Tooth chemical composition and...
Transcript of Tooth chemical composition and...
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Tooth: chemical compositionand structure
Lenka Fialová
Seminar – dentistry first year
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Composition of mineralized tissues
Inorganicpart
Organicpart Water
Enamel 97 % 1,5 % 1,5 %
Dentine 70 % 20 % 10 %
Cement 60 % 25 % 15 %
Bone 65 % 25 % 10 %
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Dentine
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Composition of dentineDentine is a mineralized connective tissue and itscomposition and formation is similar as the bone.
• Cells▫ Odontoblasts
• Intercellular matrix▫ Organic part 20 %▫ Water 10 %▫ Inorganic part 70 % hydroxyapatite crystals
(uniform lamels)
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Organic part of dentine
▫ Collagens cca 90 % ▫ Noncollagen proteins cca 10 %▫ Proteoglycans
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Organic part of dentine
Collagens▫ Collagen type I 98 %▫ Collagen type III, V 1 - 2 %
• Collagen fibers have net like structure in dentine. • Collagen fibres form the boundary of three-
dimensional structure, to which the inorganic materialof dentine is deposited.
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Organic part of dentineMineralization process needs the presence of collagen fibrils, and of other noncollagen proteins.
Noncollagen proteins Phosforylated matrix proteins Nonphosphorylated matrix proteins Enzymes Metalloproteinases Cathepsins Alkaline phosphatase
Blood serum proteins Growth factors
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Organic part of dentinePhosphorylated matrix proteins▫ These proteins have acidic nature, characterized by high
content of glutamate and aspartate, and of phosphoserine(sythetized by posttranslational modification of the protein).
▫ The function of the above mentioned extracellular proteins isbinding of calcium.
▫ These proteins are able to react with collagen fibrils bind to the cells.
THE ROLE IN DENTINE MINERALIZATION
▫ Theese proteins may act as iniciators and/or inhibitors of themineralization process.
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Organic part of dentinePhosphorylated matrix proteins
▫ Dentine sialophosphoprotein (DSPP)▫ Dentine matrix protein-1 (DMP-1)▫ Bone sialoprotein (BSP)▫ Osteopontin (OPN)
The above mentioned proteins form a family ofSIBLING proteins(Small Integrin-Binding Ligand N-linked Glycoproteins), allhaving common structural characteristic.
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Dentine sialophosphprotein (DSPP)
The highest content of dentine sialophosphoproteinis observed in dentine, however it is present alsoin cement and bone.
Dentine sialophosphoprotein is proteolyticallydegraded to following active proteins:▫ dentine phosphoprotein (DPP) ▫ dentine sialoprotein (DSP)
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Dentine phosphoprotein (DPP)
Basic characteristic
▫ the most abundant noncollagenprotein of the dentine extracellular
matrix▫ phosphoforyn – supposed to be a
transporter of phosphate▫ binding of Ca2+ ions▫ binding to collagen
COO- COO-
Ca2+
COO-
PO42-
PO42-PO4
2-
PO42-
PO42-
Ca2+
Ca2+
Ca2+
C
HN
CHCH2
O
O
P
O
OO
Fosfoserinový zbytekPhosphoserin residue
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Dentine phosphoprotein (DPP)Characteristic: ▫ High density of negative charges high content of phosphoserine 45 – 50 % high content of aspartate 35 – 38 % arranged to repetitive sequences
(Asp–phosphorylated Ser-phosphorylated Ser)n
(Asp–phosphorylated Ser)n
BINDING OF HIGH AMOUNT OF CALCIUM IONSFormation of insoluble aggregates with Ca a Mg ions
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Dentine phosphoprotein (DPP)
Function▫ initiator and modulator of dentine mineralization▫ in the region of the front of mineralization DPP
binds close to the holes between individualmonomers of collagen, where the first mineraldeposites are formed – nucleation places
▫ affects the size and shape of apatite crystals →small strip-like crystalls
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Dentine sialoprotein (DSP)▫ Function not yet precisely defined
Dentine matrix protein-1 (DMP-1)▫ multifunctional protein takes part in biomineralization of dentine and
bones regulation cell differetiation (mesenchymal cell
into odontoblasts) and cell attachment
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Bone sialoprotein (BSP)
▫ takes part in mineralizaton process▫ in dentine higher content than in predentine
Osteopontin▫ Present in different tissues, its content in
bones is higher than in dentine▫ Capability to connect cells with the mineral
component of the matrix (pons means bridge in Latin)
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Organic part of dentine
Important nonphosphorylated matrix proteins Osteocalcin (rich in γ-carboxyglutamate)
Osteonectin (acidic protein rich in cystein)
are members of a group of secreted calcium binding
proteins.
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Osteocalcin
Basic characteristic:▫low-molecular calcium binding protein▫most abundant noncollagen bone protein▫lower content in dentine
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Osteocalcine
Characteristic:▫ contains 3 residues of γ-carboxyglutamate
▫ synthesis of the protein depends on the presence of vitamin K
Function▫ binding of hydroxyapatite by three residues of γ-
carboxyglutamate▫ inhibition or control of the hydroxyapatite crystalization
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HN H
CCO
CH2
CH2
COO
HN H
CCO
CH2
HCCOO
-COO
-
Zbytek kyseliny
glutamovéZbytek
kyseliny
γ-karboxyglutamové
O2CO2
Vitamin KH2
H2OVitamin
KO
Karboxylasa závislá na vitaminu
K
Posttranslational carboxylation of glutamate residues
Ca2+
• By posttranslational carboxylation of γ-carbons of glutamate originates the γ-carboxyglutamate (Gla). Gla shows high affinity to Ca2 ions.
