Degradation of Proteoglycans and Collagen in Equine Meniscal Tissues.
Julia DubucMelodie Jil SchneiderValerie DubucHélène RichardMaxime PinsardStéphane BancelinFrancois LegareChristiane GirardSheila LavertyPublished in: International journal of molecular sciences (2024)
Investigate meniscal extracellular matrix degradation. Equine menisci ( n = 34 from 17 horses) were studied. Site-matched sections were cut and scored from three regions (ROIs; n = 102) and stained for histology, proteoglycan (safranin O and fast green), aggrecan, and collagen cleavage (NITEGE, DIPEN, and C1,2C antibodies, respectively). Picrosirius red and second harmonic generation microscopy were performed to investigate collagen ultrastructure. A total of 42 ROIs met the inclusion criteria and were included in the final analysis. The median (range) ROI histological score was 3 (0-9), providing a large spectrum of pathology. The median (range) proteoglycan score was 1 (0-3), representing superficial and central meniscal loss. The median (range) of DIPEN, NITEGE, and C1,2C scores was 1 (0-3), revealing immunostaining of the femoral and tibial surfaces. The proteoglycan scores exhibited significant positive associations with both histologic evaluation ( p = 0.03) and DIPEN scores ( p = 0.02). Additionally, a robust positive association ( p = 0.007) was observed between the two aggrecanolysis indicators, NITEGE and DIPEN scores. A negative association ( p = 0.008) was identified between NITEGE and histological scores. The C1,2C scores were not associated with any other scores. Picrosirius red and second harmonic generation microscopy (SHGM) illustrated the loss of the collagen matrix and structure centrally. Proteoglycan and collagen degradation commonly occur superficially in menisci and less frequently centrally. The identification of central meniscal proteoglycan and collagen degradation provides novel insight into central meniscal degeneration. However, further research is needed to elucidate the etiology and sequence of degradative events.