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Mohawk is a transcription factor that promotes meniscus cell phenotype and tissue repair and reduces osteoarthritis severity

Kwang Lee, Ramya Gamini, Merissa Olmer, Yasunari Ikuta, Joe Hasei, Jihye Baek, O. Alvarez-Garcia, Shawn P. Grogan, Darryl D. DʼLima, Hiroshi Asahara, Andrew I. Su, Martin Lotz

2020Science Translational Medicine48 citationsDOIOpen Access PDF

Abstract

). In mesenchymal stem cells (MSCs), the combination of adenoviral MKX (Ad-MKX) and transforming growth factor-β3 (TGF-β3) induced a meniscus cell phenotype. When Ad-MKX-transduced MSCs were seeded on TGF-β3-conjugated decellularized meniscus scaffold (DMS) and inserted into experimental tears in meniscus explants, they increased glycosaminoglycan content, extracellular matrix interconnectivity, cell infiltration into the DMS, and improved biomechanical properties. Ad-MKX injection into mouse knee joints with experimental OA induced by surgical destabilization of the meniscus suppressed meniscus and cartilage damage, reducing OA severity. Ad-MKX injection into human OA meniscus tissue explants corrected pathogenic gene expression. These results identify MKX as a previously unidentified key transcription factor that regulates the meniscus cell phenotype. The combination of Ad-MKX with TGF-β3 is effective for differentiation of MSCs to a meniscus cell phenotype and useful for meniscus repair. MKX is a promising therapeutic target for meniscus tissue engineering, repair, and prevention of OA.

Topics & Concepts

OsteoarthritisTranscription factorPhenotypeMeniscusMedicineMohawkPathologyBiologyGeneticsGeneIncidence (geometry)PhysicsOpticsPhilosophyAlternative medicineLinguisticsOsteoarthritis Treatment and MechanismsKnee injuries and reconstruction techniquesProtease and Inhibitor Mechanisms
Mohawk is a transcription factor that promotes meniscus cell phenotype and tissue repair and reduces osteoarthritis severity | Litcius