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Abstract

Odontoblasts, with their strategic arrangement along the outermost compartment of the dentin-pulp complex, have been suggested to have sensory function. In addition to their primary role in dentin formation, growing evidence shows that odontoblasts are capable of sensing mechanical stimulation. Previously, we found that most odontoblasts express TRPM7, the nonselective mechanosensitive ion channel reported to be critical in Mg²⁺ homeostasis and dentin mineralization. In line with this finding, we sought to elucidate the functional expression of TRPM7 in odontoblasts by pharmacological approaches and mechanical stimulation. Naltriben, a TRPM7-specific agonist, induced calcium transient in the majority of odontoblasts, which was blocked by TRPM7 blockers such as extracellular Mg²⁺ and FTY720 in a dose-dependent manner. Mechanical stretch of the odontoblastic membrane with hypotonic solution also induced calcium transient, which was blocked by Gd³⁺, a nonselective mechanosensitive channel blocker. Calcium transient induced by hypotonic solution was also blocked by high extracellular Mg²⁺ or FTY720. When TRPM7-mediated calcium transients in odontoblasts were analyzed on the subcellular level, remarkably larger transients were detected in the distal odontoblastic process compared with the soma, which was further verified with comparable immunocytochemical analysis. Our results demonstrate that TRPM7 in odontoblasts can serve as a mechanical sensor, with its distribution to facilitate intracellular Ca²⁺ signaling in the odontoblastic process. These findings suggest TRPM7 as a mechanical transducer in odontoblasts to mediate intracellular calcium dynamics under diverse pathophysiological conditions of the dentin.

Keywords

dental physiology cell mechanotransduction ion channel molecular biology electrophysiology dentin

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References

Allard

Couble

Magloire

Bleicher

2000. Characterization and gene expression of high conductance calcium-activated potassium channels displaying mechanosensitivity in human odontoblasts. J Biol Chem. 275(33):25556–25561.

Arana-Chavez

Massa

. 2004. Odontoblasts: the cells forming and maintaining dentine. Int J Biochem Cell Biol. 36(8):1367–1373.

Bleicher

2014. Odontoblast physiology. Exp Cell Res. 325(2):65–71.

Charoenlarp

Wanachantararak

Vongsavan

Matthews

2007. Pain and the rate of dentinal fluid flow produced by hydrostatic pressure stimulation of exposed dentine in man. Arch Oral Biol. 52(7):625–631.

Cho

Ryu

Won

Vang

Bae

. 2016. Rat odontoblasts may use glutamate to signal dentin injury. Neuroscience. 335:54–63.

Chubanov

Schafer

Ferioli

Gudermann

2014. Natural and synthetic modulators of the trpm7 channel. Cells. 3(4):1089–1101.

Chung

Jung

. 2013. Cellular and molecular mechanisms of dental nociception. J Dent Res. 92(11):948–955.

Corpron

Avery

. 1972. The ultrastructure of intradental nerves in developing mouse molars. Anat Rec. 175(3):585–606.

Coste

Mathur

Schmidt

Earley

Ranade

Petrus

Dubin

Patapoutian

2010. Piezo1 and piezo2 are essential components of distinct mechanically activated cation channels. Science. 330(6000):55–60.

10.

El Karim

Linden

Curtis

About

McGahon

Irwin

Lundy

. 2011. Human odontoblasts express functional thermo-sensitive trp channels: implications for dentin sensitivity. Pain. 152(10):2211–2223.

11.

Guo

Berry

Somerman

Davidson

. 2000. A novel method to isolate odontoblasts from rat incisor. Calcif Tissue Int. 66(3):212–216.

12.

Hofmann

Schafer

Linseisen

Sytik

Gudermann

Chubanov

2014. Activation of trpm7 channels by small molecules under physiological conditions. Pflugers Arch. 466(12):2177–2189.

13.

Kim

Choi

Park

2017. Trpm7 is involved in volume regulation in salivary glands. J Dent Res. 96(9):1044–1050.

14.

Kwon

Baek

Park

Chung

. 2014. Single-cell rt-pcr and immunocytochemical detection of mechanosensitive transient receptor potential channels in acutely isolated rat odontoblasts. Arch Oral Biol. 59(12):1266–1271.

15.

Lee

Park

Kim

Park

Jung

Chung

. 2017. Extracellular atp induces calcium signaling in odontoblasts. J Dent Res. 96(2):200–207.

16.

Lin

Luo

Bai

. 2011. Fluid mechanics in dentinal microtubules provides mechanistic insights into the difference between hot and cold dental pain. Plos One. 6(3):e18068.

17.

