Abstract
Receptor activator of nuclear factor κB (RANK) and its ligand (RANKL) play key roles in bone metabolism and the immune system. The RANK/RANKL complex has also been shown to be critical in the formation of mammary epithelia cells. The female hormones estradiol and progesterone closely control the action of RANKL with RANK. Blood concentration of these sex hormones in the postmenopausal period leads to an increase in RANK/RANKL signaling and are a major cause of women’s osteoporosis, characterized by altered bone mineralization. Knowledge of the biochemical relationships between hormones and RANK/RANKL signaling provides the opportunity to design novel therapeutic agents to inhibit bone loss, based on the anti-RANKL treatment and inhibition of its interaction with the RANK receptor. The new generation of both anti- and mesoprogestins that inhibit the NF-κB-cyclin D1 axis and blocks the binding of RANKL to RANK can be considered as a potential source of new RANK receptor ligands with anti-RANKL function, which may provide a new perspective into osteoporosis treatment itself as well as limit the osteoporosis rise during breast cancer metastasis to the bone.
Highlights
The results suggest that teriparatide and zoledronic acid have differential effects on material properties of newly formed bone at individual remodeling sites, highlighting their different mechanisms of action [90,93]
The in vitro and in vivo studies described in the literature have provided some evidence that inhibition of RANK/RANKL signaling pathway may result in bone homeostasis maintaining and tumor cells proliferation suppression
Bone metabolism is regulated by a balance between RANKL/RANK signaling and OPG level
Summary
TNF (the tumor necrosis factor) and TNFR (the tumor necrosis factor receptor), as well as many related proteins, especially FAS, CD40, CD27, and RANK [1,2], have structural features that are directly linked to the signaling pathways of cell proliferation, survival, and differentiation. OPG-L, TRANCE, ODF, and TNRSF11), expressed by stromal cells/osteoblasts, is a type II transmembrane protein with an extracellular domain at the carboxy–terminus [3,7]. This ligand has been identified as a factor that can generate osteoclast differentiation and their activation and plays a crucial role in bone physiology. RANK (receptor activator of NF-κB, known as TRANCE-R, or TNFRSF11A) is a transmembrane heterotrimer It occurs on the surface of progenitor and mature osteoclasts and mammary gland epithelial cells [3]. As to induce the differentiation of osteoclast precursors to osteoclasts [9]
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