Journal of Bone Metabolism

"RANK ligand"

Review Article

Mechanisms of Osteoclastogenesis in Orthodontic Tooth Movement and Orthodontically Induced Tooth Root Resorption: Yuta Nakai, Natnicha Praneetpong, Wanida Ono, Noriaki Ono; J Bone Metab 2023;30(4):297-310.
Published online November 30, 2023; DOI: https://doi.org/10.11005/jbm.2023.30.4.297

Orthodontic tooth movement (OTM) is achieved by the simultaneous activation of bone resorption by osteoclasts and bone formation by osteoblasts. When orthodontic forces are applied, osteoclast-mediated bone resorption occurs in the alveolar bone on the compression side, creating space for tooth movement. Therefore, controlling osteoclastogenesis is the fundamental tenet of orthodontic treatment. Orthodontic forces are sensed by osteoblast lineage cells such as periodontal ligament (PDL) cells and osteocytes. Of several cytokines produced by these cells, the most important cytokine promoting osteoclastogenesis is the receptor activator of nuclear factor-κB ligand (RANKL), which is mainly supplied by osteoblasts. Additionally, osteocytes embedded within the bone matrix, T lymphocytes in inflammatory conditions, and PDL cells produce RANKL. Besides RANKL, inflammatory cytokines, such as interleukin-1, tumor necrosis factor-α, and prostaglandin E2 promote osteoclastogenesis under OTM. On the downside, excessive osteoclastogenesis activation triggers orthodontically-induced external root resorption (ERR) through pro-osteoclastic inflammatory cytokines. Therefore, understanding the mechanisms of osteoclastogenesis during OTM is essential in reducing the adverse effects of orthodontic treatment. Here, we review the current concepts of the mechanisms underlying osteoclastogenesis in OTM and orthodontically induced ERR.

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Original Articles

Fexaramine Inhibits Receptor Activator of Nuclear Factor-κB Ligand-induced Osteoclast Formation via Nuclear Factor of Activated T Cells Signaling Pathways: Ting Zheng, Na-Young Kim, Mijung Yim; J Bone Metab 2017;24(4):207-215.
Published online November 30, 2017; DOI: https://doi.org/10.11005/jbm.2017.24.4.207

Background

Osteoclasts are bone resorbing cells and are responsible for bone erosion in diseases as diverse as osteoporosis, periodontitis, and rheumatoid arthritis. Fexaramine has been developed as an agonist for the farnesoid X receptor (FXR). This study investigated the effects of fexaramine on receptor activator of nuclear factor (NF)-κB ligand (RANKL)-induced osteoclast formation and signaling pathways.

Methods

Osteoclasts were formed by culturing mouse bone marrow-derived macrophages (BMMs) with macrophage colony-stimulating factor (M-CSF) and RANKL. Bone resorption assays were performed using dentine slices. The mRNA expression level was analyzed by real-time polymerase chain reaction. Western blotting assays were conducted to detect the expression or activation level of proteins. Lipopolysaccharide-induced osteoclast formation was performed using a mouse calvarial model.

Results

Fexaramine inhibited RANKL-induced osteoclast formation, without cytotoxicity. Furthermore, fexaramine diminished the RANKL-stimulated bone resorption. Mechanistically, fexaramine blocked the RANKL-triggered p38, extracellular signal-regulated kinase, and glycogen synthase kinase 3β phosphorylation, resulting in suppressed expression of c-Fos and NF of activated T cells (NFATc1). Consistent with the in vitro anti-osteoclastogenic effect, fexaramine suppressed lipopolysaccharide-induced osteoclast formation in the calvarial model.

Conclusions

The present data suggest that fexaramine has an inhibitory effect on osteoclast differentiation and function, via downregulation of NFATc1 signaling pathways. Thus, fexaramine could be useful for the treatment of bone diseases associated with excessive bone resorption.

