Dexamethasone inhibits bone resorption by indirectly inducing apoptosis of the bone-resorbing osteoclasts via the action of osteoblastic cells.

Abstract

Although glucocorticoids (GCs) are physiologically essentialfor bone metabolism, it is generally accepted that high dosesof GCs cause bone loss through a combination of decreased boneformation and increased bone resorption. However, the actionof GCs on mature osteoclasts remains contradictory. In thisstudy, we have examined the effect of GCs on osteoclasticbone-resorbing activity and osteoclast apoptosis, by using twodifferent cell types, rabbit unfractionated bone cells andhighly enriched mature osteoclasts (>95% of purity).Dexamethasone (Dex, 10(-10)-10(-7) M) inhibited resorption pit formation on a dentine slice by the unfractionated bone cells in a dose- and time-dependent manner.However, Dex had no effect on the bone-resorbing activity of the isolated mature osteoclasts. When the isolated osteoclastswere co-cultured with rabbit osteoblastic cells, the osteoclastic bone resorption decreased in response to Dex,dependent on the number of osteoblastic cells. Like the effecton the bone resorption, Dex induced osteoclast apoptosis in cultures of the unfractionated bone cells, whereas it did not promote the apoptosis of the isolated osteoclasts. An inhibitorof caspases, Z-Asp-CH2-DCB attenuated both the inhibitory effecton osteoclastic bone resorption and the stimulatory effect onthe osteoclast apoptosis. In addition, the osteoblastic cellswere required for the osteoclast apoptosis induced by Dex. These findings indicate that the main target cells of GCs arenon-osteoclastic cells such as osteoblasts and that GCsindirectly inhibit bone resorption by inducing apoptosis ofthe mature osteoclasts through the action of non-osteoclasticcells. This study expands our knowledge about the multifunctional roles of GCs in bone metabolism.