department of oral biology february, 20162016/02/16 · e enamel d dentin tooth development...
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Tooth development
Dr. Gábor Varga
Department of Oral Biology
February, 2016
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Jawbone in cross section
CP cortical plates
(compact lamellar bone)
AB alveolar bone
(spongy/bundle bone)
BB basal bone
ABP alveolar bone proper
PDL periodontal ligament
MS medullary spaces
E enamel
D dentin
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Tooth development (introduction)
• Bone formation (brief overview)
• Tooth development
• Common vs. different
• Stem cells (potential in dentistry)
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Macromorphological structure of bone
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Macromorphological structure of bone
Havers lamella
Periosteum
Osteocyte
Osteon
Compact bone Trabeculae (spongy bone)
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Bone formation 1 - intramembranous ossification
Intramembranous ossification involves the replacement of sheet-like connective tissue membranes with bony tissue.
Bones formed in this manner are called intramembranous bones. They include certain flat bones of the skull and some of the irregular bones.
The future bones are first formed as connective tissue membranes.
Then osteoblasts migrate to the membranes and deposit bony matrix around themselves.
When the osteoblasts are surrounded by matrix they are called osteocytes.
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Intramembranous ossification in mandible – calcification occurs in a separate site from Merckel’s cartilage
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Bone formation 2 - Endochondral
ossification The process of bone formation occurs in three stages, orchestrated by specialized bone cells that secrete and absorb materials as needed.
First, a soft cartilage-based foundation is laid, upon which mature bone will solidify.
Then, minerals containing calcium and phosphate are deposited throughout the foundation, creating a framework for the bone.
Finally, this raw material is sculpted and hardened into bone.
Missteps in this process can result in developmental defects and bone diseases
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Endochondral ossification: the epiphysis of a long bone.
First is cartilage formation, then replaced by bone
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Major cell types of bone
- the basis to achieve continuous renewal!!!)
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Molar
longitudinal
section
the enamel
covers the dentin
Pulp Horn
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LAMINA BUD STAGE CAP STAGE BELL STAGE ERUPTION
Tooth development
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Tooth development – details 1
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Tooth development – details 2
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Section of tooth – enamel and dentin formation
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Histologic slide showing a tooth bud
A: enamel organ
B: dental papilla
C: dental follicle
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Tooth bud
formation
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Histologic slide of tooth in cap stage
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Histologic slide of tooth in early bell stage. Note cell organization
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Histologic slide of tooth in late bell stage.
Note disintegration of dental lamina at top
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Histologic slide of developing hard tissues. Ameloblasts form enamel,
while odontoblasts form dentin.
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Histologic slide of tooth erupting into the
mouth.
A: tooth
B: gingiva
C: bone
D: periodontal ligaments
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Histologic slide of tooth. Note the tubular appearance of dentin.
A: enamel
B: dentin
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Cross-section of tooth at root. Note clear, acellular appearance of cementum.
A: dentin
B: cementum
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Sections of tooth undergoing development.
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Tucker, A., and Sharpe, P.
The cutting-edge of mammalian development; how the embryo makes teeth.
Nature reviews 5, 499, 2004.
Neuronal development:
a link to tooth development
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Enamel organ and dental papilla
– Their interaction is crucial for tooth developments
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Control of tooth shape – ectomesemchymal dominance
OBSERVE THAT TOOTH FORM IS DETERMINED BY THE
DENTAL PAPILLA (ie the ectomesenchymal side)
Barx1 gene expression is strongly related to molar formation
a) its suppression leads to incisor formation in molar area)
b) its ectopic expression in incisor area leads to molar formation)
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Control of tissue differentiation –
inductive action of mesenchyme
OBSERVE THAT TISSUE TYPE FORMATION IS
DETERMINED BY THE MESENCHYMAL SIDE
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Morphogenesis of tooth
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Tooth development is driven by
communication between cells using signal
molecules activating specific receptors
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Molecular components of control
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A model of the molecular regulation of
tooth development from initiation to
crown morphogenesis Epithelium
Mesenchyme
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The Runx2 gene is necessary for tooth
development - In Runx2 knockout mice tooth developments stops at
very early stage
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Oligodontia in a human patient with
hypohydrotic ectodermal dysplasia (HED) -
The ectodysplasin gene is crucial for tooth development
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Ectodysplasin stimulates tooth formation
Normal
Ectodysplasin
KO -/-
Ectodysplasin
overexpression
Effect of knock-out
(KO) and
overexpression of
ectodysplasin gene in
mouse
Decreased number of
molars
Increased number of
molars
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Tooth development (summary)
• Bone formation (brief overview)
• Tooth development
• Common vs. Different
• Stem cells (potential in dentistry)