Repression of α-actinin SM exon splicing by assisted binding of PTB to the polypyrimidine tract

Abstract

Polypyrimidine tract binding protein (PTB) acts as a regulatory repressor of a large number of alternatively spliced exons, often requiring multiple binding sites in order to repress splicing. In one case, cooperative binding of PTB has been shown to accompany repression. The SM exon of the α-actinin pre-mRNA is also repressed by PTB, leading to inclusion of the alternative upstream NM exon. The SM exon has a distant branch point located 386 nt upstream of the exon with an adjacent 26 nucleotide pyrimidine tract. Here we have analyzed PTB binding to the NM and SM exon region of the α-actinin pre-mRNA. We find that three regions of the intron bind PTB, including the 3′ end of the polypyrimidine tract (PPT) and two additional regions between the PPT and the SM exon. The downstream PTB binding sites are essential for full repression and promote binding of PTB to the PPT with a consequent reduction in U2AF⁶⁵ binding. Our results are consistent with a repressive mechanism in which cooperative binding of PTB to the PPT competes with binding of U2AF⁶⁵, thereby specifically blocking splicing of the SM exon.

Keywords

• PTB
• alternative splicing
• hnRNP
• pre-mRNA splicing