Muscle-derived stem cells in silk fibroin hydrogels promotes muscle regeneration and angiogenesis in sheep models: an experimental study.

Abstract

Silk fibroin (SF) hydrogels are of high interest in tissue engineering. However, angiogenesis is one of the major challenges in tissue regeneration and repair. In this study, we present a simple and effective method to develop a 1,2-Dimyristoyl-sn-glycero-3-phosphorylglycerol sodium salt (DMPG)-SF hydrogel. The SF hydrogels had no immunogenicity and approached natural tissues. The SF scaffolds were first prepared from Bombyx mori silkworms and DMPG. The SF scaffold was seeded with muscle-derived stem cells derived from sheep embryo and implanted in the tibialis anterior muscle of mature sheep. Gelation time, H&E staining, and histochemistry were conducted and observed. The suitability of the hydrogels for 3D cell culture was assessed by living cell stain CM-Dil. The results showed that the SF hydrogels resembled the mechanical properties of natural soft tissues better. The results of H&E staining and histochemistry revealed that the degradation rate showed an S-type change, and muscle regeneration and angiogenesis were clearly visible. Adverse effects were not observed in the sheep models. DMPG-induced SF hydrogels can be successfully used for in situ cell encapsulation. It provides promising opportunities in biomedical applications, such as in tissue engineering and regeneration.