Oral Cells and Tissues. Philias R. Garant
in human deciduous tooth germs in the bell stage—Histochemistry and immunohistochemistry. Acta Anat (Basel) 1997;159:1–7.
32. Cobourne MT. The genetic control of early odontogenesis. Br J Orthod 1999;26:21–28.
33. Thesleff I, Sharpe PT. Signalling networks regulating dental development. Mech Dev 1997;67:111–123.
34. Kollar E, Baird GR. The influence of the dental papilla on the development of tooth shape in embryonic mouse tooth germs. J Embryol Exp Morphol 1969;21:131–148.
35. Kollar EJ, Baird GR. Tissue interactions in embryonic mouse tooth germs. II. The inductive role of the dental papilla. J Embryol Exp Morphol 1970;24:173–186.
36. Kollar EJ. Tissue interactions in development of teeth and related ectodermal derivatives. Dev Biol 1986;4:297–313.
37. Thesleff I, Vainio S, Salmivirta K, Jalkanen M. Syndecan and tenascin: Induction during early tooth morphogenesis and possible interactions. Cell Differ Dev 1990;32:383–390.
38. Vainio S, Thesleff I. Sequential induction of syndecan, tenascin and cell proliferation associated with mesenchymal cell condensation during early tooth development. Differentiation 1992;50:97–105.
39. Salmivirta K, Elenius K, Vainio S, Hofer V, Chiquet-Ehrismann R, Thesleff I, Jalkanen M. Syndecan from embryonic tooth mesenchyme binds tenascin. J Biol Chem 1991;266: 7733–7739.
40. Lotz MM, Burdsal CA, Erickson HP, McClay DR. Cell adhesion to fibronectin and tenascin: Quantitative measurements of initial binding and subsequent strengthening response. J Cell Biol 1989;109:1795–1805.
41. Saga Y, Yagi T, Ikawa Y, Sakakura T, Aizawa S. Mice develop normally without tenascin. Genes Dev 1992;6:1821–1831.
42. Yamada M, Bringas P, Grodin M, MacDougall M, Slavkin HC. Developmental comparisons of murine secretory amelogenesis in vivo, as xenografts on the chick chorio-allantoic membrane, and in vitro. Calcif Tissue Int 1980;31:161–171.
43. Chai Y, Mah A, Crohin C, Groff S, Bringas P Jr, Le T, Santos V, Slavkin HC. Specific transforming growth factor- β subtypes regulate embryonic mouse Meckel’s cartilage and tooth development. Dev Biol 1994;162:85–103.
44. Thesleff I, Vaahtokari A, Kettunen P, Åberg T. Epithelial-mesenchymal signaling during tooth development. Connect Tissue Res 1995;32:9–15.
45. Thesleff I, Aberg T. Tooth morphogenesis and the differentiation of ameloblasts. In: Chadwick DJ, Cardew G (eds). Dental Enamel. New York: Wiley, 1997:3–12.
46. Vainio S, Karavanova I, Jowett A, Thesleff I. Identification of BMP-4 as a signal mediating secondary induction between epithelial and mesenchymal tissues during early tooth development. Cell 1993;75:45–58.
47. Jernvall J, Aberg T, Kettunen P, Keränen S, Thesleff I. The life history of an embryonic signaling center: BMP-4 induces p21 and is associated with apoptosis in the mouse tooth enamel knot. Development 1998;125:161–169.
48. Koyama E, Yamaai T, Iseki S, Ohuchi H, Nohno T, Yoshioka H, Hayashi Y, Leatherman JL, Golden EB, Noji S, Pacifici M. Polarizing activity, Sonic hedgehog, and tooth development in embryonic and postnatal mouse. Dev Dyn 1996;206: 59–72.
49. Vaahtokari A, Aberg T, Thesleff I. Apoptosis in the developing tooth: Association with an embryonic signaling center and suppression by EGF and FGF-4. Development 1996;122: 121–129.
50. Heikinheimo K, Bègue-Kirn C, Ritvos O, Tuuri T, Ruch JV. Activin and bone morphogenetic protein (BMP) signalling during tooth development. Eur J Oral Sci 1998;106:167–173.
51. Bloch-Zupan A, Décimo D, Loriot M, Mark MP, Ruch JV. Expression of nuclear retinoic acid receptors during mouse odontogenesis. Differentiation 1994;57:195–203.
52. Bloch-Zupan A, Mark MP, Weber B, Ruch JV. In vitro effects of retinoic acid on mouse incisor development. Arch Oral Biol 1994;39:891–900.
