Three-dimensional imaging reveals new compartments and structural adaptations in odontoblasts

M. Khatibi Shahidi; J. Krivanek; N. Kaukua; P. Ernfors; L. Hladik; V. Kostal; S. Masich; A. Hampl; V. Chubanov; T. Gudermann; R. A. Romanov; T. Harkany; I. Adameyko; K. Fried

doi:10.1177/0022034515580796

Three-dimensional imaging reveals new compartments and structural adaptations in odontoblasts

M. Khatibi Shahidi
, J. Krivanek
, N. Kaukua
, P. Ernfors
, L. Hladik
, V. Kostal
, S. Masich
, A. Hampl
, V. Chubanov
, T. Gudermann
, R. A. Romanov
, T. Harkany
, I. Adameyko
, K. Fried

Research output: Contribution to journal › Article › peer-review

41 Scopus citations

Abstract

In organized tissues, the precise geometry and the overall shape are critical for the specialized functions that the cells carry out. Odontoblasts are major matrix-producing cells of the tooth and have also been suggested to participate in sensory transmission. However, refined morphologic data on these important cells are limited, which hampers the analysis and understanding of their cellular functions. We took advantage of fluorescent color-coding genetic tracing to visualize and reconstruct in 3 dimensions single odontoblasts, pulp cells, and their assemblages. Our results show distinct structural features and compartments of odontoblasts at different stages of maturation, with regard to overall cellular shape, formation of the main process, orientation, and matrix deposition. We demonstrate previously unanticipated contacts between the processes of pulp cells and odontoblasts. All reported data are related to mouse incisor tooth. We also show that odontoblasts express TRPM5 and Piezo2 ion channels. Piezo2 is expressed ubiquitously, while TRPM5 is asymmetrically distributed with distinct localization to regions proximal to and within odontoblast processes.

Original language	English
Pages (from-to)	945-954
Number of pages	10
Journal	Journal of Dental Research
Volume	94
Issue number	7
DOIs	https://doi.org/10.1177/0022034515580796
State	Published - 03 Jul 2015
Externally published	Yes

Keywords

cell morphology
dentinogenesis
growth/development
protein expression
pulp biology
transgenic animals

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10.1177/0022034515580796

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Khatibi Shahidi, M., Krivanek, J., Kaukua, N., Ernfors, P., Hladik, L., Kostal, V., Masich, S., Hampl, A., Chubanov, V., Gudermann, T., Romanov, R. A., Harkany, T., Adameyko, I., & Fried, K. (2015). Three-dimensional imaging reveals new compartments and structural adaptations in odontoblasts. Journal of Dental Research, 94(7), 945-954. https://doi.org/10.1177/0022034515580796

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title = "Three-dimensional imaging reveals new compartments and structural adaptations in odontoblasts",

abstract = "In organized tissues, the precise geometry and the overall shape are critical for the specialized functions that the cells carry out. Odontoblasts are major matrix-producing cells of the tooth and have also been suggested to participate in sensory transmission. However, refined morphologic data on these important cells are limited, which hampers the analysis and understanding of their cellular functions. We took advantage of fluorescent color-coding genetic tracing to visualize and reconstruct in 3 dimensions single odontoblasts, pulp cells, and their assemblages. Our results show distinct structural features and compartments of odontoblasts at different stages of maturation, with regard to overall cellular shape, formation of the main process, orientation, and matrix deposition. We demonstrate previously unanticipated contacts between the processes of pulp cells and odontoblasts. All reported data are related to mouse incisor tooth. We also show that odontoblasts express TRPM5 and Piezo2 ion channels. Piezo2 is expressed ubiquitously, while TRPM5 is asymmetrically distributed with distinct localization to regions proximal to and within odontoblast processes.",

keywords = "cell morphology, dentinogenesis, growth/development, protein expression, pulp biology, transgenic animals",

author = "\{Khatibi Shahidi\}, M. and J. Krivanek and N. Kaukua and P. Ernfors and L. Hladik and V. Kostal and S. Masich and A. Hampl and V. Chubanov and T. Gudermann and Romanov, \{R. A.\} and T. Harkany and I. Adameyko and K. Fried",