Magloire

Lesage

Couble

Lazdunski

Bleicher

2003. Expression and localization of trek-1 k+ channels in human odontoblasts. J Dent Res. 82(7):542–545.

18.

Nakano

Abduweli

Ryazanova

Ryazanov

Den Besten

Zhang

2016. A critical role of trpm7 as an ion channel protein in mediating the mineralization of the craniofacial hard tissues. Front Physiol. 7:258.

19.

Nishiyama

Sato

Kimura

Katakura

Tazaki

Shibukawa

2016. Intercellular signal communication among odontoblasts and trigeminal ganglion neurons via glutamate. Cell Calcium. 60(5):341–355.

20.

Numata

Shimizu

Okada

2007a. Direct mechano-stress sensitivity of trpm7 channel. Cell Physiol Biochem. 19(1–4):1–8.

21.

Numata

Shimizu

Okada

2007b. Trpm7 is a stretch- and swelling-activated cation channel involved in volume regulation in human epithelial cells. Am J Physiol Cell Physiol. 292(1):C460–C467.

22.

Oancea

Wolfe

Clapham

. 2006. Functional trpm7 channels accumulate at the plasma membrane in response to fluid flow. Circ Res. 98(2):245–253.

23.

Pan

Géléoc Gwenaelle

Asai

Horwitz Geoffrey

Kurima

Ishikawa

Kawashima

Griffith Andrew

Holt Jeffrey

2013. Tmc1 and tmc2 are components of the mechanotransduction channel in hair cells of the mammalian inner ear. Neuron. 79(3):504–515.

24.

Pashley

Matthews

Zhang

Johnson

1997. Fluid shifts across human dentine in vitro in response to hydrodynamic stimuli. Arch Oral Biol. 41(11):1065–1072.

25.

Qin

Yue

Sun

Yang

Xie

Feng

Mahmood

Zhang

Yue

2012. Sphingosine and fty720 are potent inhibitors of the transient receptor potetial melastatin 7 (trpm7) channels. Br J Pharmacol. 168(6):1294–1312.

26.

Ranade

Syeda

Patapoutian

2015. Mechanically activated ion channels. Neuron. 87(6):1162–1179.

27.

Runnels

Yue

Clapham

. 2001. Trp-plik, a bifunctional protein with kinase and ion channel activities. Science. 291(5506):1043–1047.

28.

Sato

Furuya

Kimura

Kojima

Tazaki

Sato

Shibukawa

2015. Intercellular odontoblast communication via atp mediated by pannexin-1 channel and phospholipase c-coupled receptor activation. Front Physiol. 6:326.

29.

Sato

Sobhan

Tsumura

Kuroda

Soya

Masamura

Nishiyama

Katakura

Ichinohe

Tazaki

et al . 2013. Hypotonic-induced stretching of plasma membrane activates transient receptor potential vanilloid channels and sodium–calcium exchangers in mouse odontoblasts. J Endod. 39(6):779–787.

30.

Schmitz

Perraud

A-L

Johnson

Inabe

Smith

Penner

Kurosaki

Fleig

Scharenberg

. 2003. Regulation of vertebrate cellular mg2+ homeostasis by trpm7. Cell. 114(2):191–200.

31.

Shibukawa

Sato

Kimura

Sobhan

Shimada

Nishiyama

Kawaguchi

Soya

Kuroda

Katakura

et al . 2015. Odontoblasts as sensory receptors: transient receptor potential channels, pannexin-1, and ionotropic atp receptors mediate intercellular odontoblast-neuron signal transduction. Pflugers Arch. 467(4):843–863.

32.

Son

Yang

Hong

Lee

Shibukawa

Shin

. 2009. Odontoblast trp channels and thermo/mechanical transmission. J Dent Res. 88(11):1014–1019.

33.

Thomas

HF.

1979. The extent of the odontoblast process in human dentin. J Dent Res. 58(Spec Issue D):2207–2218.

34.

Wei

Wang

Chen

Ouyang

Song

Cheng

2009. Calcium flickers steer cell migration. Nature. 457(7231):901–905.

35.

Won

Vang

Lee

Kim

Kang

. 2017. Piezo2 expression in mechanosensitive dental primary afferent neurons. J Dent Res. 96(8):931–937.

36.

Yang

Sachs

1989. Blocks of stretch-activated ion channels in xenopus oocytes by gadolinium and calcium ions. Science. 243(4894 Pt 1):1068–1071.

37.

Yeon

Chung

Shin

Jung

Kim

. 2009. Adult rat odontoblasts lack noxious thermal sensitivity. J Dent Res. 88(4):328–332.

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TRPM7 Mediates Mechanosensitivity in Adult Rat Odontoblasts

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