RANKL acts directly on RANK-expressing prostate tumor cells and mediates migration and expression of tumor metastasis genes.

Background: Metastases to bone are a frequent complication of human prostate cancer and result in the development of osteoblastic lesions that include an underlying osteoclastic component. Previous studies in rodent models of breast and prostate cancer have established that receptor activator of NF-kappaB ligand (RANKL) inhibition decreases bone lesion development and tumor growth in bone. RANK is essential for osteoclast differentiation, activation, and survival via its expression on osteoclasts and their precursors.

Osteoclast differentiation is impaired in the absence of inhibitor of kappa B kinase alpha.

Signaling through the receptor activator of nuclear factor kappa B (RANK) is required for both osteoclast differentiation and mammary gland development, yet the extent to which RANK utilizes similar signaling pathways in these tissues remains unclear. Mice expressing a kinase-inactive form of the inhibitor of kappa B kinase alpha (IKK alpha) have mammary gland defects similar to those of RANK-null mice yet have apparently normal osteoclast function. Because mice that completely lack IKK alpha have severe skin and skeletal defects that are not associated with IKK alpha-kinase activity, we wished to directly examine osteoclastogenesis in IKK alpha(-/-) mice.

A RANK/TRAF6-dependent signal transduction pathway is essential for osteoclast cytoskeletal organization and resorptive function.

Signaling through receptor activator of nuclear factor-kappaB (RANK) is essential for the differentiation and activation of osteoclasts, the cell principally responsible for bone resorption. Animals genetically deficient in RANK or the cognate RANK ligand are profoundly osteopetrotic because of the lack of bone resorption and remodeling. RANK provokes biochemical signaling via the recruitment of intracellular tumor necrosis factor receptor-associated factors (TRAFs) after ligand binding and receptor oligomerization.