Citations

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Xuan-Qi Zheng, Ding-Ben Wang, Yi-Rong Jiang, Chun-Li Song
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Yang Yun, Guo‐Qiang Xu, Xiao‐Jing Jiang, Xin‐Yao Ren, Ming‐Fu Lu, Jun‐Wei Chen, Sheng‐Xiao Zhang
Comprehensive Physiology.2025;[Epub] CrossRef
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BMC Oral Health.2024;[Epub] CrossRef
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Tamiris Ingrid Petito‐da‐Silva, Felipe Missiba Villardi, Aline Penna‐de‐Carvalho, Carlos Alberto Mandarim‐de‐Lacerda, Vanessa Souza‐Mello, Sandra Barbosa‐da‐Silva
Molecular Nutrition & Food Research.2024;[Epub] CrossRef
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Sumedha Yadav, Leena Sapra, Rupesh K. Srivastava
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Jie Huang, Huang Zhang, Xusheng Fan, Yongwu Wang
Clinical Oral Investigations.2024;[Epub] CrossRef
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Pharmacological Research.2023; 196: 106943. CrossRef
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Cui Wang, Qing Ma, Xijie Yu
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Asha Bhardwaj, Leena Sapra, Abhay Tiwari, Pradyumna K. Mishra, Satyawati Sharma, Rupesh K. Srivastava
Frontiers in Microbiology.2022;[Epub] CrossRef
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Methanol Extract of Croton Pycnanthus Benth. Inhibits Osteoclast Differentiation by Suppressing the MAPK and NF-κB Signaling Pathways: Jiyeon Lee, Hong-Hee Kim; J Bone Metab 2014;21(4):269-275.
Published online November 30, 2014; DOI: https://doi.org/10.11005/jbm.2014.21.4.269

Background

Osteoclasts are differentiated from monocytes/macrophage colony-stimulating factor (M-CSF) and receptor activator of nuclear factor-kappa B (NF-κB) ligand (RANKL). Croton pycnanthus Benth. (CPB) is a herbal plant that belongs to Euphorbiaceae family. The aim of this study was to investigate the effects of CPB on osteoclastogenesis and RANKL-dependent signaling pathways.

Methods

Methanol extract of CPB was obtained from International Biological Material Research Center. Osteoclast differentiation was achieved by culturing mouse bone marrow-derived macrophages (BMMs) with M-CSF and RANKL. Osteoclast numbers were evaluated by counting multinuclear cells positive for tartrate-resistant acid phosphatase (TRAP). mRNA and protein levels were analyzed by real-time polymerase chain reaction (PCR) and Western blotting, respectively. The activation of signaling molecules were assessed after acute stimulation of cells with high dose of RANKL by Western blotting with phospho-specific antibodies.

Results

CPB reduced the generation of TRAP-positive multinucleated cells and the activation of mitogen-activated protein kinase (MAPK) and NF-κB signaling pathways. The induction of the expression of c-Fos, nuclear factor-activated T cells c1 (NFATc1) and dendritic cell-specific transmembrane protein (DC-STAMP) by RANKL was also suppressed.

Conclusions

CPB exerts negative effects on osteoclast differentiation in response to the RANKL. The inhibitory mechanism involves the suppression of MAPK and NF-κB signaling pathways and subsequently the down-regulation of c-Fos and NFATc1 transcription factors.

Citations

Citations to this article as recorded by

1. Inhibitory Effect of Rosae Multiflorae Fructus Extracts on the Receptor Activator of NF-κB Ligand-Induced Osteoclastogenesis through Modulation of P38- and Ca2+-Mediated Nuclear Factor of Activated T-Cells Cytoplasmic 1 Expression
Keun Ha Park, Dong Ryun Gu, Min Seuk Kim, Seoung Hoon Lee
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International Journal of Oral Biology.2020; 45(1): 15. CrossRef
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HongMoon Sohn, Youngjong Ko, Mineon Park, Donghwi Kim, Young Lae Moon, Yeon Joo Jeong, Hyeonjun Lee, Yeonhee Moon, Byung-Chul Jeong, Okjoon Kim, Wonbong Lim
Lasers in Surgery and Medicine.2015; 47(9): 745. CrossRef
4. ZIP4 silencing improves bone loss in pancreatic cancer
Qiang Zhang, Xiaotian Sun, Jingxuan Yang, Hao Ding, Drake LeBrun, Kai Ding, Courtney W. Houchen, Russell G. Postier, Catherine G. Ambrose, Zhaoshen Li, Xiaohong Bi, Min Li
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Review Articles

