Abstract
Osteoporosis morphology is characterized by bone resorption and decreases in micro-architecture parameters. Anti-osteoporosis therapy targets osteoclasts because bone resorption is a unique function of osteoclasts. Anti-c-fms antibodies against the receptor for macrophage colony-stimulating factor (M-CSF) inhibit osteoclast formation and bone resorption in vitro and in vivo. However, the effect of anti-c-fms antibodies on bone resorption in ovariectomized (OVX) mice is unknown. In this study, we evaluated the effect of anti-c-fms antibodies on osteoclast formation and bone resorption in osteoblast–osteoclast precursor co-culture in vitro and in OVX mice. Osteoblast and osteoclast precursor co-cultures treated with anti-c-fms antibodies showed significantly inhibited osteoclast formation, while cultures without anti-c-fms antibody treatment showed osteoclast formation. However, anti-c-fms antibodies did not change the receptor activator of nuclear factor kappa-B ligand (RANKL) or osteoprotegrin (OPG) expression during osteoblast and osteoclast differentiation in vitro. These results indicate that anti-c-fms antibodies directly affected osteoclast formation from osteoclast precursors in co-culture. OVX mice were treated with intraperitoneal injections of anti-c-fms antibody. The trabecular bone structure of the femur was assessed by micro-computer tomography. The anti-c-fms antibody inhibited osteoclast formation and bone loss compared with PBS-treated OVX mice. These results indicate potential for the therapeutic application of anti-c-fms antibodies for postmenopausal osteoporosis.
Highlights
Osteoporosis is a bone degradation disease, predominantly of postmenopausal women, that occurs worldwide [1]
We investigated whether anti-c-fms antibodies inhibit osteoclast formation in an osteoblast– osteoclast co-culture system
We showed the effect of anti-c-fms antibodies on osteoclast formation and bone resorption in osteoblast–osteoclast precursor co-culture and in OVX mice
Summary
Osteoporosis is a bone degradation disease, predominantly of postmenopausal women, that occurs worldwide [1]. Postmenopausal osteoporosis is a metabolic disease that causes decreasing bone mass and bone mineral density, and increased skeletal fragility and fracture risk as a result of hormone changes with age that increase osteoclast bone resorption [3,4,5]. Current treatments for osteoporosis include calcium, vitamin D, bisphosphonates, teriparatide, parathyroid hormone, denosumab and selective estrogen receptor modulators [6]. These treatments often have side effects and their therapeutic effects are less than ideal [7]. We aim to find new treatments and to develop drugs for the prevention and treatment of postmenopausal osteoporosis
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