1. Academic Validation
  2. The mammalian homolog of suppressor-of-white-apricot regulates alternative mRNA splicing of CD45 exon 4 and fibronectin IIICS

The mammalian homolog of suppressor-of-white-apricot regulates alternative mRNA splicing of CD45 exon 4 and fibronectin IIICS

  • J Biol Chem. 1996 Dec 6;271(49):31106-14. doi: 10.1074/jbc.271.49.31106.
M Sarkissian 1 A Winne R Lafyatis
Affiliations

Affiliation

  • 1 Boston University School of Medicine, The Arthritis Center, Boston, Massachusetts 02118, USA.
Abstract

We have previously described human (HsSWAP) and mouse (MmSWAP) homologs to the Drosophila alternative splicing regulator suppressor-of-white-apricot (su(wa) or DmSWAP). DmSWAP was formally defined as an alternative splicing regulator by studies showing that it autoregulates splicing of its own pre-mRNA. We report here that mammalian SWAP regulates its own splicing, and also the splicing of fibronectin and CD45. Using an in vivo system of Cell Transfection, mammalian SWAP regulated 5' splice site selection in splicing of its own second intron. SWAP enhanced splicing to the distal 5' splice site, whereas the SR protein ASF/SF2 enhanced splicing to the proximal site. SWAP also regulated alternative splicing of the fibronectin IIICS region by promoting exclusion of the entire IIICS region. In contrast, ASF/SF2 stimulated inclusion of the entire IIICS region. Finally, SWAP regulated splicing of CD45 exon 4, promoting exclusion of this exon, an effect also seen with ASF/SF2. Experiments using SWAP deletion mutants showed that splicing regulation of the fibronectin IIICS region and CD45 exon 4 requires a region including a carboxyl-terminal arginine/serine (R/S)-rich motif. Since R/S motifs of various splicing proteins have been shown to interact with each other, these results suggest that the R/S motif in SWAP may regulate splicing, at least in part, through interactions with other R/S containing splicing factors.

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