OBJECTIVE: Progression of joint damage in osteoarthritis (OA) is likely to result from an imbalance between cartilage degradation and synthesis processes. Markers reflecting these two components appear to be promising in predicting the rate of OA progression. Both N- and C-terminal propeptides of type II collagen reflect the rates of collagen type II synthesis. The ability to quantify the procollagen peptides in biological fluids would enable a better understanding of OA disease pathology and provide means for assessing the proof of mechanism of anabolic disease modifying OA drugs (DMOADs). METHODS: A polyclonal antibody that recognizes the sequence GPKGQKGEPGDIKDI in the propeptide region of rat, dog, and human type II collagen was raised in chicken and peptide-affinity purified. The immunoaffinity liquid chromatography mass spectrometry (LC-MS/MS) was used to extensively characterize N-terminal procollagen type II (NPII) peptides found in biological fluids. The novel competition enzyme-linked immunosorbent assay (ELISA) assay was developed to quantitatively measure the NPII peptides. RESULTS: Several peptides ranging from 17 to 41 amino acids with various modifications including hydroxylations on proline and lysine residues, oxidation of lysines to allysines, and attachments of glucose and galactose moieties to hydroxylysines were identified in a simple system such as ex vivo cultures of human articular cartilage (HAC) explants as well as in more complex biological fluids such as human urine and plasma. A competitive ELISA assay has been developed and applied to urine, plasma, and synovial fluid matrices in human, rat and dog samples. CONCLUSION: A novel NPII assay has been developed and applied to OA and normal human subjects to understand the changes in collagen type II synthesis related to the pathology of OA.
OBJECTIVE: Progression of joint damage in osteoarthritis (OA) is likely to result from an imbalance between cartilage degradation and synthesis processes. Markers reflecting these two components appear to be promising in predicting the rate of OA progression. Both N- and C-terminal propeptides of type II collagen reflect the rates of collagen type II synthesis. The ability to quantify the procollagen peptides in biological fluids would enable a better understanding of OA disease pathology and provide means for assessing the proof of mechanism of anabolic disease modifying OA drugs (DMOADs). METHODS: A polyclonal antibody that recognizes the sequence GPKGQKGEPGDIKDI in the propeptide region of rat, dog, and human type II collagen was raised in chicken and peptide-affinity purified. The immunoaffinity liquid chromatography mass spectrometry (LC-MS/MS) was used to extensively characterize N-terminal procollagen type II (NPII) peptides found in biological fluids. The novel competition enzyme-linked immunosorbent assay (ELISA) assay was developed to quantitatively measure the NPII peptides. RESULTS: Several peptides ranging from 17 to 41 amino acids with various modifications including hydroxylations on proline and lysine residues, oxidation of lysines to allysines, and attachments of glucose and galactose moieties to hydroxylysines were identified in a simple system such as ex vivo cultures of humanarticular cartilage (HAC) explants as well as in more complex biological fluids such as human urine and plasma. A competitive ELISA assay has been developed and applied to urine, plasma, and synovial fluid matrices in human, rat and dog samples. CONCLUSION: A novel NPII assay has been developed and applied to OA and normal human subjects to understand the changes in collagen type II synthesis related to the pathology of OA.
Authors: Elisa Assirelli; Paolo Caravaggi; Antonio Mazzotti; Francesco Ursini; Alberto Leardini; Claudio Belvedere; Simona Neri Journal: Front Bioeng Biotechnol Date: 2022-06-15
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Authors: Wei Lian; Hui Liu; Li Yan Sun; Yun Qi Liu; Si Lu Cui; Yue Wang; Quan Quan Song; Qing Deng; Shao Ping Wang; Yan Hong Cao; Xue Ying Zhang; Yuan Yuan Jiang; Hong Yan Lv; Li Bin Duan; Jun Yu Journal: J Orthop Surg Res Date: 2018-05-29 Impact factor: 2.359
Authors: Christos Papaneophytou; Ana Alabajos-Cea; Enrique Viosca-Herrero; Carme Calvis; Marta Costa; Andreas E Christodoulides; Alexander Kroushovski; Alkis Lapithis; Vaia Maligianni Lapithi; Ioannis Papayiannis; Andreas Christou; Ramon Messeguer; Christoforos Giannaki; Kyriacos Felekkis Journal: BMC Musculoskelet Disord Date: 2022-03-02 Impact factor: 2.362