central control of bone formation

Bone mass regulation by leptin: a hypothalamic control of bone formation

Bone remodeling, the function affected in osteoporosis, the most common of bone diseases, comprises two phases: bone formation by matrix-producing osteoblasts and bone resorption by osteoclasts. The demonstration that the anorexigenic hormone leptin inhibits bone formation through a hypothalamic relay suggests that other molecules that affect energy metabolism in the hypothalamus could also modulate bone mass.

role of leptin
Bone mass is maintained constant between puberty and menopause by the balance between osteoblasts and osteoclasts activity. The existence of a hormonal control of osteoblast activity has been speculated for years by analogy to osteoclast biology. Through the search for such humoral signal(s) regulating bone formation, leptin has been identified as a powerful inhibitor of bone formation. Leptin was initially proposed to be the antiobesity hormone. [Although leptin influences both energy balance and bone mass by acting on the hypothalamus, the two processes involve different proteins and neurons.]Now it is realised that leptin is more a signal molecule that communicates nutritional status to the brain, and that it is involved in bone formation by having an antiosteogenic action.Furthermore, by means of intracerebroventricular infusion of leptin, it has been shown that the effect of this adipocyte-derived hormone on bone is mediated via a brain relay, like all its other functions. Subsequent studies have led to the identification of hypothalamic neurons involved in leptin's antiosteogenic function. In addition, it has been shown that those neurons or neuronal pathways are distinct from neurons responsible for the regulation of energy metabolism. Finally, the peripheral mediator of leptin's antiosteogenic function has been identified as being the sympathetic nervous system. Catecholamine-deficient mice have a high bone mass and sympathomimetics administered to mice decreased bone formation and bone mass. Conversely, beta-blockers increased bone formation and bone mass and blunt the bone loss induced by ovariectomy.

treatment of osteoporosis via central control
Neuromedin U (NMU) is an anorexigenic neuropeptide that acts independently of leptin through poorly defined mechanisms. Here we show that Nmu-deficient (Nmu-/-) mice have high bone mass owing to an increase in bone formation; this is more prominent in male mice than female mice. Physiological and cell-based assays indicate that NMU acts in the central nervous system, rather than directly on bone cells, to regulate bone remodeling. Notably, leptin- or sympathetic nervous system-mediated inhibition of bone formation was abolished in Nmu-/- mice, which show an altered bone expression of molecular clock genes (mediators of the inhibition of bone formation by leptin). Moreover, treatment of wild-type mice with a natural agonist for the NMU receptor decreased bone mass. Collectively, these results suggest that NMU may be the first central mediator of leptin-dependent regulation of bone mass identified to date. Given the existence of inhibitors and activators of NMU action, our results may influence the treatment of diseases involving low bone mass, such as osteoporosis.