Development of a novel clinical biomarker assay to detect and quantify aggrecanase-generated aggrecan fragments in human synovial fluid, serum and urine.

OBJECTIVE: Proteolytic degradation of aggrecan in articular cartilage is a hallmark feature of osteoarthritis (OA). The present study was aimed at developing a sensitive enzyme linked immunosorbent assay (ELISA) for the detection of aggrecanase-cleaved fragments of aggrecan in human serum and urine to facilitate the clinical development of aggrecanase inhibitors for OA. METHODS: The BC3 monoclonal antibody that detects the ARGS neoepitope sequence in aggrecanase-cleaved aggrecan was engineered and optimized using complementarity determining region (CDR)-saturation mutagenesis to improve its binding affinity to the neoepitope. A sandwich ELISA (BC3-C2 ELISA) was developed using the optimized alpha-ARGS antibody (BC3-C2) as capture antibody and a commercially available antibody directed against the hyaluronic-acid binding region (HABR) of aggrecan as detection antibody. Aggrecanase-cleaved fragments of aggrecan present in in vitro digests, human cartilage explant culture supernatants and in human synovial fluid, serum and urine were detected and quantified using this ELISA. RESULTS: The optimized antibody had a 4-log improvement in affinity for the ARGS containing peptide compared to the parental BC3 antibody, while maintaining the ability to not cross-react with a spanning peptide. The BC3-C2 ELISA demonstrated the ability to detect aggrecanase-cleaved aggrecan fragments in the native state, without the need for deglycosylation. This ELISA was able to measure aggrecanase-generated ARGS containing aggrecan fragments in human articular cartilage (HAC) explant cultures in the basal state (without cytokine stimulation). Treatment with an aggrecanase inhibitor resulted in a dose-dependent inhibition of ARGS neoepitope released into the culture supernatant. The ELISA assay also enabled the detection of ARGS containing fragments in human synovial fluid, serum and urine, suggesting its potential utility as a biomarker of aggrecanase activity. CONCLUSIONS: We have developed a novel ELISA using an optimized ARGS antibody and have demonstrated for the first time, an ELISA-based measurement of aggrecan degradation products in human serum and urine. This assay has the potential to serve as a mechanistic drug activity biomarker in the clinic and is expected to significantly impact/accelerate the clinical development of aggrecanase inhibitors and other disease modifying drugs for OA.

Selective recognition and cleavage of RNA loop structures by Ni(II).Xaa-Gly-His metallopeptides.

The recognition and cleavage of tRNAPhe and the TAR RNA of HIV-1 by metallopeptides of the general form Ni(II).Xaa-Gly-His (where Xaa is Gly, Lys, or Arg) were investigated. The results of RNA cleavage analyses suggest that KHSO5- or magnesium monoperoxyphthalate-activated metallopeptides (1) induce nucleobase damage which requires aniline acetate for complete RNA strand scission and (2) selectively target the loops of stem-loop structures of the above-named substrates. In targeting RNA loop regions, the metallopeptides may be sensitive to intraloop structural features, including the overall structural environment of the loop itself and possibly the presence of intraloop hydrogen bonding. Overall, these results suggest that the metallopeptides interact selectively within a loop, in a fashion reminiscent of many RNA binding proteins, instead of targeting RNA single-stranded character alone. These observations further suggest a possible metallopeptide-based strategy for the molecular recognition of native RNA structures and insight with regard to the general features available for ligand binding site discrimination.