Title: New serum biochemical markers (Coll 2-1 and Coll 2-1 NO2) for studying oxidative-related type II collagen network degradation in patients with osteoarthritis and rheumatoid arthritis
Abstract: ObjectiveProtein nitration is a prominent feature of inflammatory processes in the joint. We have developed immunoassays specific for a peptide of the α-helical region of type II collagen 108HRGYPGLDG116 (Coll 2-1) and its nitrated form 108HRGY(NO2)PGLDG116 (Coll 2-1 NO2) in biological fluids.DesignColl 2-1 and Coll 2-1 NO2 peptides were injected into rabbits. Two antisera (D3 and D37) were selected for their specificity and affinity and used to develop specific immunoassays. Coll 2-1 and Coll 2-1 NO2 were measured in sera of 242 healthy subjects (N), 67 patients with primary knee osteoarthritis (OA) and 19 patients with rheumatoid arthritis (RA).ResultsIn healthy subjects, Coll 2-1 and Coll 2-1 NO2 concentrations were 125.13±3.71 nM and 0.16±0.08 nM, respectively. In OA and RA, Coll 2-1 and Coll 2-1 NO2 serum levels were found to be significantly increased compared to controls of the same range of age (Coll 2-1: OA: 200.80±8.98 nM, RA: 172.30±19.05 nM, normal: 126.60±6.70 nM and Coll 2-1 NO2: OA: 0.26±0.02, RA: 0.38±0.05, normal: 0.12±0.01 nM). Coll 2-1 NO2 levels were significantly more elevated in RA than in OA patients (P<0.05). As a consequence, the ratio Coll 2-1 NO2/Coll 2-1 was 1.6 times higher in RA than in OA subjects. No relationship was found between the radiological OA severity and the levels of Coll 2-1 and Coll 2-1 NO2 in serum. Coll 2-1 NO2, but not Coll 2-1, was correlated with C-reactive protein in the sera of OA and RA patients.ConclusionsThe determination of both Coll 2-1 and Coll 2-1 NO2 in serum of arthritic patients seems to be a promising useful tool for the detection of oxidative-related cartilage degradation episode. Further, these markers could be helpful for monitoring the effects of anti-inflammatory or antioxidant drugs on cartilage degradation.