Prostaglandin E(2) (PGE(2)) enhances osteoclast formation in mouse macrophage cultures treated with receptor activator of nuclear factor-kappaB ligand (RANKL). The effects of PGE(2) on human osteoclast formation were examined in cultures of CD14(+) cells prepared from human peripheral blood mononuclear cells. CD14(+) cells differentiated into osteoclasts in the presence of RANKL and macrophage colony-stimulating factor. CD14(+) cells expressed EP2 and EP4, but not EP1 or EP3, whereas CD14(+) cell-derived osteoclasts expressed none of the PGE(2) receptors. PGE(2) and PGE(1) alcohol (an EP2/4 agonist) stimulated cAMP production in CD14(+) cells. In contrast to mouse macrophage cultures, PGE(2) and PGE(1) alcohol inhibited RANKL-induced human osteoclast formation in CD14(+) cell cultures. H-89 blocked the inhibitory effect of PGE(2) on human osteoclast formation. These results suggest that the inhibitory effect of PGE(2) on human osteoclast formation is mediated by EP2/EP4 signals. SaOS4/3 cells have been shown to support human osteoclast formation in cocultures with human peripheral blood mononuclear cells in response to PTH. PGE(2) inhibited PTH-induced osteoclast formation in cocultures of SaOS4/3 cells and CD14(+) cells. Conversely, NS398 (a cyclooxygenase 2 inhibitor) enhanced osteoclast formation induced by PTH in the cocultures. The conditioned medium of CD14(+) cells pretreated with PGE(2) inhibited RANKL-induced osteoclast formation not only in human CD14(+) cell cultures, but also in mouse macrophage cultures. These results suggest that PGE(2) inhibits human osteoclast formation through the production of an inhibitory factor(s) for osteoclastogenesis of osteoclast precursors.
Prostaglandin E 2 (PGE 2 ) has been proposed to be a potent stimulator of bone resorption. However, PGE 2 itself has been shown to directly inhibit bone-resorbing activity of osteoclasts. We examined the role of PGE 2 in the function of mouse osteoclasts formed in vitro. Bone marrow macrophage osteoclast precursors expressed PGE 2 receptors EP1, EP2, EP3, and EP4, and the expression of EP2 and EP4 was down-regulated during osteoclastic differentiation induced by receptor activator of NF-B ligand and macrophage colony-stimulating factor. In contrast, functional EP1 was continuously expressed in mature osteoclasts. PGE 2 as well as calcitonin caused intracellular Ca 2؉ influx in osteoclasts. However, PGE 2 and 17-phenyltrinol-PGE 2 (an EP1 agonist) failed to inhibit actin-ring formation and pit formation by osteoclasts cultured on dentine slices. When EP4 was expressed in osteoclasts using an adenovirus carrying EP4 cDNA, both actin-ring and pit-forming activities of osteoclasts were inhibited in an infectious unit-dependent manner. Treatment of EP4-expressing osteoclasts with PGE 2 further inhibited their actin-ring and pitforming activities. Such inhibitory effects of EP4-mediated signals on osteoclast function are similar to those that are calcitonin receptor-mediated. Thus, osteoclast precursors down-regulate their own EP2 and EP4 levels during their differentiation into osteoclasts to escape inhibitory effects of PGE 2 on bone resorption.
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