Project Summary / Abstract Osteoporosis is under diagnosed and under treated. It is essential that we develop novel tools for early detection and treatment strategies to reduce the number of fragility fractures that accompany aging. Systemic hypertension is another disease of aging that commonly co-exists with osteoporosis and likely predisposes individuals to the disease. In this multidisciplinary project, we will investigate a common molecular basis between hypertension and osteoporosis that weakens bone during aging. Our preliminary data indicate that experimental hypertension involving mice is associated with a striking loss in bone strength, which is mediated in part by the production of colony stimulating factor 1 (CSF1) in the bone marrow. The first goal of the project will be to test the hypothesis that enhanced endothelial cell deformation and elevated blood pressure promote the age-related decline in bone strength. We will employ cell culture experiments in which endothelial cells are dynamically stretched below human monocytes with and without exogenous recombinant proteins to determine if factors released by the activated endothelium promote osteoclast differentiation. In addition, we will lower blood pressure of aged mice and determine if this improves bone strength by reducing inflammatory cytokines that favor bone resorption. The second goal will be to test the hypothesis that enhanced sympathetic tone in aging and hypertension promotes immune activation and bone loss. We are experts at modulating sympathetic tone using a technique called Designer Receptor Exclusively Activated by Designer Drugs and by local denervation techniques. Thus, we will increase sympathetic tone to determine if this mimics the age-related decline in bone strength and decrease sympathetic tone to determine if this prevents hypertension and aging-induced loss in bone strength. The third goal will be to delete the endothelial CSF1 gene in adult mice to firmly establish the endothelium as a mediator of osteoporosis. Finally, our prior work has established a critical role of the cytokine interleukin (IL) 17A in hypertension, and others have shown that it plays a critical role in bone loss due estrogen withdrawal (menopause). We will therefore generate mutant mice that will allow deletion of IL17 receptor A in adult mice and determine if this prevents hypertension-related bone loss. As a translational goal, we will treat aged or hypertensive mice with a control antibody and vehicle, a neutralizing anti-CSF1 antibody, or an IL-17RA antagonist and determine if these strategies improve bone strength. In all aims we will 1) monitor blood pressure and bone mass, 2) assess immune cell profiles in the bone marrow, and 3) comprehensively characterize bone strength including toughness and other bone quality measurements. By understanding how hypertension affects bone marrow in the context of aging and by working as a collaborative research team comprised of different ski...