Yong Deok Lee scite author profile

Reactive oxygen species (ROS) are an indispensable element of cellular signal transduction in various cell types, including bone cells. In particular, osteoclasts (OCs), cells specialized for bone resorption, utilize ROS as second messengers during receptor activator of NF-κB ligand (RANKL)-induced differentiation and activation. In addition, because of the high energy demands of bone-resorbing activity, OCs contain large amounts of mitochondria, the source of the majority of total ROS. In this study, we focused on the regulation of ROS generated from mitochondria during osteoclastogenesis. We observed that the level of mitochondrial superoxide dismutase 2 (SOD2), an enzyme responsible for reducing superoxide radicals in mitochondria, was increased by RANKL. siRNA-mediated knockdown (KD) of SOD2 increased ROS levels and enhanced OC differentiation. Conversely, overexpression of SOD2 reduced osteoclastogenesis by decreasing ROS levels. Moreover, we found that NAD-dependent deacetylase sirtuin 3 (Sirt3), an activator of SOD2 in mitochondria, was induced by RANKL. Sirt3-targeted siRNA decreased SOD2 activity by reducing deacetylation of lysine 68 of SOD2, leading to increased osteoclastogenesis. Furthermore, in vivo KD of SOD2 or Sirt3 in ICR mouse calvariae decreased bone volume and increased OC surface, supporting the results of in vitro experiments. Taken together, our findings demonstrate for the first time to our knowledge that the regulation of mitochondrial ROS by SOD2 and Sirt3 plays an important role in fine-tuning the OC differentiation program. © 2016 American Society for Bone and Mineral Research.

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Stimulation of osteoclast migration and bone resorption by C–C chemokine ligands 19 and 21

Park

Kim

Lee

et al. 2017

Exp Mol Med

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Osteoclasts are responsible for the bone erosion associated with rheumatoid arthritis (RA). The upregulation of the chemokines CCL19 and CCL21 and their receptor CCR7 has been linked to RA pathogenesis. The purpose of this study was to evaluate the effects of CCL19 and CCL21 on osteoclasts and to reveal their underlying mechanisms. The expression of CCL19, CCL21 and CCR7 was higher in RA patients than in osteoarthritis patients. In differentiating osteoclasts, tumor necrosis factor-α, interleukin-1β and lipopolysaccharide stimulated CCR7 expression. CCL19 and CCL21 promoted osteoclast migration and resorption activity. These effects were dependent on the presence of CCR7 and abolished by the inhibition of the Rho signaling pathway. CCL19 and CCL21 promoted bone resorption by osteoclasts in an in vivo mice calvarial model. These findings demonstrate for the first time that CCL19, CCL21 and CCR7 play important roles in bone destruction by increasing osteoclast migration and resorption activity. This study also suggests that the interaction of CCL19 and CCL21 with CCR7 is an effective strategic focus in developing therapeutics for alleviating inflammatory bone destruction.

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Extracellular S100A4 negatively regulates osteoblast function by activating the NF-κB pathway

Kim¹,

Lee²,

Kim³

et al. 2017

BMB Reports

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Patients with inflammatory bone disease or cancer exhibit an increased risk of fractures and delayed bone healing. The S100A4 protein is a member of the calcium-binding S100 protein family, which is abundantly expressed in inflammatory diseases and cancers. We investigated the effects of extracellular S100A4 on osteoblasts, which are cells responsible for bone formation. Treating primary calvarial osteoblasts with recombinant S100A4 resulted in matrix mineralization reductions. The expression of osteoblast marker genes including osteocalcin and osterix was also suppressed. Interestingly, S100A4 stimulated the nuclear factor-kappaB (NF-κB) signaling pathway in osteoblasts. More importantly, the ex vivo organ culture of mouse calvariae with recombinant S100A4 decreased the expression levels of osteocalcin, supporting the results of our in vitro experiments. This suggests that extracellular S100A4 is important for the regulation of bone formation by activating the NF-κB signaling pathway in osteoblasts.

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Tetraspanin 7 regulates sealing zone formation and the bone-resorbing activity of osteoclasts

Kwon

Lee

Kim

et al. 2016

Biochemical and Biophysical Research Communications

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Caveolin-1 Regulates Osteoclastogenesis and Bone Metabolism in a Sex-dependent Manner

Lee¹,

Yoon²,

Park

et al. 2015

Journal of Biological Chemistry

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Background: Caveolin-1 plays important roles in the regulation of diverse cellular responses. Results: Caveolin-1 knockdown reduced osteoclastogenesis in vitro, and caveolin-1 knock-out resulted in an increased and decreased osteoclastogenesis in male and female mice, respectively. Conclusion: Regulation of osteoclastogenesis by caveolin-1 was dependent on sex. Significance: This indicates a complicated, but critical, role of caveolin-1 in the regulation of bone metabolism.

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Yong Deok Lee

SOD2 and Sirt3 Control Osteoclastogenesis by Regulating Mitochondrial ROS

Stimulation of osteoclast migration and bone resorption by C–C chemokine ligands 19 and 21

Extracellular S100A4 negatively regulates osteoblast function by activating the NF-κB pathway

Tetraspanin 7 regulates sealing zone formation and the bone-resorbing activity of osteoclasts

Caveolin-1 Regulates Osteoclastogenesis and Bone Metabolism in a Sex-dependent Manner

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