Inhibition of insulin-like growth factor binding protein 5 proteolysis in articular cartilage and joint fluid results in enhanced concentrations of insulin-like growth factor 1 and is associated with improved osteoarthritis.

OBJECTIVE: The complement component C1s is present in dog joint fluid in an activated state. Since C1s degrades insulin-like growth factor binding protein 5 (IGFBP-5), we undertook to determine whether inhibiting C1s in joint fluid would result in an increase in the amount of intact IGFBP-5 and IGF-1 in cartilage and joint fluid, and whether C1s inhibition would be associated with a reduction in cartilage destruction during the development of osteoarthritis (OA). METHODS: Twenty-two dogs were randomized to 3 treatment groups. All dogs underwent anterior cruciate ligament transection and were exercised. Dogs received 1 of 3 treatments: buffer alone (controls; n = 6); PB-145, a peptide derived from the sequence of antithrombin III (n = 9); and pentosan polysulfate (PPS; n = 7). PB-145 or saline was injected into the joint space 3 times per week for 3 weeks. PPS was injected intramuscularly weekly for 3 weeks. RESULTS: Joint histology showed preservation of chondrocytes and a smooth joint surface in the animals treated with PB-145 and PPS. Mankin scoring showed statistically significant reductions in joint destruction with PB-145 and PPS treatments (P < 0.01) compared with buffer control. Mean active collagenase concentrations were decreased by these two treatments. Immunoblotting of joint fluid showed that both treatments increased concentrations of intact IGFBP-5. Direct analysis of IGFBP-3 and IGFBP-5 protease activity showed that IGFBP-5 was degraded more rapidly and that PB-145 and PPS inhibited the degradation of both proteins. Total IGF-1 concentrations in joint fluid were increased 5.6-5.8-fold by these two treatments. Analysis showed that C1s was being activated in joint fluid and that its activation was inhibited by the addition of PB-145 or PPS. CONCLUSION: The findings suggest that direct inhibition of the serine protease C1s results in increased concentrations of intact IGFBP-5 and that proteolysis of IGFBP-3 is also inhibited, probably by the inhibition of some other protease. This increase in concentrations of intact IGFBP-3 and IGFBP-5 leads to an increase in IGF-1 which is associated with an improvement in joint architecture during the development of OA.

Regulation of C1-inhibitor function by binding to type IV collagen and heparin.

Serpins inhibit proteinases by a branched pathway, in which an intermediate serpin-proteinase complex can either form a stable covalent serpin-proteinase complex or produce reactive center cleaved serpin in a substrate reaction. It was tested whether these competing reactions could be regulated for the serpin C1-inhibitor by ligand binding. C1-inhibitor bound to type IV collagen, laminin, and entactin. Type IV collagen (10 microg/ml) caused an increase in the stoichiometry of inhibition for C1s inhibition by C1-inhibitor to 1.48 from 1.09 in the absence of ligand. A dose-dependent increase in the stoichiometry up to 1.27 in the presence of 100 microg/ml heparin was also observed. At low ionic strength the stoichiometry increased to 2.55. These data provide the first report that C1-inhibitor can bind to type IV collagen and also show that C 1-inhibitor can be regulated by ligand binding.