Co-delivery of IL-1Ra and SOX9 via AAV inhibits inflammation and promotes cartilage repair in surgically induced osteoarthritis animal models.

Abstract

Osteoarthritis (OA), a prevalent joint disorder, can lead to disability, with no effective treatment available. Interleukin-1 (IL-1) plays a crucial role in the progression of OA, and its receptor antagonist (IL-1Ra), a natural IL-1 inhibitor, represents a promising therapeutic target by obstructing the IL-1 signaling pathway. This study delivered IL-1Ra via adeno-associated virus (AAV), a gene therapy vector enabling long-term protein expression, to treat knee osteoarthritis (KOA) in animal models. scAAV-oIL-1Ra-I1/2 injected directly into the joint in both MMT/ACLT-induced KOA model rat improved abnormal gait (increasing footprint area and pressure), subchondral bone lesions, and significantly reduced cartilage wear and pathological scores. In the MMT-induced KOA rabbit model, weight-bearing asymmetry (indicating pain) improved after 8 weeks of scAAV-oIL-1Ra-I1/2 administration, and X-ray showed decreased K-L scores (severity grade), reduced cartilage loss, and lower pathology scores compared to untreated animals. Additionally, sex-determining region Y-type high mobility group box 9 (SOX9) was co-delivered with IL-1Ra via AAV in ACLT + MMT-induced KOA rats. The combined treatment significantly alleviated subchondral bone lesions, cartilage destruction, synovial inflammation, and pathological scores, demonstrating superior efficacy compared to either treatment administered alone. Co-delivering IL-1Ra and SOX9 inhibited IL-1 mediated inflammatory signaling, maintained cartilage homeostasis, and promoted its repair in KOA models, suggesting potential for clinical use.