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Identification of a physiologic vasculogenic fibroblast state to achieve tissue repair.

Durba PalSubhadip GhatakKanhaiya SinghAhmed Safwat AbouhashemManishekhar KumarMohamed S El MasrySujit K MohantyRavichand PalakurtiYashika RustagiSaba TabasumDolly K KhonaSavita KhannaSedat KacarRajneesh SrivastavaPramod BhasmeSumit S VermaEdward HernandezAnu SharmaDiamond ReesePriyanka VermaNandini GhoshMahadeo GorainJun WanSheng LiuYunlong LiuNatalia Higuita CastroSurya C GnyawaliWilliam R LawrenceJordan MooreDaniel Gallego PerezSashwati RoyMervin C YoderChandan K Sen
Published in: Nature communications (2023)
Tissue injury to skin diminishes miR-200b in dermal fibroblasts. Fibroblasts are widely reported to directly reprogram into endothelial-like cells and we hypothesized that miR-200b inhibition may cause such changes. We transfected human dermal fibroblasts with anti-miR-200b oligonucleotide, then using single cell RNA sequencing, identified emergence of a vasculogenic subset with a distinct fibroblast transcriptome and demonstrated blood vessel forming function in vivo. Anti-miR-200b delivery to murine injury sites likewise enhanced tissue perfusion, wound closure, and vasculogenic fibroblast contribution to perfused vessels in a FLI1 dependent manner. Vasculogenic fibroblast subset emergence was blunted in delayed healing wounds of diabetic animals but, topical tissue nanotransfection of a single anti-miR-200b oligonucleotide was sufficient to restore FLI1 expression, vasculogenic fibroblast emergence, tissue perfusion, and wound healing. Augmenting a physiologic tissue injury adaptive response mechanism that produces a vasculogenic fibroblast state change opens new avenues for therapeutic tissue vascularization of ischemic wounds.
Keyphrases
  • wound healing
  • single cell
  • endothelial cells
  • gene expression
  • rna seq
  • oxidative stress
  • genome wide
  • induced pluripotent stem cells