Regulation of NFATc1 in Osteoclast Differentiation: Jung Ha Kim, Nacksung Kim; J Bone Metab 2014;21(4):233-241.
Published online November 30, 2014; DOI: https://doi.org/10.11005/jbm.2014.21.4.233

Osteoclasts are unique cells that degrade the bone matrix. These large multinucleated cells differentiate from the monocyte/macrophage lineage upon stimulation by two essential cytokines, macrophage colony-stimulating factor (M-CSF) and receptor activator of nuclear factor-kappa B (NF-κB) ligand (RANKL). Activation of transcription factors such as microphthalmia transcription factor (MITF), c-Fos, NF-κB, and nuclear factor-activated T cells c1 (NFATc1) is required for sufficient osteoclast differentiation. In particular, NFATc1 plays the role of a master transcription regulator of osteoclast differentiation. To date, several mechanisms, including transcription, methylation, ubiquitination, acetylation, and non-coding RNAs, have been shown to regulate expression and activation of NFATc1. In this review, we have summarized the various mechanisms that control NFATc1 regulation during osteoclast differentiation.

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202. Context-Dependent Roles for Toll-Like Receptors 2 and 9 in the Pathogenesis of Staphylococcus aureus Osteomyelitis
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220. N‐[2‐(4‐benzoyl‐1‐piperazinyl)phenyl]‐2‐(4‐chlorophenoxy) acetamide is a novel inhibitor of resorptive bone loss in mice
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314. Tetrandrine Inhibits Titanium Particle-Induced Inflammatory Osteolysis through the Nuclear Factor-κB Pathway
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Mouse Models for the Evaluation of Osteocyte Functions: Toshihisa Komori; J Bone Metab 2014;21(1):55-60.
Published online February 28, 2014; DOI: https://doi.org/10.11005/jbm.2014.21.1.55

Osteocytes establish an extensive intracellular and extracellular communication system via gap junction-coupled cell processes and canaliculi, through which cell processes pass throughout bone, and the communication system is extended to osteoblasts on the bone surface. To examine the osteocyte function, several mouse models were established. To ablate osteocytes, osteocytes death was induced by diphtheria toxin. However, any types of osteocyte death result in necrosis, because dying osteocytes are not phagocytosed by scavengers. After the rupture of cytoplasmic membrane, immunostimulatory molecules are released from lacunae to bone surface through canaliculi, and stimulate macrophages. The stimulated macrophages produce interleukin (IL)-1, IL-6, and tumor necrosis factor-alpha (TNF-α), which are the most important proinflammatory cytokines triggering inflammatory bone loss. Therefore, the osteocyte ablation results in necrosis-induced severe osteoporosis. In conditional knockout mice of gap junction protein alpha-1 (GJA1), which encodes connexin 43 in Gap junction, using dentin matrix protein 1 (DMP1) Cre transgenic mice, osteocyte apoptosis and enhanced bone resorption occur, because extracellular communication is intact. Overexpression of Bcl-2 in osteoblasts using 2.3 kb collagen type I alpha1 (COL1A1) promoter causes osteocyte apoptosis due to the severe reduction in the number of osteocyte processes, resulting in the disruption of both intracellular and extracellular communication systems. This mouse model unraveled osteocyte functions. Osteocytes negatively regulate bone mass by stimulating osteoclastogenesis and inhibiting osteoblast function in physiological condition. Osteocytes are responsible for bone loss in unloaded condition, and osteocytes augment their functions by further stimulating osteoclastogenesis and further inhibiting osteoblast function, at least partly, through the upregulation of receptor activator of nuclear factor-kappa B ligand (RANKL) in osteoblasts and Sost in osteocytes in unloaded condition.

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