TRANCE/RANKL knockout mice are protected from bone erosion in a serum transfer model of arthritis

AR Pettit, H Ji, D von Stechow, R Müller… - The American journal of …, 2001 - Elsevier
AR Pettit, H Ji, D von Stechow, R Müller, SR Goldring, Y Choi, C Benoist, EM Gravallese
The American journal of pathology, 2001Elsevier
There is considerable evidence that osteoclasts are involved in the pathogenesis of focal
bone erosion in rheumatoid arthritis. Tumor necrosis factor-related activation-induced
cytokine, also known as receptor activator of nuclear factor-κB ligand (TRANCE/RANKL) is
an essential factor for osteoclast differentiation. In addition to its role in osteoclast
differentiation and activation, TRANCE/RANKL also functions to augment T-cell dendritic cell
cooperative interactions. To further evaluate the role of osteoclasts in focal bone erosion in …
There is considerable evidence that osteoclasts are involved in the pathogenesis of focal bone erosion in rheumatoid arthritis. Tumor necrosis factor-related activation-induced cytokine, also known as receptor activator of nuclear factor-κB ligand (TRANCE/RANKL) is an essential factor for osteoclast differentiation. In addition to its role in osteoclast differentiation and activation, TRANCE/RANKL also functions to augment T-cell dendritic cell cooperative interactions. To further evaluate the role of osteoclasts in focal bone erosion in arthritis, we generated inflammatory arthritis in the TRANCE/RANKL knockout mouse using a serum transfer model that bypasses the requirement for T-cell activation. These animals exhibit an osteopetrotic phenotype characterized by the absence of osteoclasts. Inflammation, measured by clinical signs of arthritis and histopathological scoring, was comparable in wild-type and TRANCE/RANKL knockout mice. Microcomputed tomography and histopathological analysis demonstrated that the degree of bone erosion in TRANCE/RANKL knockout mice was dramatically reduced compared to that seen in control littermate mice. In contrast, cartilage erosion was present in both control littermate and TRANCE/RANKL knockout mice. These results confirm the central role of osteoclasts in the pathogenesis of bone erosion in arthritis and demonstrate distinct mechanisms of cartilage destruction and bone erosion in this animal model of arthritis.
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