Clinical and Molecular Studies on Impacted Canines and the Regulatory Functions and Differentiation Potential of the Dental Follicle
Abstract
Background: Impaction of the permanent maxillary canines, which is a common problem in dentistry, may
require surgery and long-term orthodontic treatment. Until now, impaction has mostly been linked to physical
obstructions and the direction of movement of the tooth. However, the molecular co-ordination of bone
formation and bone resorption necessary for the eruption process, which is suggested to be regulated by the
dental follicle, needs to be investigated further.
Aims: The overall objectives of this thesis were to determine which clinical factors are related to impacted
canines, and to investigate the regulatory functions and differentiation potential of the dental follicle.
Patients and methods: The positions of impacted and normally erupting canines (orthopantograms), the
skeletal variables (profile radiographs), and dento-alveolar traits (casts) were evaluated as potential predictive
factors for impaction using a multivariate data analysis (N=90 patients). The gene expression profiles of boneregulatory
markers were determined by RT-qPCR and immunofluorescence staining of human dental follicles.
Whole dental follicles (N=11) obtained from impacted canines, with or without signs of root resorption, and
from control teeth (normal erupting teeth and mesiodens), together with the apical (N=15) and coronal (N=15)
segments (processed independently), were analysed. In vitro osteogenic differentiation of human dental follicle
cells (hDFC) was followed by the quantification of gene expression of osteoblast-phenotypic markers and
Alizarin Red staining. Quantifications of the molecular permeability of gap junctional intercellular communication
and of CX43 expression were performed with the dye parachute technique and flow cytometry, respectively.
Next-generation sequencing and bioinformatics processing were used for the identification of differentially
regulated genes and pathways involved in the differentiation of hDFC.
Results: Clinical variables related to the spatial location of the un-erupted tooth exert the strongest influences
on impaction. However, they cannot be attributed to the cause of impaction, and they cannot be used as predictors.
The RT-qPCR analyses revealed that the transcript levels for osteoclast-related markers (M-CSF, MCP-1,
RANKL) were minimally expressed compared to those for osteoblastic markers (RUNX2, COL-1, OSX, ALP,
OCN). No differential patterns of expression were identified between the impacted canines, with or without
clinical signs of root resorption, or compared to the follicles from mesiodens or the normally erupting teeth.
When the apical and coronal sections were analysed independently, significant differential expression was
detected for the RANKL gene in the coronal part of the dental follicles, as compared with their corresponding
apical parts. The induced expression levels of RANKL and OPG in cultured hDFC obtained from different
patients were also significantly different. CX43 was observed to be highly expressed in the follicular tissues, and
its expression was increased when the cells were cultured in osteogenic medium, and even further enhanced
when the cells were exposed to silica (Si). We found that multipotent stem cells residing in the dental follicle
could be induced to differentiate towards an osteoblastic lineage under favourable in vitro conditions, resulting
in regulation of the osteoblastic phenotypic markers (RUNX2, OSX, BMP2, ALP, and OCN) and active deposition
of a mineralised matrix. In addition, Si enhanced osteogenic differentiation in combination with osteogenic
induction medium, as revealed by increases in the expression of CX43 and gap junction communication activity
in the hDFC.
Conclusions: The results presented in the thesis reveal that clinical variables are influential, but not determinants,
for tooth impaction. The dental follicle in the late pre-eruptive stage mainly expresses osteoblastregulatory
markers, whereas the levels of osteoclast-related markers are very low. Significant expression of
CX43 and gap junction communication activity were detected, indicating an important role for these factors in
the functional processes in the dental follicle. The significant upregulation of RANKL expression in the coronal
part of the dental follicles suggests the importance of recruiting and activating osteoclasts, so as to form the
eruption path through the alveolar bone. Moreover, the differential expression of induced RANKL in cultured
hDFC may explain the diversity of events noted in the clinical setting during tooth eruption. Mesenchymal cells
located in the dental follicle provide the optimal precursors, which can be cultured under in vitro conditions and
further triggered with Si to differentiate towards an osteoblastic lineage.
Parts of work
I. Uribe P, Ransjö M, and Westerlund A. Clinical predictors of maxillary canine impaction:
a novel approach using multivariate analysis. European Journal of Orthodontics,
2017, 153–160. ::doi::10.1093/ejo/cjw042 II. Uribe P, Larsson L, Westerlund A, and Ransjö M. Gene expression profiles in
dental follicles from patients with impacted canines. Submitted for publication III. Uribe P, Plakwicz P, Larsson L, Czochrowska E, Westerlund A, and Ransjö M.
Local patterns of regulatory factors expressed in human dental follicles. Submitted
for publication IV. Uribe P, Johansson A, Westerlund A, Larsson L, Magnusson C, and Ransjö M.
Effect of soluble Silica on Cx43 gap junction communication and osteogenic
differentiation in human dental follicle cells. In manuscript
Degree
Doctor of Philosophy (Odontology)
University
University of Gothenburg. Sahlgrenska Academy
Institution
Institute of Odontology. Department of Orthodontics
Disputation
Fredagen den 15 december, klockan 9.00, Föreläsningssal 3, Odontologen, Medicinaregatan 12D, Göteborg
Date of defence
2017-12-15
pameu3@hotmail.com
Date
2017-11-20Author
Uribe-Trespalacios, Pamela
Keywords
Impacted canines
Dental follicle
Osteoblasts
Osteoclasts
Connexin 43
Publication type
Doctoral thesis
ISBN
978-91-629-0290-2 (print)
978-91-629-0291-9 (pdf)
Language
eng