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Abstract

Tooth morphogenesis involves patterning through the activity of epithelial signaling centers that, among other molecules, secrete Sonic hedgehog (Shh). While it is known that Shh responding cells need intact primary cilia for signal transduction, the roles of individual cilia components for tooth morphogenesis are poorly understood. The clinical features of individuals with Ellis-van Creveld syndrome include various dental anomalies, and we show here that absence of the cilial protein Evc in mice causes various hypo- and hyperplasia defects during molar development. During first molar development, the response to Shh signaling is progressively lost in Evc-deficient embryos and, unexpectedly, the response consistently disappears in a buccal to lingual direction. The important role of Evc for establishing the buccal-lingual axis of the developing first molar is also supported by a displaced activity of the Wnt pathway in Evc mutants. The observed growth abnormalities eventually manifest in first molar microdontia, disruption of molar segmentation and symmetry, root fusions, and delayed differentiation. Analysis of our data indicates that both spatially and temporally disrupted activities of the Shh pathway are the primary cause for the variable dental anomalies seen in patients with Ellis-van Creveld syndrome or Weyers acrodental dysostosis.

Keywords

odontogenesis organogenesis embryonic and fetal development morphogenesis growth and development ciliopathies

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References

Bitgood

McMahon

(1995). Hedgehog and Bmp genes are coexpressed at many diverse sites of cell-cell interaction in the mouse embryo. Dev Biol 172:126-138.

Blair

Tompson

Liu

Campbell

MacArthur

Ponting

. (2011). Evc2 is a positive modulator of Hedgehog signaling that interacts with Evc at the cilia membrane and is also found in the nucleus. BMC Biol 9:14.

Caparrós-Martín

Valencia

Reytor

Pacheco

Fernandez

Perez-Aytes

. (2013). The ciliary Evc/Evc2 complex interacts with Smo and controls Hedgehog pathway activity in chondrocytes by regulating Sufu/Gli3 dissociation and Gli3 trafficking in primary cilia. Hum Mol Genet [Epub ahead of print 11/1/2012] (in press).

Corbit

Shyer

Dowdle

Gaulden

Singla

Chen

. (2008). Kif3a constrains beta-catenin-dependent Wnt signaling through dual ciliary and non-ciliary mechanisms. Nat Cell Biol 10:70-76.

Dassule

Lewis

Bei

Maas

McMahon

(2000). Sonic hedgehog regulates growth and morphogenesis of the tooth. Development 127:4775-4785.

Dorn

Hughes

Rohatgi

(2012). A smoothened-evc2 complex transduces the hedgehog signal at primary cilia. Dev Cell 23:823-835.

Ellis

van Creveld

(1940). A syndrome characterized by ectodermal dysplasia, polydactyly, chondrodysplasia and congenital morbus cordis: report of three cases. Arch Dis Child 15:65-84.

Gerdes

Liu

Zaghloul

Leitch

Lawson

Kato

(2007). Disruption of the basal body compromises proteasomal function and perturbs intracellular Wnt response. Nat Genet 39:1350-1360.

Goetz

Anderson

(2010). The primary cilium: a signaling centre during vertebrate development. Nat Rev Genet 11:331-344.

10.

Gritli-Linde

Lewis

McMahon

Linde

(2001). The whereabouts of a morphogen: direct evidence for short- and graded long-range activity of hedgehog signaling peptides. Dev Biol 236:364-386.

11.

Gritli-Linde

Bei

Maas

Zhang

Linde

McMahon

(2002). Shh signaling within the dental epithelium is necessary for cell proliferation, growth and polarization. Development 129:5323-5337.

12.

Hovorakova

Prochazka

Lesot

Smrckova

Churava

Boran

. (2011). Shh expression in a rudimentary tooth offers new insights into development of the mouse incisor. J Exp Zool B Mol Dev Evol 316:347-358.

13.

Huangfu

Liu

Rakeman

Murcia

Niswander

Anderson

(2003). Hedgehog signaling in the mouse requires intraflagellar transport proteins. Nature 426:83-87.

