The novel type I transforming growth factor-β (TGF-β) family member receptor Alk8 was previously identified in a degenerate RT-PCR screen for zebrafish type I and II TGF-β family member receptors. Functional analyses revealed that Alk8 acts through Bmp signaling pathways in early embryonic dorsoventral patterning, in neural crest cell specification, and in patterning and differentiation of neural crest cell-derived pharyngeal arch cartilages. In addition, Alk8 forms active signaling complexes with TGF-β1 and the TGF-β RII receptor, suggesting that Alk8 mediates cross talk between Bmp and TGF-β subfamily members. In this study, immunohistochemical analysis was performed on zebrafish aged 2 days postfertilization to 1 year, revealing immunolocalization of Alk8 to tissues of the tooth-bearing ceratobranchial 5 (cb5) arch including dental epithelial and mesenchymal tooth tissues of developing primary and replacement teeth, mucous-producing crypt epithelium, keratinized bite plate, and developing taste buds. These results suggest roles for Alk8 in patterning tooth-bearing pharyngeal epithelium, in the initiation of tooth development, in odontoblast and ameloblast differentiation, and in osteoblast maturation. The ability for zebrafish to continuously form teeth throughout their lives allows for the comparison of Alk8 expression in both primary and replacement tooth development, revealing identical Alk8 expression profiles. This study advances our current understanding of the functions of Alk8, particularly with respect to primary and replacement tooth formation, reveals additional roles for Alk8 in dental epithelial patterning and in odontoblast, ameloblast and osteoblast differentiation, and demonstrates the utility of the zebrafish as a model for primary and replacement tooth development.

1.
Barbazuk, W.B., I. Korf, C. Kadavi, J. Heyen, S. Tate, E. Wun, J.A. Bedell, J.D. McPherson, S.L. Johnson (2000) The syntenic relationship of the zebrafish and human genomes. Genome Res 10: 1351–1358.
2.
Bauer, H., Z. Lele, R.G. Rauch, R. Geisler, M. Hammerschmidt (2001) The type I serine/threonine kinase receptor Alk8/Lost-a-fin is required for Bmp2b/7 signal transduction during dorsoventral patterning of the zebrafish embryo. Development 128: 849–858.
3.
De Caestecker, M.P., M. Bottomley, S. Bhattacharyya, T.L. Payne, A.B. Roberts, P.C. Yelick (2002) The novel type I serine-threonine kinase receptor Alk8 binds TGF-beta in the presence of TGF-betaRII. Biochem Biophys Res Commun 293: 1556–1565.
4.
Driever, W., L. Solnica-Krezel, A.F. Schier, S.C. Neuhauss, J. Malicki, D.L. Stemple, D.Y. Stainier, F. Zwartkruis, S. Abdelilah, Z. Rangini, J. Belak, C. Boggs (1996) A genetic screen for mutations affecting embryogenesis in zebrafish. Development 123: 37–46.
5.
Gaiano, N., A. Amsterdam, K. Kawakami, M. Allende, T. Becker, N. Hopkins (1996) Insertional mutagenesis and rapid cloning of essential genes in zebrafish. Nature 383: 829–832.
6.
Housworth, E.A., J. Postlethwait (2002) Measures of synteny conservation between species pairs. Genetics 162: 441–448.
7.
Huysseune, A., C. Van der Heyden, J.Y. Sire (1998) Early development of the zebrafish (Danio rerio) pharyngeal dentition (Teleostei, Cyprinidae). Anat Embryol (Berl) 198/4: 289–305.
8.
Levin, M. (2003) A novel immunohistochemical method for evaluation of antibody specificity and detection of labile targets in biological tissues. J Biochem Biophys Methods, in press.
9.
Lumsden, A.G. (1988) Spatial organization of the epithelium and the role of neural crest cells in the initiation of the mammalian tooth germ. Development 103(suppl): 155–169.
10.
