Bone marrow adipogenic lineage precursors promote osteoclastogenesis in bone remodeling and pathologic bone loss
Wei Yu, … , Jaimo Ahn, Ling Qin
Wei Yu, … , Jaimo Ahn, Ling Qin
Published November 18, 2020
Citation Information: J Clin Invest. 2021;131(2):e140214. https://doi.org/10.1172/JCI140214.
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Research Article Bone biology Article has an altmetric score of 117

Bone marrow adipogenic lineage precursors promote osteoclastogenesis in bone remodeling and pathologic bone loss

Abstract

Bone is maintained by coupled activities of bone-forming osteoblasts/osteocytes and bone-resorbing osteoclasts. Alterations in this relationship can lead to pathologic bone loss such as osteoporosis. It is well known that osteogenic cells support osteoclastogenesis via production of RANKL. Interestingly, our recently identified bone marrow mesenchymal cell population—marrow adipogenic lineage precursors (MALPs) that form a multidimensional cell network in bone—was computationally demonstrated to be the most interactive with monocyte-macrophage lineage cells through high and specific expression of several osteoclast regulatory factors, including RANKL. Using an adipocyte-specific Adipoq-Cre to label MALPs, we demonstrated that mice with RANKL deficiency in MALPs have a drastic increase in trabecular bone mass in long bones and vertebrae starting from 1 month of age, while their cortical bone appears normal. This phenotype was accompanied by diminished osteoclast number and attenuated bone formation at the trabecular bone surface. Reduced RANKL signaling in calvarial MALPs abolished osteolytic lesions after LPS injections. Furthermore, in ovariectomized mice, elevated bone resorption was partially attenuated by RANKL deficiency in MALPs. In summary, our studies identified MALPs as a critical player in controlling bone remodeling during normal bone metabolism and pathological bone loss in a RANKL-dependent fashion.

Authors

Wei Yu, Leilei Zhong, Lutian Yao, Yulong Wei, Tao Gui, Ziqing Li, Hyunsoo Kim, Nicholas Holdreith, Xi Jiang, Wei Tong, Nathaniel Dyment, X. Sherry Liu, Shuying Yang, Yongwon Choi, Jaimo Ahn, Ling Qin

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Figure 4

RANKL-CKOAdipoq mice have high trabecular bone mass.

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RANKL-CKOAdipoq mice have high trabecular bone mass. (A) qRT-PCR analys...
(A) qRT-PCR analysis of Tnfsf11 mRNA in Td+ and Td cells sorted from bone marrow of Adipoq/Td mice (n = 3 mice/group). (B) qRT-PCR analysis of Tnfsf11 mRNA in bone marrow of WT and RANKL-CKOAdipoq mice at 1 and 3 months of age (n = 3 mice/group). (C) qRT-PCR analysis of Tnfsf11 mRNA in cortical bone of WT and RANKL-CKOAdipoq mice at 1 and 3 months of age (n = 3 mice/group). (D) Tooth eruption is not affected in RANKL-CKOAdipoq mice. (E) Representative Safranin O/fast green staining of long bone sections from 1-month-old WT and RANKL-CKOAdipoq mice. Scale bar: 200 μm. (F) Quantification of femoral growth plate thickness (n = 6 mice/group). (G) Quantification of tibial length (n = 6 mice/group). (H) 3D microCT reconstruction of WT and RANKL-CKOAdipoq mouse tibiae reveals a drastic increase of trabecular bone at 1 and 3 months of age. Scale bar: 1 mm. (I) MicroCT measurement of trabecular bone structural parameters from the secondary spongiosa region (n = 5–6 mice/group). (J) 3D microCT reconstructions of the tibial midshaft region. Scale bar: 0.2 mm. (K) MicroCT measurement of cortical bone structural parameters from the midshaft region (n = 5–6 mice/group). **P < 0.01; ***P < 0.001 Td+ vs. Td or CKO vs. WT, 2-tailed unpaired Student’s t test.