Shenzheng Mo scite author profile

Shenzheng Mo

4Publications

51Citation Statements Received

104Citation Statements Given

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120

Affiliations

Seoul National University, Tongji University

Publications

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Compressive force‐induced autophagy in periodontal ligament cells downregulates osteoclastogenesis during tooth movement

Chen

Hua

2019

Journal of Periodontology

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Background Autophagy has recently emerged as a protective mechanism in response to compressive force and an important process in maintenance of bone homeostasis. It appears to be involved in the degradation of osteoclasts, osteoblasts, and osteocytes. The aim of this study was to investigate the role of compressive force‐induced autophagy in periodontal ligament (PDL) cells in regulating osteoclastogenesis of orthodontic tooth movement (OTM). Methods An OTM model and compressive force on PDL cells were employed to investigate the expression of autophagy markers in vivo and in vitro, respectively. Autophagosomes and autolysosomes were observed in PDL cells by transmission electron microscope (TEM) and autophagy LC3 double labelling. 3‐Methyladenine (3‐MA) and rapamycin were respectively used to inhibit and promote autophagy, and the effect of autophagy on osteoclastogenesis was explored via microcomputed tomography, hematoxylin and eosin (H&E) staining, histochemistry of titrate‐resistant acid phosphatase, and real‐time polymerase chain reaction (RT‐PCR) in vivo. Receptor activator of nuclear factor‐kappa B ligand/osteoprotegerin (RANKL/OPG) was investigated by RT‐PCR and ELISA in vitro. Results Orthodontic force‐induced autophagy was prominent on the pressured side of PDL tissues. Administration of 3‐MA downregulated bone density and upregulated osteoclasts, while rapamycin had reverse results in OTM. The autophagy activity increased initially then decreased in PDL cells during compressive force application and responded to light force. In PDL cells, administration of 3‐MA upregulated while rapamycin downregulated the RANKL/OPG ratio. Conclusion Autophagy is activated by compressive force in PDL cells. Besides, it could modulate OTM by negatively regulating osteoclastogenesis and keep bone homeostasis via RANKL/OPG signaling.

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Cystathionine gamma lyase-H2S contributes to osteoclastogenesis during bone remodeling induced by mechanical loading

Hua

2018

Biochemical and Biophysical Research Communications

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PARK2 Induces Osteoclastogenesis through Activation of the NF-κB Pathway

Hong

Jung

Jang

et al. 2022

Molecules and Cells

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Osteoclast generation from monocyte/macrophage lineage precursor cells needs to be tightly regulated to maintain bone homeostasis and is frequently over-activated in inflammatory conditions. PARK2, a protein associated with Parkinson's disease, plays an important role in mitophagy via its ubiquitin ligase function. In this study, we investigated whether PARK2 is involved in osteoclastogenesis. PARK2 expression was found to be increased during the receptor activator of nuclear factor-κB ligand (RANKL)-induced osteoclast differentiation. PARK2 gene silencing with siRNA significantly reduced osteoclastogenesis induced by RANKL, LPS (lipopolysaccharide), TNFα (tumor necrosis factor α), and IL-1β (interleukin-1β). On the other hand, overexpression of PARK2 promoted osteoclastogenesis. This regulation of osteoclastogenesis by PARK2 was mediated by IKK (inhibitory κB kinase) and NF-κB activation while MAPK (mitogenactivated protein kinases) activation was not involved. Additionally, administration of PARK2 siRNA significantly reduced osteoclastogenesis and bone loss in an in vivo model of inflammatory bone erosion. Taken together, this study establishes a novel role for PARK2 as a positive regulator in osteoclast differentiation and inflammatory bone destruction.

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PINK1 Restrains Periodontitis-Induced Bone Loss by Preventing Osteoclast Mitophagy Impairment

Jang

Hong

et al. 2023

Preprint

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Shenzheng Mo

Compressive force‐induced autophagy in periodontal ligament cells downregulates osteoclastogenesis during tooth movement

Cystathionine gamma lyase-H2S contributes to osteoclastogenesis during bone remodeling induced by mechanical loading

PARK2 Induces Osteoclastogenesis through Activation of the NF-κB Pathway

PINK1 Restrains Periodontitis-Induced Bone Loss by Preventing Osteoclast Mitophagy Impairment

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