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Comparative analysis of ear-hole closure identifies epimorphic regeneration as a discrete trait in mammals.

Thomas R GawrilukJennifer SimkinKatherine L ThompsonShishir K BiswasZak Clare-SalzlerJohn M KimaniStephen G KiamaJeramiah James SmithVanessa O EzenwaAshley W Seifert
Published in: Nature communications (2016)
Why mammals have poor regenerative ability has remained a long-standing question in biology. In regenerating vertebrates, injury can induce a process known as epimorphic regeneration to replace damaged structures. Using a 4-mm ear punch assay across multiple mammalian species, here we show that several Acomys spp. (spiny mice) and Oryctolagus cuniculus completely regenerate tissue, whereas other rodents including MRL/MpJ 'healer' mice heal similar injuries by scarring. We demonstrate ear-hole closure is independent of ear size, and closure rate can be modelled with a cubic function. Cellular and genetic analyses reveal that injury induces blastema formation in Acomys cahirinus. Despite cell cycle re-entry in Mus musculus and A. cahirinus, efficient cell cycle progression and proliferation only occurs in spiny mice. Together, our data unite blastema-mediated regeneration in spiny mice with regeneration in other vertebrates such as salamanders, newts and zebrafish, where all healthy adults regenerate in response to injury.
Keyphrases
  • cell cycle
  • stem cells
  • high fat diet induced
  • cell proliferation
  • genome wide
  • dna methylation
  • wound healing
  • wild type
  • mass spectrometry
  • high resolution
  • high throughput