Declining estrogen levels during the first postmenopausal decade lead to rapid bone loss and increased fracture risk that can be reversed by estrogen replacement therapy. The bone-protective effects of estrogen may involve suppression of inflammatory cytokines that promote osteoclastogenesis and bone resorption, such as IL-1, TNF-α, and IL-6. We investigated whether estrogen modulates IL-1 actions on human osteoclasts (OCs) and other bone cell types. Isolated human OCs and primary bone marrow-derived OC-like cells expressed both the signaling (IL-1RI) and decoy (IL-1RII) IL-1 receptors, whereas only IL-1RI was detected in osteoblasts. IL-1RII/IL-1RI mRNA ratios and release of soluble IL-1RII (sIL-1RII) were lower in OC-like cells derived from women in the late postmenopausal period compared with younger women, but were unrelated to male donor age, suggesting that estrogen might play a role in regulating IL-1 receptor levels in vivo. Estrogen directly reduced in vitro OC-like cell IL-1RI mRNA levels while increasing IL-1RII mRNA levels and sIL-1RII release. These estrogenic events were associated with inhibited IL-1-mediated cytokine (IL-8) mRNA induction and cell survival, i.e., increased apoptosis. In contrast, estrogen did not alter IL-1R levels or IL-1 responsiveness in primary human osteoblasts or bone marrow stromal cells. We conclude that one novel mechanism by which estrogen exerts bone-protective effects may include a selective modulation of IL-1R isoform levels in OC or OC-like cells, thereby reducing their IL-1 responsiveness and cell survival. Conversely, this restraint on IL-1 actions may be lost as estrogen levels decline in aging women, contributing to an enhanced OC-mediated postmenopausal bone loss. IL-1 is a potent in vivo and in vitro stimulator of bone resorption owing to its promotion of OC differentiation, OC-resorptive activity (34,35), and OC cell survival (36,37). It has been postulated that IL-1 acts indirectly on OCs through the release of soluble factor(s) from osteoblasts and other marrow cells (38). For example, high-affinity binding of IL-1 to IL-1 signaling receptors expressed on osteoblasts leads to a paracrine modulation of OC development and activity (34). However, some evidence also exists for a direct effect of IL-1 on OCs. IL-1 has been shown to raise intracellular Ca 2+ levels in isolated individual rabbit OCs (39) and to activate NF-κB-like transcription factors in purified murine OC-like cells (40); IL-1 receptor mRNA has been detected in rodent OCs by in situ hybridization (41); and IL-1 treatment of purified human OC-like cells has stimulated the release of 43). The biologic effects of IL-1 on bone depend on complex interactions among many factors, including IL-1α, IL-1β, IL-1Ra, IL-1 receptors, and IL-1 receptor accessory protein. Two distinct IL-1 receptors are known: the type I, or signaling, receptor (IL-1RI) that mediates cellular responses to IL-1 and binds equally well IL-1 agonist and antagonist; and the type II, or decoy, receptor (IL-1RII) that preferentially b...
