Project Summary/Abstract Osteoporosis is a common disease of aging, caused by a combination of increased osteoclastic (OC) bone resorption and decreased osteoblastic (OB) bone formation. Low-level chronic inflammation (LLCI), characterized by increased levels of pro-inflammatory factors induced by activated NF-κB signaling, contributes to the pathogenesis of age-related osteoporosis by stimulating OC and/or inhibiting OB differentiation. However, the molecular mechanisms by which LLCI induces bone loss remain incompletely understood. Our recently published findings indicate that protein levels of TNF receptor associated factor 3 (TRAF3), which negatively regulates NF-κB signaling, are reduced in the bone marrow (BM) of aged mice. This is because increased amounts of TGFβ released from resorbing bone during aging induce ubiquintin- mediated degradation of TRAF3 by mesenchymal stromal cells (MSCs). This reduction in TRAF3 levels in MSCs leads to increased production of the chemokine, SDF1, and subsequent accumulation of a novel subset of B cell cells (CD19+, B220+ and IgM+) expressing RANKL and CXCR4 (an SDF1 receptor) that we have identified in the BM during aging. We have called this subset of RANKL+CXCR4+ B cells as RCBs for short. RCBs directly induce OC formation and produce a soluble factor(s) that inhibits OB differentiation. Importantly, either plerixafor, a FDA-approved CXCR4 inhibitor, or SM164, an inhibitor of IAP proteins, which prevents TGFβ1-induced TRAF3 degradation in MSCs, increased trabecular bone mass, associated with reduced accumulation of RCBs in the BM of aged mice. Our proposed studies will 1) fully characterize RCBs phenotypically, determine if they are present in humans and if CXCR4 in B cells mediates their accumulation in the BM of aging mice; 2) determine if TRAF3 expressed by MSCs regulates the accumulation of RCBs in BM by modulating SDF1 expression; and 3) determine if plerixafor prevents age-related osteoporosis by depleting RCBs from BM and if targeting it to bone increases its efficacy and reduces adverse effects for the prevention of age-related osteoporosis. Completion of the proposed studies will determine the mechanisms whereby this novel set of B cells contributes to bone loss by stimulating bone resorption and inhibiting bone formation during age-related osteoporosis and importantly, will provide proof of principle that plerixafor or a bone- targeted formulation of it may be a novel treatment for age-related osteoporosis.