Macrophage miR-149-5p induction is a key driver and therapeutic target for BRONJ
Xin Shen, … , Rongyao Xu, Hongbing Jiang
Xin Shen, … , Rongyao Xu, Hongbing Jiang
Published August 22, 2022
Citation Information: JCI Insight. 2022;7(16):e159865. https://doi.org/10.1172/jci.insight.159865.
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Research Article Bone biology

Macrophage miR-149-5p induction is a key driver and therapeutic target for BRONJ

Abstract

Bisphosphonate-related (BP-related) osteonecrosis of the jaw (BRONJ) is one of the severe side effects of administration of BPs, such as zoledronic acid (ZA), which can disrupt the patient’s quality of life. Although the direct target of skeletal vasculature and bone resorption activity by BPs has been phenomenally observed, the underlying mechanism in BRONJ remains largely elusive. Thus, it is urgently necessary to discover effective therapeutic targets based on the multifaceted underlying mechanisms in the development of BRONJ. Here, we determined the inhibitory role of ZA-treated macrophages on osteoclast differentiation and type H vessel formation during tooth extraction socket (TES) healing. Mechanistically, ZA activated the NF-κB signaling pathway and then induced p65 nuclear translocation in macrophages to promote miR-149-5p transcription, resulting in impaired osteoclast differentiation via directly binding to the Traf6 3′-UTR region. Moreover, we identified that miR-149-5p–loaded extracellular vesicles derived from ZA-treated bone marrow–derived macrophages could regulate biological functions of endothelial cells via the Rap1a/Rap1b/VEGFR2 pathway. Furthermore, local administration of chemically modified antagomiR-149-5p was proven to be therapeutically effective in BRONJ mice. In conclusion, our findings illuminate the dual effects of miR-149-5p on skeletal angiogenesis and bone remolding, suggesting it as a promising preventive and therapeutic target for BRONJ.

Authors

Xin Shen, Weiwen Zhu, Ping Zhang, Yu Fu, Jie Cheng, Laikui Liu, Rongyao Xu, Hongbing Jiang

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Figure 1

BRONJ mouse model presents decreased osteoclast activity and impaired skeletal angiogenesis.

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BRONJ mouse model presents decreased osteoclast activity and impaired sk...
(A) Schedule of the establishment of the BRONJ mouse model. Numbers indicate treatment days. (B) Clinical appearance of the gingival mucosa at TES. Red dotted lines outline the open socket adjacent to the second molar (SM). The number of mice with the open socket was quantified. (C) Micro-CT analysis of new bone fill in TES. (D) Quantitative measurements of BV/TV and BMD for new bone in TES. (E) Representative H&E-stained images of TES 4 weeks after tooth extraction. Scale bars: 100 μm. n = 6. (F) Representative TRAP-stained images showing osteoclastic activity and quantification of osteoclast numbers in TES. Scale bars: 100 μm. n = 6. (G) Representative immunostained images of EMCNhiCD31hi vessels in TES from control and BRONJ mice. Scale bars: 100 μm. n = 6. (H) Representative immunostained images of osterix+ perivascular osteoprogenitors. Scale bars: 100 μm. n = 6. (I and J) Representative immunostained images of F4/80+CD86+ (M1) or F4/80+CD206+ (M2) macrophages. Scale bars: 100 μm. n = 6. Results are presented as the mean ± SD. *P < 0.05; **P < 0.01 by Student’s t test.