Sequential release of transforming growth factor β1 and fibroblast growth factor 2 from nanofibrous scaffolds induces cartilage differentiation of mouse adipose-derived stem cells.

Once damaged, cartilage has poor intrinsic capacity to repair itself. Current cartilage repair strategies cannot restore the damaged tissue sufficiently. It is hypothesized that biomimetic scaffolds, which can recapitulate important properties of the cartilage extracellular matrix, play a beneficial role in supporting cell behaviors such as growth, cartilage differentiation, and integration with native cartilage, ultimately facilitating tissue recovery. Adipose-derived stem cells regenerated cartilage upon the sequential release of transforming growth factor β1(TGFβ1) and fibroblast growth factor 2(FGF2) using a nanofibrous scaffold, in order to get the recovery of functional cartilage. Experiments in vitro have demonstrated that the release sequence of growth factors FGF2 to TGFβ1 is the most essential to promote adipose-derived stem cells into chondrocytes that then synthesize collagen II. Mouse subcutaneous implantation indicated that the treatment sequence of FGF2 to TGFβ1 was able to significantly induce multiple increase in cartilage regeneration in vivo. This result demonstrates that the group treated with FGF2 to TGFβ1 released from a nanofibrous scaffold provides a good strategy for cartilage regeneration by making a favorable microenvironment for cell growth and cartilage regeneration.