Identification and culture of meniscons, meniscus cells with their pericellular matrix

Background aims: Meniscus injury is highly debilitating and often results in osteoarthritis. Treatment is generally symptomatic; no regenerative treatments are available. “Chondrons,” articular chondrocytes with preserved pericellular matrix, produce more hyaline cartilage extracellular matrix and improve cartilage repair. If meniscons exist in the meniscus and have similar therapeutic potential as chondrons, employing these cells has potential for meniscus cell therapy and tissue engineering. In this study, we isolated and cultured “meniscons,” meniscus cells surrounded by their native pericellular matrix, and investigated cell behavior in culture compared with chondrons. Methods: Human meniscons were enzymatically isolated from osteoarthritic menisci and cultured up to 28 days in fibrin glue. Freshly isolated meniscons and chondrons were analyzed by histology and transmission electron microscopy. We used 5-([4,6-dichlorotriazin-2-yl]amino)fluorescein hydrochloride labeling and type VI collagen immunohistochemistry to image pericellular matrix after 0 and 28 days of culture. Gene expression was quantified using real-time polymerase chain reaction and DNA content and proteoglycan production were analyzed using biochemical assays. Results: Meniscons were successfully isolated from human meniscus tissue. The pericellular matrix of meniscons and chondrons was preserved during 28 days of culture. Meniscons and chondrons had similar cell proliferation and proteoglycan production. Meniscons and chondrons expressed similar levels of collagen type I alpha 1 chain, whereas collagen type II alpha 1 chain and aggrecan expression was lower in the meniscon population. Conclusions: Freshly isolated meniscons and meniscons cultured for 28 days share similarities with chondrons with regard to cell proliferation, morphology and biochemical activity. Rapid isolation of meniscons (45 min) demonstrates potential for one-stage meniscus regeneration and repair, which should be confirmed in vivo.