OBJECTIVE This study aims to uncover the role of interleukin-33 on cementoblast-mediated cementum repair. METHODS 6-8-week-old C57BL/6 mice were used to establish the model of orthodontic tooth movement. Interleukin-33 and… Click to show full abstract
OBJECTIVE This study aims to uncover the role of interleukin-33 on cementoblast-mediated cementum repair. METHODS 6-8-week-old C57BL/6 mice were used to establish the model of orthodontic tooth movement. Interleukin-33 and suppression of tumorigenicity2 (ST2) expressions were immunohistochemically detected in the periodontal tissue. In vitro, cementoblast-like (OCCM-30) cells were cultured in the presence of recombinant mouse interleukin-33 protein (rmIL-33) at a 1-14 d time frame. ST2 expressions were immunofluorescently labeled and quantitatively examined. The effects of interleukin-33 on cementoblast differentiation, mineralization and proliferation were examined by alkaline phosphatase, alizarin red staining and cell counting kit-8, respectively. To further clarify the effect of interleukin-33 on cementogenesis-related protein expressions, runt-related transcription factor 2 (RUNX2), osterix, osteopontin, bone sialoprotein(BSP), osteocalcin, osteoprotegerin (OPG) and receptor activator of NF-КB ligand (RANKL) expressions were examined by western blot. RESULTS Orthodontic load of high magnitude induces external apical root resorption, and increases interleukin-33 expression in the periodontal tissue of mice. Cells in the cementum express ST2. Interleukin-33 initially down-regulates but later recovers ST2 mRNA and protein levels in OCCM-30 cells. Interleukin-33 abates cementoblast differentiation and mineralization, and suppresses RUNX2, osterix, BSP and osteopontin expressions in OCCM-30 cells at the later stage of the culture period. Interleukin-33 enhances RANKL expression, and reduces the ratio of OPG/RANKL in OCCM-30 cells. CONCLUSION Orthodontic load of high magnitude induces interleukin-33 expression in the periodontal tissue. Interleukin-33 has a negative effect on cementogenesis via suppressing cementoblast differentiation, mineralization and cementogenesis-related protein expressions.
               
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