Human mesenchymal stem cells/multipotent stromal cells (MSCs) hold great promise in aiding wound healing through their ability to modulate all phases of repair and regeneration, most notably their secretion of pro-regenerative paracrine factors. However, MSC clinical utility is hindered by poor survival rates post-transplantation due to the harsh microenvironment in injured tissue. Previous work has shown that the matricellular protein Tenascin-C (TNC) provides survival signaling to MSCs via the epidermal growth factor receptor by restricting its activation at the plasma membrane, resulting in enhanced prosurvival signals. Herein, we investigate how TNC influences MSC survival and MSC-mediated promotion of the wound healing process. This study examined the survival and angiogenic potential of MSCs cultured on TNC-coated surfaces under ischemic duress in vitro. We also assessed the angiogenic and wound healing outcomes of MSC + TNC in vivo using a CXCR3-/- mouse model that exhibits a delayed healing phenotype within the tissue replacement phase of repair. We found that MSCs in the presence of TNC exhibit higher levels of angiogenic-promoting processes, collagen maturation, and an overall better wound healing outcome than MSCs administered alone. This was seen in vitro in terms of enhanced tube formation. In vivo, the MSCs in the presence of TNC stabilized with a coacervate delivery system resulted in more regenerative wounds with accelerated maturation of the dermis. These findings suggest the coupling of TNC to MSCs as a promising tool for future MSC-ECM combinatorial therapies for wound healing applications.
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