Endo 180 participates in collagen remodeling of the periodontal ligament during orthodontic tooth movement

Orthodontic tooth movement (OTM) relies on the remodeling of periodontal tissues, including the periodontal ligament (PDL) and alveolar bone. Collagen remodeling plays a crucial role during this process, allowing for the necessary changes in the PDL's structure and function. Endo180, an urokina...

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Bibliographic Details
Published in:BMC oral health 2024-12, Vol.24 (1), p.1576-10, Article 1576
Main Authors: Chen, Liyuan, He, Danqing, Li, Zixin, Cui, Shengjie, Yu, Min, Zhao, Zimo, Chen, Yuetong, Song, Jiayi, Jiang, Nan, Yu, Huajie, Liu, Yan
Format: Article
Language:English
Subjects:
Alveolar bone
Animals
Antibodies
Atomic force microscopy
Bone remodeling
Cell surface receptors
Collagen
Collagen (type I)
Collagen (type III)
Collagen - metabolism
Collagen remodeling
Collagen Type I - metabolism
Collagen Type III - metabolism
Computed tomography
Down-regulation
Electrons
Endo180
Fibroblasts
Gene expression
Immunofluorescence
Ligaments
Male
Mechanical force
Mechanical properties
Microscopy
Microscopy, Atomic Force
Orthodontic tooth movement
Orthodontics
Pancreatic cancer
Periodontal ligament
Periodontal Ligament - metabolism
Periodontal ligament cell
Protein structure
Rats
Rats, Sprague-Dawley
siRNA
Software
Structure-function relationships
Teeth
Therapeutic targets
Thrombolytic drugs
Tooth Movement Techniques - methods
U-Plasminogen activator
X-Ray Microtomography
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Summary:Orthodontic tooth movement (OTM) relies on the remodeling of periodontal tissues, including the periodontal ligament (PDL) and alveolar bone. Collagen remodeling plays a crucial role during this process, allowing for the necessary changes in the PDL's structure and function. Endo180, an urokinase plasminogen activator receptor-associated protein, is a transmembrane receptor regulated collagen remodeling. This study aims to investigate whether and how Endo180 participates in collagen remodeling within the PDL during OTM. A mechanical force-induced OTM rat model was established using a closed coiled spring to mesially move the right maxillary first molar. The distance of OTM was examined by micro-computed tomography (micro-CT). The collagen remodeling within the PDL was assessed using atomic force microscope (AFM), Hematoxylin-Eosin (HE) staining and Masson staining. Protein expressions of Endo180, collagen I (COL I) and collagen III (COL III) were analyzed via immunofluorescence staining. Additionally, the mRNA expressions of Endo180, COL I, and COL III in force-induced PDL cells were examined by RT-qPCR in vitro. To further illustrate the role of Endo180 in regulating COL I and COL III expressions, Endo180 siRNA (siEndo) was applied to force-stimulated PDL cells. Force application increased OTM distance and disrupted collagen fiber organization, with a greater decrease in collagen elastic modulus on the mesial side than on the distal side of the PDL. After 7 days of force application, Endo180 and COL III expressions significantly increased in PDL tissues, while COL I expression decreased in PDL tissues. Compressive force loading in vitro upregulated the mRNA expressions of Endo180 and COL III, but downregulated COL I mRNA expression. Notably, Endo180 knockdown using siRNA suppressed force-induced COL III expression while restoring the downregulated COL I expression under compressive force stimuli. Force-induced Endo180 expression modulates collagen remodeling in PDL during OTM by upregulating COL III and downregulating COL I. This collagen reorganization facilitates efficient tooth movement, highlighting Endo180 as a potential therapeutic target to optimize orthodontic treatment outcomes.
ISSN:1472-6831
1472-6831
DOI:10.1186/s12903-024-05362-8