期刊
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
卷 113, 期 41, 页码 E6199-E6208出版社
NATL ACAD SCIENCES
DOI: 10.1073/pnas.1608245113
关键词
posttraumatic osteoarthritis; nanomedicine; siRNA; NF-kappa B; autophagy
资金
- NIH [R01AR067491, R01HL073646, R01DK102691, P30AR057235, K99 AR064837, F32 AR064667]
Osteoarthritis (OA) is a major cause of disability and morbidity in the aging population. Joint injury leads to cartilage damage, a known determinant for subsequent development of posttraumatic OA, which accounts for 12% of all OA. Understanding the early molecular and cellular responses postinjury may provide targets for therapeutic interventions that limit articular degeneration. Using a murine model of controlled knee joint impact injury that allows the examination of cartilage responses to injury at specific time points, we show that intraarticular delivery of a peptidic nanoparticle complexed to NF-kappa B siRNA significantly reduces early chondrocyte apoptosis and reactive synovitis. Our data suggest that NF-kappa B siRNA nanotherapy maintains cartilage homeostasis by enhancing AMPK signaling while suppressing mTORC1 and Wnt/beta-catenin activity. These findings delineate an extensive crosstalk between NF-kappa B and signaling pathways that govern cartilage responses postinjury and suggest that delivery of NF-kappa B siRNA nanotherapy to attenuate early inflammation may limit the chronic consequences of joint injury. Therapeutic benefits of siRNA nanotherapy may also apply to primary OA in which NF-kappa B activation mediates chondrocyte catabolic responses. Additionally, a critical barrier to the successful development of OA treatment includes ineffective delivery of therapeutic agents to the resident chondrocytes in the avascular cartilage. Here, we show that the peptide-siRNA nano-complexes are nonimmunogenic, are freely and deeply penetrant to human OA cartilage, and persist in chondrocyte lacunae for at least 2 wk. The peptide-siRNA platform thus provides a clinically relevant and promising approach to overcoming the obstacles of drug delivery to the highly inaccessible chondrocytes.
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