14.

Imai

Osumi

Eto

(1998). Contribution of foregut endoderm to tooth initiation of mandibular incisor in rat embryos. Eur J Oral Sci 106(Suppl 1):19-23.

15.

Ingham

Nakano

Seger

(2011). Mechanisms and functions of Hedgehog signaling across the metazoa. Nat Rev Genet 12:393-406.

16.

Iseki

Wilkie

Heath

Ishimaru

Eto

Morriss-Kay

(1997). Fgfr2 and osteopontin domains in the developing skull vault are mutually exclusive and can be altered by locally applied FGF2. Development 124:3375-3384.

17.

Jernvall

Thesleff

(2000). Reiterative signaling and patterning during mammalian tooth morphogenesis. Mech Dev 92:19-29.

18.

Jernvall

Kettunen

Karavanova

Martin

Thesleff

(1994). Evidence for the role of the enamel knot as a control center in mammalian tooth cusp formation: non-dividing cells express growth stimulating Fgf-4 gene. Int J Dev Biol 38:463-469.

19.

Kavanagh

Evans

Jernvall

(2007). Predicting evolutionary patterns of mammalian teeth from development. Nature 449:427-432.

20.

Lesot

Vonesch

Peterka

Tureckova

Peterkova

Ruch

(1996). Mouse molar morphogenesis revisited by three dimensional reconstruction. II. Spatial distribution of mitoses and apoptosis in cap to bell staged first and second upper molar teeth. Int J Dev Biol 40:1017-1031.

21.

Liu

Chu

Watt

Zhang

Gallant

Andl

. (2008). Wnt/beta-catenin signaling directs multiple stages of tooth morphogenesis. Dev Biol 313:210-224.

22.

Mostafa

Temtamy

El-Gammal

Mazen

(2005). Unusual pattern of inheritance and orodental changes in the Ellis-van Creveld syndrome. Genet Couns 16:75-83.

23.

Nakatomi

Morita

Eto

Ota

(2006). Sonic hedgehog signaling is important in tooth root development. J Dent Res 85:427-431.

24.

Nakatomi

Wang

Key

Lund

Turbe-Doan

Kist

. (2010). Genetic interactions between Pax9 and Msx1 regulate lip development and several stages of tooth morphogenesis. Dev Biol 340:438-449.

25.

Neubüser

Peters

Balling

Martin

(1997). Antagonistic interactions between FGF and BMP signaling pathways: a mechanism for positioning the sites of tooth formation. Cell 90:247-255.

26.

Ohazama

Haycraft

Seppala

Blackburn

Ghafoor

Cobourne

. (2009). Primary cilia regulate Shh activity in the control of molar tooth number. Development 136:897-903.

27.

Ruiz-Perez

Tompson

Blair

Espinoza-Valdez

Lapunzina

Silva

. (2003). Mutations in two nonhomologous genes in a head-to-head configuration cause Ellis-van Creveld syndrome. Am J Hum Genet 72:728-732.

28.

Ruiz-Perez

Blair

Rodriguez-Andres

Blanco

Wilson

Liu

. (2007). Evc is a positive mediator of Ihh-regulated bone growth that localises at the base of chondrocyte cilia. Development 134:2903-2912.

29.

Silverman

Leroux

(2009). Intraflagellar transport and the generation of dynamic, structurally and functionally diverse cilia. Trends Cell Biol 19:306-316.

30.

Tucker

Sharpe

(2004). The cutting-edge of mammalian development; how the embryo makes teeth. Nat Rev Genet 5:499-508.

31.

Vaahtokari

Åberg

Jernvall

Keränen

Thesleff

(1996). The enamel knot as a signaling center in the developing mouse tooth. Mech Dev 54:39-43.

32.

Yang

Chen

Jiang

(2012). Smoothened transduces Hedgehog signal by forming a complex with Evc/Evc2. Cell Res 22:1593-1604.

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Evc Regulates a Symmetrical Response to Shh Signaling in Molar Development

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