Innovative injectable, self-healing, exosome cross-linked biomimetic hydrogel for cartilage regeneration.

The limited self-healing capacity of cartilage hinders its repair and regeneration at the defect sites. Recent research into small-molecular compounds has shown promise in achieving a better regeneration of cartilage. In this study, we encapsulate kartogenin (KGN) and transforming growth factor β1 (TGF-β1) within mesenchymal stem cells derived exosomes (EKT), and then coated them with succinylated chitosan (sCH) to create positively charged exosomes, termed CEKT. These CEKT exhibit exceptional chondrogenic promoting capabilities shown during in vitro studies with bone marrow derived mesenchymal stem cells (BMSCs). They also can penetrate deep into cartilage tissue derived from porcine knee joints guided by their positive charge. Subsequently, a dynamic exosomes-crosslinked hydrogel (Gel-CEKT) is fabricated by crosslinking CEKT with oxidized chondroitin sulfate (oCS) and Wharton's jelly (WJ) through imine bond formation. Physicochemical studies revealed the injectability, excellent adhesive, and self-healing abilities of this hydrogel, which enables minimally invasive and precise treatment of cartilage defects, assisted by the enriched and sustained administration of CEKT. In vitro cell experiments show that Gel-CEKT can efficiently recruit BMSCs and significantly promote the gene expression of Sox9 and protein expression of collagen II and aggrecan. Furthermore, we show in a rat model of cartilage defect that the Gel-CEKT demonstrates superior performance compared to Gel@EKT, which has freely encapsulated exosomes in the hydrogel. The freely encapsulated exosomes are rapidly released, whereas the exosome-crosslinked gel structure ensures sustained retention and functionality at the site of defect. This leads to impressive outcomings, including extensive new cartilage tissue formation, a smoother cartilage surface, significant chondrocyte production, and seamless integration with orderly and continuous structure formation between cartilage and subchondral bone. This study underscores the potential of exosomes-crosslinked hydrogels as a novel and promising therapeutic approach for clinical cartilage regeneration.