Essential Role of IFT140 in Promoting Dentinogenesis

G. Li; M. Liu; S. Zhang; H. Wan; Q. Zhang; R. Yue; X. Yan; X. Wang; Z. Wang; Y. Sun

doi:10.1177/0022034517741283

Essential Role of IFT140 in Promoting Dentinogenesis

G. Li
, M. Liu
, S. Zhang
, H. Wan
, Q. Zhang
, R. Yue
, X. Yan
, X. Wang
, Z. Wang
, Y. Sun^*

^*Corresponding author for this work

Tongji University
CAS - Center for Excellence in Molecular Cell Science
Jinan University

Research output: Contribution to journal › Article › peer-review

34 Scopus citations

Abstract

Primary cilia, with highly regulated cellular sensory functions, play key roles in tissue development and function maintenance. Intraflagellar transport 140 (IFT140) is a subunit of IFT complex A, which is specialized for retrograde transportation in cilia. Mutations of Ift140 are usually associated with syndromic ciliopathy and may cause isolated diseases such as retinal dystrophy, short ribs, and polycystic kidney. However, the role of IFT140 in tooth development has not been well investigated. In this study, a close relationship between IFT140 and dentin formation is disclosed. During tooth development, IFT140 was highly expressed in odontoblasts. To further understand the role of IFT140 in dentinogenesis, Ift140^flox/flox/Osx-Cre mouse was generated. The dentin thickness of Ift140^flox/flox/Osx-Cre mouse is thinner and the dentin formation is slower than that in control. In vitro, deletion of IFT140 in odontoblasts led to poor odontogenic differentiation, abnormal primary cilia, and decreased Sonic hedgehog signaling molecules. More important, due to loss of primary cilia in odontoblasts by IFT140 deletion, reparative dentin formation was impaired in a tooth-drilling model. These results suggest that cilia gene IFT140 is essential in promoting dentin formation and reparation.

Original language	English
Pages (from-to)	423-431
Number of pages	9
Journal	Journal of Dental Research
Volume	97
Issue number	4
DOIs	https://doi.org/10.1177/0022034517741283
State	Published - 1 Apr 2018
Externally published	Yes

Keywords

cilia
intraflagellar transport
odontoblast
regeneration
reparative dentin
tooth root

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10.1177/0022034517741283

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title = "Essential Role of IFT140 in Promoting Dentinogenesis",

abstract = "Primary cilia, with highly regulated cellular sensory functions, play key roles in tissue development and function maintenance. Intraflagellar transport 140 (IFT140) is a subunit of IFT complex A, which is specialized for retrograde transportation in cilia. Mutations of Ift140 are usually associated with syndromic ciliopathy and may cause isolated diseases such as retinal dystrophy, short ribs, and polycystic kidney. However, the role of IFT140 in tooth development has not been well investigated. In this study, a close relationship between IFT140 and dentin formation is disclosed. During tooth development, IFT140 was highly expressed in odontoblasts. To further understand the role of IFT140 in dentinogenesis, Ift140flox/flox/Osx-Cre mouse was generated. The dentin thickness of Ift140flox/flox/Osx-Cre mouse is thinner and the dentin formation is slower than that in control. In vitro, deletion of IFT140 in odontoblasts led to poor odontogenic differentiation, abnormal primary cilia, and decreased Sonic hedgehog signaling molecules. More important, due to loss of primary cilia in odontoblasts by IFT140 deletion, reparative dentin formation was impaired in a tooth-drilling model. These results suggest that cilia gene IFT140 is essential in promoting dentin formation and reparation.",

keywords = "cilia, intraflagellar transport, odontoblast, regeneration, reparative dentin, tooth root",

author = "G. Li and M. Liu and S. Zhang and H. Wan and Q. Zhang and R. Yue and X. Yan and X. Wang and Z. Wang and Y. Sun",

note = "Publisher Copyright: {\textcopyright} 2017, {\textcopyright} International \& American Associations for Dental Research 2017.",

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doi = "10.1177/0022034517741283",

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AU - Li, G.

AU - Liu, M.

AU - Zhang, S.

AU - Wan, H.

AU - Zhang, Q.

AU - Yue, R.

AU - Yan, X.

AU - Wang, X.

AU - Wang, Z.

AU - Sun, Y.

PY - 2018/4/1

Y1 - 2018/4/1

N2 - Primary cilia, with highly regulated cellular sensory functions, play key roles in tissue development and function maintenance. Intraflagellar transport 140 (IFT140) is a subunit of IFT complex A, which is specialized for retrograde transportation in cilia. Mutations of Ift140 are usually associated with syndromic ciliopathy and may cause isolated diseases such as retinal dystrophy, short ribs, and polycystic kidney. However, the role of IFT140 in tooth development has not been well investigated. In this study, a close relationship between IFT140 and dentin formation is disclosed. During tooth development, IFT140 was highly expressed in odontoblasts. To further understand the role of IFT140 in dentinogenesis, Ift140flox/flox/Osx-Cre mouse was generated. The dentin thickness of Ift140flox/flox/Osx-Cre mouse is thinner and the dentin formation is slower than that in control. In vitro, deletion of IFT140 in odontoblasts led to poor odontogenic differentiation, abnormal primary cilia, and decreased Sonic hedgehog signaling molecules. More important, due to loss of primary cilia in odontoblasts by IFT140 deletion, reparative dentin formation was impaired in a tooth-drilling model. These results suggest that cilia gene IFT140 is essential in promoting dentin formation and reparation.

AB - Primary cilia, with highly regulated cellular sensory functions, play key roles in tissue development and function maintenance. Intraflagellar transport 140 (IFT140) is a subunit of IFT complex A, which is specialized for retrograde transportation in cilia. Mutations of Ift140 are usually associated with syndromic ciliopathy and may cause isolated diseases such as retinal dystrophy, short ribs, and polycystic kidney. However, the role of IFT140 in tooth development has not been well investigated. In this study, a close relationship between IFT140 and dentin formation is disclosed. During tooth development, IFT140 was highly expressed in odontoblasts. To further understand the role of IFT140 in dentinogenesis, Ift140flox/flox/Osx-Cre mouse was generated. The dentin thickness of Ift140flox/flox/Osx-Cre mouse is thinner and the dentin formation is slower than that in control. In vitro, deletion of IFT140 in odontoblasts led to poor odontogenic differentiation, abnormal primary cilia, and decreased Sonic hedgehog signaling molecules. More important, due to loss of primary cilia in odontoblasts by IFT140 deletion, reparative dentin formation was impaired in a tooth-drilling model. These results suggest that cilia gene IFT140 is essential in promoting dentin formation and reparation.

KW - cilia

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KW - regeneration

KW - reparative dentin

KW - tooth root

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ER -

Essential Role of IFT140 in Promoting Dentinogenesis

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