Massague, J. (2000) How cells read TGF-beta signals. Nat Rev Mol Cell Biol 1/3: 169–178.
11.
Mina, M., E.J. Kollar (1987) The induction of odontogenesis in non-dental mesenchyme combined with early murine mandibular arch epithelium. Arch Oral Biol 32/2: 123–127.
12.
Mintzer, K.A., M.A. Lee, G. Runke, J. Trout, M. Whitman, M.C. Mullins (2001) Lost-a-fin encodes a type I BMP receptor, Alk8, acting maternally and zygotically in dorsoventral pattern formation. Development 128: 859–869.
13.
Mullins, M.C., M. Hammerschmidt, P. Haffter, C. Nusslein-Volhard (1994) Large-scale mutagenesis in the zebrafish: In search of genes controlling development in a vertebrate. Curr Biol 4/3: 189–202.
14.
Neuhauss, S.C., L. Solnica-Krezel, A.F. Schier, F. Zwartkruis, D.L. Stemple, J. Malicki, S. Abdelilah, D.Y. Stainier, W. Driever (1996) Mutations affecting craniofacial development in zebrafish. Development 123: 357–367.
15.
Payne, T.L., J.H. Postlethwait, P.C. Yelick (2001a) Functional characterization and genetic mapping of alk8. Mech Dev 100/2: 275–289.
16.
Payne, T.L., Z. Skobe, P.C. Yelick (2001b) Regulation of tooth development by the novel type I TGFβ family member receptor Alk8. J Dent Res 80: 1968–1973.
17.
Payne, T.L., P.C. Yelick (2003) Alk8 mediated neural crest cell and pharyngeal arch cartilage patterning. Dev Dyn, in press.
18.
Piotrowski, T., T.F. Schilling, M. Brand, Y.J. Jiang, C.P. Heisenberg, D. Beuchle, H. Grandel, F.J. van Eeden, M. Furutani-Seiki, M. Granato, P. Haffter, M. Hammerschmidt, D.A. Kane, R.N. Kelsh, M.C. Mullins, J. Odenthal, R.M. Warga, C. Nusslein-Volhard (1996) Jaw and branchial arch mutants in zebrafish. II. Anterior arches and cartilage differentiation. Development 123: 345–356.
19.
Schilling, T.F., T. Piotrowski, H. Grandel, M. Brand, C.P. Heisenberg, Y.J. Jiang, D. Beuchle, M. Hammerschmidt, D.A. Kane, M.C. Mullins, F.J. van Eeden, R.N. Kelsh, M. Furutani-Seiki, M. Granato, P. Haffter, J. Odenthal, R.M. Warga, T. Trowe, C. Nusslein-Volhard (1996) Jaw and branchial arch mutants in zebrafish. I. Branchial arches. Development 123: 329–344.
20.
Van der Heyden, C., K. Wautier, A. Huysseune (2001) Tooth succession in the zebrafish (Danio rerio). Arch Oral Biol 46: 1051–1058.
21.
Wautier K., C. Van der Heyden, A. Huysseune (2001) A quantitative analysis of pharyngeal tooth shape in the zebrafish (Danio rerio, Teleostei, Cyprinidae). Arch Oral Biol 46/1: 67–75.
22.
Westerfield, M. (1995) The Zebrafish Book, ed 4. Eugene, University of Oregon Press.
23.
Yelick, P.C., T.S. Abduljabbar, P. Stashenko (1998) alk8, a novel type I serine/threonine kinase receptor, is expressed throughout early zebrafish development. Dev Dyn 211: 352–361.
24.
Yelick, P.C., W. Driever, S. Neuhauss, P. Stashenko (1996) Craniofacial cartilage development in zebrafish. Ann N Y Acad Sci 785: 360–361.
25.
Yelick, P.C., T.F. Schilling (2002) Molecular dissection of craniofacial development using zebrafish. Crit Rev Oral Biol Med 13: 308–322.
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