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Neurotrophin mRNA expression in the developing tooth suggests multiple roles in innervation and organogenesis

To analyze the roles of neurotrophins during early development of rat teeth, we studied the expression of neurotrophin mRNAs from the initiation of first molar formation to the completion of crown morphogenesis. With RNAase protection assay all neurotrophin mRNAs were detected in embryonic teeth. In...

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Published in:Developmental dynamics 1997-10, Vol.210 (2), p.117-129
Main Authors: Luukko, Keijo, Arumäe, Urmas, Karavanov, Alexander, Moshnyakov, Maxim, Sainio, Kirsi, Sariola, Hannu, Saarma, Mart, Thesleff, Irma
Format: Article
Language:English
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Summary:To analyze the roles of neurotrophins during early development of rat teeth, we studied the expression of neurotrophin mRNAs from the initiation of first molar formation to the completion of crown morphogenesis. With RNAase protection assay all neurotrophin mRNAs were detected in embryonic teeth. In situ hybridization analysis revealed developmentally changing, distinct expression patterns for nerve growth factor (NGF) and neurotrophin‐3 (NT‐3), which were shown not to be regulated by or dependent on peripheral innervation. NGF mRNAs appeared in the mesenchymal target field of the tooth at the time of the trigeminal axon ingrowth (embryonic days 14–15: E14–E15), and they were also present along the pathway taken by growing trigeminal axons. NT‐4/5 mRNAs were uniformly expressed in all epithelial cells, but brain‐derived neurotrophic factor (BDNF) transcripts were not detected. All neurotrophins induced neurite outgrowth from E13–E16 trigeminal ganglion explants. These results suggest that NGF is involved in the guidance of trigeminal axons to embryonic teeth. In postnatal teeth, expression of NGF mRNAs, but not other neurotrophins, correlated with trigeminal axon ingrowth, proposing that NGF is involved in local sprouting and establishment of the final innervation pattern of the dental papilla and dentin. These results suggest that NGF is required for tooth innervation and that other neurotrophins may also have regulatory roles. In addition, the expression patterns of NGF, NT‐3, and NT‐4/5 as well as of neurotrophin receptors suggest that the neurotrophin system may also serve non‐neuronal functions during tooth development. Dev. Dyn. 1997;210: 117–129. © 1997 Wiley‐Liss, Inc.
ISSN:1058-8388
1097-0177
DOI:10.1002/(SICI)1097-0177(199710)210:2<117::AID-AJA5>3.0.CO;2-J