Abstract
BackgroundEarly- to mid-gestational fetal mammalian skin wounds heal rapidly and without scarring. Keratinocytes (KCs) have been found to exert important effects on the regulation of fibroblasts. There may be significant differences of gestational fetal KCs at different ages. The advantages in early- to mid-gestational fetal KCs could lead to fetal scarless wound healing.MethodsKCs from six human fetal skin samples were divided into two groups: a mid-gestation group (less than 28 weeks of gestational age) and a late-gestation group (more than 28 weeks of gestational age). RNA extracted from KCs was used to prepare a library of small RNAs for next-generation sequencing (NGS). To uncover potential novel microRNA (miRNAs), the mirTools 2.0 web server was used to identify candidate novel human miRNAs from the NGS data. Other bioinformatical analyses were used to further validate the novel miRNAs. The expression levels of the miRNAs were further confirmed by real-time quantitative RT-PCR.ResultsA total of 61.59 million reads were mapped to 1,170 known human miRNAs in miRBase. Among a total of 202 potential novel miRNAs uncovered, 106 candidates have a higher probability of being novel human miRNAs. A total of 110 miRNAs, including 22 novel miRNA candidates, were significantly differently expressed between mid- and late-gestational fetal KCs. Thirty-three differentially expressed miRNAs and miR-34 family members are correlated with the transforming growth factor-β (TGF-β) pathway.ConclusionsTaken together, our results provide compelling evidence supporting the existence of 106 novel miRNAs and the dynamic expression of miRNAs that extensively targets the TGF-β pathway at different gestational ages in fetal KCs. MiRNAs showing altered expression at different gestational ages in fetal KCs may contribute to scarless wound healing in early- to mid-gestational fetal KCs, and thus may be new targets for potential scar prevention and reduction therapies.
Highlights
Scarless wound repair has been studied in numerous cases of fetal mammalian cutaneous wound healing
Our results provide compelling evidence supporting the existence of 106 novel miRNAs and the dynamic expression of miRNAs that extensively targets the transforming growth factor-β (TGF-β) pathway at different gestational ages in fetal KCs
MiRNAs showing altered expression at different gestational ages in fetal KCs may contribute to scarless wound healing in early- to mid-gestational fetal KCs, and may be new targets for potential scar prevention and reduction therapies
Summary
Scarless wound repair has been studied in numerous cases of fetal mammalian cutaneous wound healing. Early- to mid-gestational fetal mammalian skin wounds heal rapidly and without scarring and inflammation [1, 2, 3]. Fetal skin changes its response to injury from regeneration to the adult response of fibrosis, which leads to scar formation. It is paramount to investigate the mechanism of scarless wound healing so as to translate it into clinical practice for both the development and application of novel therapeutic strategies against scar formation [4]. Many lines of evidence suggest that fibroblasts (FBs) play major roles in fetal cutaneous regeneration. Early- to mid-gestational fetal mammalian skin wounds heal rapidly and without scarring. The advantages in early- to mid-gestational fetal KCs could lead to fetal scarless wound healing
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