Matrisomal components involved in regenerative wound healing in axolotl and : implications for biomaterial development.

Achieving regeneration in humans has been a long-standing goal of many researchers. Whereas amphibians like the axolotl () are capable of regenerating whole organs and even limbs, most mammals heal their wounds fibrotic scarring. Recently, the African spiny mouse ( sp.) has been shown to be injury resistant and capable of regenerating several tissue types. A major focal point of research with has been the identification of drivers of regeneration. In this search, the matrisome components related to the extracellular matrix (ECM) are often overlooked. In this review, we compare and axolotl skin wound healing and blastema-mediated regeneration by examining their wound healing responses and comparing the expression pattern of matrisome genes, including glycosaminoglycan (GAG) related genes. The goal of this review is to identify matrisome genes that are upregulated during regeneration and could be potential candidates for inclusion in pro-regenerative biomaterials. Research papers describing transcriptomic or proteomic coverage of either skin regeneration or blastema formation in and axolotl were selected. Matrisome and GAG related genes were extracted from each dataset and the resulting lists of genes were compared. In our analysis, we found several genes that were consistently upregulated, suggesting possible involvement in regenerative processes. Most of the components have been implicated in regulation of cell behavior, extracellular matrix remodeling and wound healing. Incorporation of such pro-regenerative factors into biomaterials may help to shift pro-fibrotic processes to regenerative responses in treated wounds.