finger Protein CPSF30, a Key Factor in Polyadenylation during Pre-mRNA Processing.

Abstract

Cleavage and polyadenylation specificity factor 30 (CPSF30) is a zinc finger protein that regulates pre-mRNA processing. CPSF30 contains five CCCH domains and one CCHC domain and recognizes two conserved 3 pre-mRNA sequences: an AU hexamer and a U-rich motif. AU hexamer motifs are common in pre-mRNAs and are typically defined as AAUAAA. Variations within the AAUAAA hexamer occur in certain pre-mRNAs and can affect polyadenylation efficiency or be linked to diseases. The effects of disease-related variations on CPSF30/pre-mRNA binding were determined using a construct of CPSF30 that contains just the five CCCH domains (CPSF30-5F). Bioinformatics was utilized to identify the variability within the AU hexamer sequence in pre-mRNAs. The effects of this sequence variability on CPSF30-5F/RNA binding affinities were measured. Bases at positions 1, 2, 4, and 5 within the AU hexamer were found to be important for RNA binding. Bioinformatics revealed that the three bases flanking the AU hexamer at the 5 and 3 ends are twice as likely to be adenine or uracil as guanine and cytosine. The presence of A and U residues in these flanking regions was determined to promote higher-affinity CPSF30-5F/RNA binding than G and C residues. The addition of the zinc knuckle domain to CPSF30-5F (CPSF30-FL) restored binding to AU hexamer variants. This restoration of binding is connected to the presence of a U-rich sequence within the pre-mRNA to which the zinc knuckle binds. A mechanism of differential RNA binding by CPSF30, modulated by accessibility of the two RNA binding sites, is proposed.