Bisphosphonates induce osteoblasts to secrete an inhibitor of osteoclast-mediated resorption.

Abstract

Current knowledge indicates that osteoblasts play an integral role in osteoclastic bone resorption through an osteoclast-stimulating activity produced by osteoblasts in response to resorption-promoting osteotropic factors. Previously, we have shown that the inhibitory action of the bisphosphonates on bone resorption in part is mediated by osteoblasts. The aim of the present study was to investigate whether the bisphosphonate-generated inhibition is due to these compounds decreasing the synthesis of the osteoclast-stimulating activity or is the result of osteoblasts synthesizing an osteoclast resorption inhibitor. Using the osteoblastic cell line CRP 10/30, which produces osteoclast- stimulating activity, constitutively and employing isolated rat osteoclasts cultured on ivory, evidence was obtained indicating that the bisphosphonates ibandronate and alendronate at a concentration of 10(-7) M induce osteoblasts to synthesize an osteoclast inhibitor that reduces pit formation by more than 50%. The inhibitor is heat and proteinase labile and has a molecular mass between 1-10 kDa. The reduction of resorption pits is paralleled by a decrease in tartrate-resistant acid phosphatase-positive mono- and multinucleated cells, whereas the mean area resorbed per pit was not changed, suggesting that the inhibitor affects osteoclast formation and/or survival and probably not the osteoclast resorption activity. Rat preosteoblastic cells and rat dermal fibroblasts were found not to produce the inhibitor. In conclusion, osteoblasts aside from their role of mediating osteoclastic resorption promoters are also involved in inhibiting bone resorption through the synthesis of an osteoclast resorption inhibitor.