D Guo1, L Ding, G A Homandberg. 1. Department of Biochemistry and Molecular Biology, University of North Dakota School of Medicine and Health Sciences, Grand Forks, 58202, USA.
Abstract
OBJECTIVE AND DESIGN: We hypothesize that N-telopeptide (NT) and C-telopeptides (CT) of type II collagen can enhance proteinases and cause cartilage damage and have compared damaging activities to an extensively characterized potent fibronectin fragment (Fn-f). MATERIALS: NT and CT peptides were synthesized. METHODS: Interaction of labeled peptides with chondrocytes was studied by fluorescence microscopy. Effects on the metalloproteinases (MMPs) MMP-3 and MMP-13 and on ADAMTS-5 were analyzed by western blotting. Cartilage damage was assayed by loss of proteoglycan (PG) from cultured explants. RESULTS: NT and CT peptides penetrated cartilage, bound to chondrocytes and enhanced proteinase release and cartilage PG depletion. Peptides had detectable activity at 0.3 microM (1 microg/ml) and were comparable at 30 microM (100 microg/ml) to 1 microM Fn-f (29 microg/ml). However, while the Fn-f enhanced IL-1beta and TNF-alpha, the NT and CT peptides did not. CONCLUSIONS: Collagen peptides containing NT and CT regions were less active on a molar basis than Fn-fs but were still potent damaging agents. Since collagen fragments are found in OA cartilage at microg/ml, they have the potential to play a role in physiologic cartilage damage.
OBJECTIVE AND DESIGN: We hypothesize that N-telopeptide (NT) and C-telopeptides (CT) of type II collagen can enhance proteinases and cause cartilage damage and have compared damaging activities to an extensively characterized potent fibronectin fragment (Fn-f). MATERIALS: NT and CT peptides were synthesized. METHODS: Interaction of labeled peptides with chondrocytes was studied by fluorescence microscopy. Effects on the metalloproteinases (MMPs) MMP-3 and MMP-13 and on ADAMTS-5 were analyzed by western blotting. Cartilage damage was assayed by loss of proteoglycan (PG) from cultured explants. RESULTS: NT and CT peptides penetrated cartilage, bound to chondrocytes and enhanced proteinase release and cartilage PG depletion. Peptides had detectable activity at 0.3 microM (1 microg/ml) and were comparable at 30 microM (100 microg/ml) to 1 microM Fn-f (29 microg/ml). However, while the Fn-f enhanced IL-1beta and TNF-alpha, the NT and CT peptides did not. CONCLUSIONS: Collagen peptides containing NT and CT regions were less active on a molar basis than Fn-fs but were still potent damaging agents. Since collagen fragments are found in OA cartilage at microg/ml, they have the potential to play a role in physiologic cartilage damage.
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