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Abstract

Wnt–β-catenin signaling plays a key role in orthodontic tooth movement (OTM), a common clinical practice for malocclusion correction. However, its targeted periodontal ligament (PDL) progenitor cells remain largely unclear. In this study, we first showed a synchronized increase in Wnt–β-catenin levels and Axin2⁺ PDL progenitor cell numbers during OTM using immunostaining of β-catenin in wild-type mice and X-gal staining in the Axin2-LacZ knock-in line. Next, we demonstrated time-dependent increases in Axin2⁺ PDL progenitors and their progeny cell numbers within PDL and alveolar bones during OTM using a one-time tamoxifen-induced Axin2 tracing line (Axin2^CreERT2/+; R26R^tdTomato/+). Coimmunostaining images displayed both early and late bone markers (such as RUNX2 and DMP1) in the Axin2^Lin PDL cells. Conversely, ablation of Axin2⁺ PDL cells via one-time tamoxifen-induced diphtheria toxin subunit A (DTA) led to a drastic decrease in osteogenic activity (as reflected by alkaline phosphatase) in PDL and alveolar bone. There was also a decrease in new bone mass and a significant reduction in the mineral apposition rate on both the control side (to a moderate degree) and the OTM side (to a severe degree). Thus, we conclude that the Axin2⁺ PDL cells (the Wnt-targeted key cells) are highly sensitive to orthodontic tension force and play a critical role in OTM-induced PDL expansion and alveolar bone formation. Future drug development targeting the Axin2⁺ PDL progenitor cells may accelerate alveolar bone formation during orthodontic treatment.

Keywords

periodontal ligament Wnt signaling pathway osteogenesis cellular mechanotransduction orthodontics cell lineage

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References

Bowman

Van Amerongen

Palmer

Nusse

. 2013. Lineage tracing with Axin2 reveals distinct developmental and adult populations of Wnt/β-catenin–responsive neural stem cells. Proc Natl Acad Sci. 110(18):7324–7329.

Chang

Lin

Wang

Han

Fan

. 2017. Microrna-195-5p regulates osteogenic differentiation of periodontal ligament cells under mechanical loading. J Cell Physiol. 232(12):3762–3774.

Feng

Akiyama

Liu

Yamaza

Wang

Chen

Wang

Huang

Wang

Shi

. 2010. Utility of PDL progenitors for in vivo tissue regeneration: a report of 3 cases. Oral Dis. 16(1):20–28.

Feng

Yang

Liu

Wang

Song

Cao

Gan

Kou

Zhou

. 2016. PDL progenitor-mediated PDL recovery contributes to orthodontic relapse. J Dent Res. 95(9):1049–1056.

Wang

Wan

Lin

Chang

Han

. 2016. Wnt5a mediated canonical Wnt signaling pathway activation in orthodontic tooth movement: possible role in the tension force-induced bone formation. J Mol Histol. 47(5):455–466.

Huelter-Hassler

Tomakidi

Steinberg

Jung

. 2017. Orthodontic strain affects the Hippo-pathway effector YAP concomitant with proliferation in human periodontal ligament fibroblasts. Eur J Orthod. 39(3):251–257.

Ivanova

Signore

Caro

Greene

Copp

Martinez-Barbera

. 2005. In vivo genetic ablation by Cre-mediated expression of diphtheria toxin fragment A. Genesis. 43(3):129–135.

Jho

Zhang

Domon

Joo

Freund

Costantini

. 2002. Wnt/β-catenin/Tcf signaling induces the transcription of Axin2, a negative regulator of the signaling pathway. Mol Cell Biol. 22(4):1172–1183.

Kawarizadeh

Bourauel

Gotz

Jager

. 2005. Early responses of periodontal ligament cells to mechanical stimulus in vivo. J Dent Res. 84(10):902–906.

10.

Krishnan

Davidovitch

. 2006. Cellular, molecular, and tissue-level reactions to orthodontic force. Am J Orthod Dentofacial Orthop. 129(4):469.e1–469.e32.

11.

Zhang

Kang

Liu

Zhang

Harris

. 2005. Sclerostin binds to LRP5/6 and antagonizes canonical Wnt signaling. J Biol Chem. 280(20):19883–19887.

12.

Lim

Tan

Koh

WLC

Chau

RMW

Yan

Kuo

van Amerongen

Klein

Nusse

. 2013. Interfollicular epidermal stem cells self-renew via autocrine Wnt signaling. Science. 342(6163):1226–1230.