53. Mark MP, Bloch-Zupan A, Wolf C, Ruberte E, Ruch J-V. Involvement of cellular retinoic acid-binding proteins I and II (CRABPI and CRABPII) and of the cellular retinol-binding protein (CRBPI) in odontogenesis in the mouse. Differentiation 1991;48:89–98.
54. Kronmiller JE, Nguyen T, Berndt W. Instruction by retinoic acid of incisor morphology in the mouse embryonic mandible. Arch Oral Biol 1995;40:589–595.
55. Kronmiller JE, Beeman CS, Nguyen T, Berndt W. Blockade of the initiation of murine odontogenesis in vitro by citral, an inhibitor of endogenous retinoic acid synthesis. Arch Oral Biol 1995;40:645–652.
56. Mellanby H. The effect of maternal dietary deficiency of vitamin A on dental tissues in rats. J Dent Res 1941;20:489–503.
57. Knudsen PA. Congenital malformations of lower incisors and molars in exencephalic mouse embryos induced by hypervitaminosis A. Acta Odontol Scand 1967;25:669–691.
58. Kronmiller JE, Upholt WB, Kollar EJ. Alteration of murine odontogenic patterning and prolongation of expression of epidermal growth factor mRNA by retinol in vitro. Arch Oral Biol 1992;37:129–138.
59. Hashimoto Y, Shudo K. Retinoids and their nuclear receptors. Cell Biol Rev 1991;25:209–230.
60. Kronmiller JE. Spatial distribution of epidermal growth-factor transcripts and effects of exogenous epidermal growth factor on the pattern of the mouse dental lamina. Arch Oral Biol 1995;40:137–143.
61. Partanen A-M, Thesleff I. Localization and quantitation of 125I-epidermal growth factor binding in mouse embryonic tooth and other embryonic tissues at different developmental stages. Dev Biol 1987;120:186–197.
62. Kronmiller JE, Upholt WB, Kollar EJ. EGF antisense oligonucleotides block murine odontogenesis in vitro. Dev Biol 1991;147:485–488.
63. Mitsiadis TA, Muramatsu T, Muramatsu H, Thesleff I. Midkine (MK), a heparin-binding growth/differentiation factor, is regulated by retinoic acid and epithelial-mesenchymal interactions in the developing mouse tooth, and affects cell proliferation and morphogenesis. J Cell Biol 1995;129:267–281.
64. Mitsiadis TA, Salmivirta M, Muramatsu T, Muramatsu H, Rauvala H, Lehtonen E, Jalkanen M, Thesleff I. Expression of the heparin-binding cytokines, midkine (MK) and HB-GAM (pleiotrophin) is associated with epithelial-mesenchymal interactions during fetal development and organogenesis. Development 1995;121:37–51.
65. Luukko K, Moshnyakov M, Sainio K, Saarma M, Sariola H, Thesleff I. Expression of neurotrophin receptors during rat tooth development is developmentally regulated, independent of innervation, and suggests functions in the regulation of morphogenesis and innervation. Dev Dyn 1996;206:87–99.
66. Nosrat CA, Fried K, Lindskog S, Olson L. Cellular expression of neurotrophin mRNAs during tooth development. Cell Tissue Res 1997;290:569–580.
67. Nosrat CA, Fried K, Ebendal T, Olson L. NGF, BDNF, NT3, NT4, and GDNF in tooth development. Eur J Oral Sci 1998;106:94–99.
68. Christensen LR, Mollgard K, Kjaer I, Janas MS. Immunocytochemical demonstration of nerve growth factor receptor (NGF-R) in developing human fetal teeth. Anat Embryol 1993;188:247–255.
69. Zhang CZ, Li H, Young WG, Bartold PM, Chen C, Waters MJ. Evidence for a local action of growth hormone in embryonic tooth development in the rat. Growth Factors 1997;14: 131–143.
70. Joseph BK, Savage NW, Young WG, Waters MJ. Prenatal expression of growth hormone receptor/binding protein and insulin-like growth factor-I (IGF-I) in the enamel organ. Role for growth hormone and IGF-I in cellular differentiation during early tooth formation. Anat Embryol (Berl) 1994;189: 489–494.
71. Tabata MJ, Kim K, Liu JG, Yamashita K, Matsumura T, Kato J, Iwamoto M, Wakisaka S, Matsumoto K, Nakamura T, Kumegawa M, Kurisu K. Hepatocyte growth factor is involved in the morphogenesis of tooth germ in murine molars. Development 1996;122:1243–1251.
72. Moiseiwitsch JRD, Lauder JM. Stimulation of murine tooth development in organotypic culture by the neurotransmitter serotonin. Arch Oral Biol 1996;41:161–165.
73. Slavkin HC. Molecular biology