Abstract
Fibronectin (FN) is a multi-functional, adhesion protein and involved in multi-steps of the wound healing process. Strong evidence suggests that FN protein diversity is controlled by alternative RNA splicing; a coordinated transcription and RNA processing that is development-, age-, and tissue/cell type-regulated. We previously demonstrated that fetal rabbit airway mucosal healing is regenerative and scarless. Expression, regulation, and biological function of the FN gene and various spliced forms in this model are unknown. Airway and skin incisional wounds were made in fetal (gestation days 21-23), weanling (4-6 weeks) and adult (>6 months) rabbits. Non-wounded and wounded tissues were collected at 12 h (all age groups), 24 h and 48 h (weanling only) post-wounding. Expression profiles were obtained using mRNA differential display and cDNAs of interest were cloned, sequenced and validated by real-time PCR. Here, we report two rabbit cDNAs that showed similar expression patterns after wounding. One encodes a rabbit fibronectin gene, Fn1, and another shares a high sequence homology to a human pre-mRNA splicing factor, arginine/serine-rich 3 (Sfrs3), coding for a RNA binding protein, SRp20. Both Fn1 and Sfrs3 mRNAs were suppressed in fetal wounds but induced in postnatal wounds 12 h post-wounding. The increased levels of both Fn1 and Sfrs3 transcripts were sustained up to 48 h in weanling airway mucosal wounds. The augmentations of the two genes in postnatal airway mucosal wounds were more prominent than that in skin wounds, indicating that the involvement of Sfrs3 and Fn1 genes in postnatal airway mucosal wounds is tissue-specific. Literature provides evidence that SRp20 is indeed involved in the alternative splicing of FN and that the embryonic FN variants reappear during adult wound healing. A connection between the enhanced molecular activity of Sfrs3 and the regulation of the FN gene expression through alternative splicing during the early events of postnatal airway mucosal wound repair was proposed.
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More From: Biochimica et Biophysica Acta (BBA) - Molecular Basis of Disease
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