13.

Odagaki

Ishihara

Wang

Ei Hsu Hlaing

Nakamura

Hoshijima

Hayano

Kawanabe

Kamioka

. 2018. Role of osteocyte-PDL crosstalk in tooth movement via SOST/sclerostin. J Dent Res. 97(12):1374–1382.

14.

Rangiani

Jing

Ren

Yadav

Taylor

Feng

. 2016. Critical roles of periostin in the process of orthodontic tooth movement. Eur J Orthod. 38(4):373–378.

15.

Reitan

. 1957. Some factors determining the evaluation of forces in orthodontics. Am J Orthod. 43(1):32–45.

16.

Ren

Han

Harris

Cao

Economides

Qin

Liu

Feng

. 2015. Removal of SOST or blocking its product sclerostin rescues defects in the periodontitis mouse model. FASEB J. 29(7):2702–2711.

17.

Seo

B-M

Miura

Gronthos

Mark Bartold

Batouli

Brahim

Young

Gehron Robey

Wang

Shi

. 2004. Investigation of multipotent postnatal stem cells from human periodontal ligament. Lancet. 364(9429):149–155.

18.

Shen

Qiu

Chang

Yang

Jian

Xiong

Zhou

Dong

. 2014. Cyclic tension promotes osteogenic differentiation in human periodontal ligament stem cells. Int J Clin Exp Pathol. 7(11):7872.

19.

Sonoyama

Liu

Fang

Yamaza

Seo

Zhang

Liu

Gronthos

Wang

, et al. 2006. Mesenchymal stem cell-mediated functional tooth regeneration in swine. PLoS One. 1:e79.

20.

Sun

Wen

Zhang

Qiao

. 2018. Expression pattern of YAP and TAZ during orthodontic tooth movement in rats. J Mol Histol. 49(2):123–131.

21.

Takimoto

Kawatsu

Yoshimoto

Kawamoto

Seiryu

Takano-Yamamoto

Hiraki

Shukunami

. 2015. Scleraxis and osterix antagonistically regulate tensile force-responsive remodeling of the periodontal ligament and alveolar bone. Development. 142(4):787–796.

22.

Tang

Zhao

Zhang

. 2012. Up-regulated osteogenic transcription factors during early response of human periodontal ligament stem cells to cyclic tensile strain. Arch Med Sci. 8(3):422–430.

23.

Van Amerongen

Bowman

Nusse

. 2012. Developmental stage and time dictate the fate of Wnt/β-catenin-responsive stem cells in the mammary gland. Cell Stem Cell. 11(3):387–400.

24.

Wang

Zhao

Fish

Logan

Nusse

. 2015. Self-renewing diploid Axin2⁺ cells fuel homeostatic renewal of the liver. Nature. 524(7564):180–185.

25.

Xie

Wang

Zhang

Jing

Wang

Zhao

Feng

. 2019. Axin2⁺-mesenchymal pdl cells, instead of k14⁺ epithelial cells, play a key role in rapid cementum growth. J Dent Res. 98(11):1262–1270.

26.

Nie

Deng

Lai

Sun

Tian

Fang

Zou

Ou-Yang

. 2017. Periostin is essential for periodontal ligament remodeling during orthodontic treatment. Mol Med Rep. 15(4):1800–1806.

27.

Yuan

Zhang

Chen

Shi

Brunski

Helms

. 2019. Mechanoadaptive responses in the periodontium are coordinated by Wnt. J Dent Res. 98(6):689–697.

28.

Yuan

Pei

Zhao

Tulu

Liu

Helms

. 2018. A Wnt-responsive PDL population effectuates extraction socket healing. J Dent Res. 97(7):803–809.

29.

Zhang

Liu

Zhao

Shen

Zhang

Jin

. 2016. Mechanical stress regulates osteogenic differentiation and RANKL/OPG ratio in periodontal ligament stem cells by the Wnt/β-catenin pathway. Biochim Biophys Acta. 1860(10):2211–2219.

30.

Zhang

Yuan

Arioka

Van Brunt

Shi

Brunski

Helms

. 2019. Molecular basis for periodontal ligament adaptation to in vivo loading. J Dent Res. 98(3):331–338.

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Axin2+ PDL Cells Directly Contribute to New Alveolar Bone Formation in Response to Orthodontic Tension Force

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