Abstract Bone marrow adipocytes are known to have a critical role within the bone marrow niche. However, our understanding of bone marrow adipose tissue expansion with obesity and the role it plays in immune cell regulation and osteoclastogenesis is limited. Here, we showed the expansion of bone marrow adipocytes promoted osteoclast differentiation and subsequently led to obesity-related trabecular and cortical bone loss through a stimulatory effect of the PD-1/PD-L1 axis. Bone marrow adipocytes isolated from obese mice had increased Mcp-1 expression, a key regulator of osteoclastogenesis and myeloid cell accumulation. With the increase in bone marrow adipose tissue-derived Mcp-1 , we found an increase in the number of PD-L1 + myeloid cells. While these cells inhibited activated T-cells, we found evidence of a stimulatory osteoclastogenic effect of PD-L1 + myeloid cells on PD-1-expressing osteoclast precursors. The inhibition of PD-1/PD-L1 signaling during early osteoclastogenesis prevented myeloid cell commitment and resulted in decreased cell fusion, supporting the role of PD-1/PD-L1 signaling in osteoclastogenesis. Using a bone marrow adipocyte depletion mouse model (BMAd- Pparg KO), we demonstrated that obese BMAd- Pparg KO mice had a reduced number of bone marrow PD-L1 + myeloid cells, accompanied by a decrease in PD-1 + osteoclast precursors. The reduction in these precursors resulted in fewer osteoclasts, subsequently leading to improved trabecular bone volume. Since osteoclasts are myeloid cell-derived, these results suggest that bone marrow adipocytes are critical for the commitment and differentiation of myeloid cells into osteoclasts. Targeting bone marrow adipogenesis could ameliorate enhanced osteoclastogenesis and provide a novel approach to treat obesity-related bone loss.
Costa et al. (Fri,) studied this question.