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Khatibi Shahidi, M, Krivanek, J, Kaukua, N, Ernfors, P, Hladik, L, Kostal, V, Masich, S, Hampl, A, Chubanov, V, Gudermann, T, Romanov, RA, Harkany, T, Adameyko, I & Fried, K 2015, 'Three-dimensional imaging reveals new compartments and structural adaptations in odontoblasts', Journal of Dental Research, vol. 94, no. 7, pp. 945-954. https://doi.org/10.1177/0022034515580796

TY - JOUR

T1 - Three-dimensional imaging reveals new compartments and structural adaptations in odontoblasts

AU - Khatibi Shahidi, M.

AU - Krivanek, J.

AU - Kaukua, N.

AU - Ernfors, P.

AU - Hladik, L.

AU - Kostal, V.

AU - Masich, S.

AU - Hampl, A.

AU - Chubanov, V.

AU - Gudermann, T.

AU - Romanov, R. A.

AU - Harkany, T.

AU - Adameyko, I.

AU - Fried, K.

N1 - Publisher Copyright: © International & American Associations for Dental Research 2015.

PY - 2015/7/3

Y1 - 2015/7/3

N2 - In organized tissues, the precise geometry and the overall shape are critical for the specialized functions that the cells carry out. Odontoblasts are major matrix-producing cells of the tooth and have also been suggested to participate in sensory transmission. However, refined morphologic data on these important cells are limited, which hampers the analysis and understanding of their cellular functions. We took advantage of fluorescent color-coding genetic tracing to visualize and reconstruct in 3 dimensions single odontoblasts, pulp cells, and their assemblages. Our results show distinct structural features and compartments of odontoblasts at different stages of maturation, with regard to overall cellular shape, formation of the main process, orientation, and matrix deposition. We demonstrate previously unanticipated contacts between the processes of pulp cells and odontoblasts. All reported data are related to mouse incisor tooth. We also show that odontoblasts express TRPM5 and Piezo2 ion channels. Piezo2 is expressed ubiquitously, while TRPM5 is asymmetrically distributed with distinct localization to regions proximal to and within odontoblast processes.

AB - In organized tissues, the precise geometry and the overall shape are critical for the specialized functions that the cells carry out. Odontoblasts are major matrix-producing cells of the tooth and have also been suggested to participate in sensory transmission. However, refined morphologic data on these important cells are limited, which hampers the analysis and understanding of their cellular functions. We took advantage of fluorescent color-coding genetic tracing to visualize and reconstruct in 3 dimensions single odontoblasts, pulp cells, and their assemblages. Our results show distinct structural features and compartments of odontoblasts at different stages of maturation, with regard to overall cellular shape, formation of the main process, orientation, and matrix deposition. We demonstrate previously unanticipated contacts between the processes of pulp cells and odontoblasts. All reported data are related to mouse incisor tooth. We also show that odontoblasts express TRPM5 and Piezo2 ion channels. Piezo2 is expressed ubiquitously, while TRPM5 is asymmetrically distributed with distinct localization to regions proximal to and within odontoblast processes.

KW - cell morphology

KW - dentinogenesis

KW - growth/development

KW - protein expression

KW - pulp biology

KW - transgenic animals

UR - https://www.scopus.com/pages/publications/84935082368

U2 - 10.1177/0022034515580796

DO - 10.1177/0022034515580796

M3 - Article

C2 - 25838461

AN - SCOPUS:84935082368

SN - 0022-0345

VL - 94

SP - 945

EP - 954

JO - Journal of Dental Research

JF - Journal of Dental Research

IS - 7

ER -

Three-dimensional imaging reveals new compartments and structural adaptations in odontoblasts

Abstract

Keywords

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