Silk Fibroin Films with Microscopic Surface Pattern as Promising Cartilage Tissue Engineering Scaffold in Supporting MSCs Amplification and Chondrogenic Differentiation

Abstract

ABSTRACT Mesenchymal stem cells (MSCs) with multipotential differentiation ability are main cell source for cartilage tissue engineering, but its application is restricted by the difficulty in regulating committed chondrogenic differentiation. Study revealed that certain substrate topographic structure can enhance the chondrogenic differentiation of MSCs. This study prepared silk fibroin (SF) films with gradient microscopic surface patterns based on P280-P7000 type specification sandpapers, and investigated the adhesion, proliferation and chondrogenic differentiation of human adipose-derived stem cells (hADSCs) on the SF films. The results showed that the SF films surface had convex dots with diameter of 3–50 μm, and hADSCs could adhere and proliferate well on the film. Transcriptomics analysis indicated that hADSCs tend to differentiate differently on the SF films, among which hADSCs on P1000 SF films had higher expression of chondrogenic markers Sox-9 and Col-II, with activated yes associated protein (YAP) and restricted F-actin. In vitro co-culture of human OA knee cartilage with hADSCs seeded SF films found satisfactory cartilage protection effect in P1000 group. Overall, this study preliminarily revealed the microscopic surface pattern of SF films may induce chondrogenic differentiation of hADSCs through extracellular matrix mediated Hippo/Yap pathway, and provided a new strategy for cartilage repair.