• The above mentioned posttranslational modification occurs not only during synthesis of osteocalcin, but also in the case of proteins taking part in hemocoagulation (Gla proteins).
• This enzymatically catalyzed reaction needs vitamin K.
Vitamin K-dependent carboxylase
Glutamate residue γ-carboxyglutamate residue
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Proteoglycans▫ Chondroitinsulphates▫ Keratansulphates
▫ are secreted to predentine and block the mineralization.
▫ they must be metabolized or removed prior to mineralization.
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Dentinogenesis
• Predentine▫ Nonmineralized tissue only organic part
• Dentine▫ Mineralized tissue organic part mineral part
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Dentinogenesis
Predentine formation:▫ Synthesis of organic matrixStarts with formation of layer of nonmineralized matrix rich in collagen I by odontoblast (predentine).
Mineralization of organic matrix▫ Precipitation of inorganic phase in region of front of
mineralizationPredentine is transformed to dentine by deposition of mineral to organic matrix in form of hydroxyapatite crystals by controlledbiomineralization process.
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Enamel
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Enamel
Covers the surface of dental crown.▫ The hardest mineralized tissue of human body resisting the
forces of mastication.▫ Semipermeable tissue Penetration of different molecules – movement of ions into the enamel
E.g. fluorides presnt in toothpaste ▫ No resorption and remodelation as in the bone tissue.
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Composition of enamel
▫ Inorganic part 97 %
▫ Organic matrix 1,5 % Proteins, lipids
▫ Water 1,5 % Bound water – in crystals as their hydratation cover Free water – present in organic matrix
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Inorganic part of enamel • Enamel apatite▫ Hydroxyapatite▫ Fluoroapatite▫ Carbonateapatite
• Shape of apatite crystals ▫ In cross-section approximatelly
hexagonal▫ In side wiew rod-like shape▫ Crystals of enamel apatite are
organized to the prisms, separated by interprismatic substance (organic matrix). LF UP |
Ústav histologie a embryologie |Studijní materiály |
Atlas elektronové mikroskopie
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Organic part of the enamel
Proteins of enamel matrix ▫ Mature ameloblasts secrete a mixture of proteins,
glycoproteins and of proteolytic enzymes controlling the growth and formation of mineral phase.
▫ Proteins of enamel interact together and react also with with hydroxyapatite. In the course of enamel mineralisation almost all proteins are removed.
▫ Almost all proteins of the enamel matrix are in contrary to dentine noncollagen proteins nonphosphorylated.
▫ Collagen is not present in the enamel organic matrix.
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Organic part of enamel
Important proteins of the enamel matrix▫ Amelogenins cca 80 – 90 %
▫ Nonamelogenin proteins Ameloblastin/amelin/sheathlin cca 5 – 10 % Enamelin cca 1 – 5 % Tuftelin Enzymes – mainly proteinases
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Amelogenins
Basic charakteristic▫ The most abundant proteins of the enamel organic
matrix ▫ Main part of the newly secreted enamel ▫ Produced by ameloblasts in the secretion phase of
the enamel formation▫ Regulation of biomineralisation in the course of the
secretion phase of enamel formation▫ Hydrophobic protein with ability to aggreagate
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AmelogeninsCharakteristic of the molecule▫ N-terminal hydrophobic domain – DOMAIN A▫ Central hydrophobic domain – DOMAIN C▫ C-terminal, hydrophilic, acidic – DOMAIN B Binding to hydroxyapatite after secretion of the protein quickly removed proteolytically Important in the early phase of enamel formation
Domain A Domain C Domain B
N-terminus C-terminusCentral domain
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Amelogenins
Grouping of amelogenine molecules
▫ Amelogenine molecules are able to polymerize. First theoligomers appear, which later form small, spheric particles(nanosphere), 20 nm in diameter.
▫ Contact of hydrophilic domain with hydroxapatiterestricts the growth of crystals in circumference and affects the crystal lenght and thickness.
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Enamel formation Ameloblasts▫ each ameloblast forms one prizm
Process of enamel formation is a result of interaction of different enamel proteins, which transitionally aggregate. The way of their arrangement controls the growth, structure and orientation of developing hydroxypatite crystals.
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Enamel formation
▫ Secretion phase Formation of organic matrix, which is
mineralised in part.
▫ Maturation phase After formation of enamel in full size and
volume the mineralisation is completed. Theproteins of the organic matrix (amelogeninand others) are degraded by proteolyticenzymes and also water is removed.
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Cementum
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Cementum Cementum is a mineralised connective tissue
covering dentine, in region of the root. The fibres of periodontal ligaments are anchored to cementum. The composition of cementum resembles the bone tissue.
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Composition of the cementum
• Cells▫ Cementocytes
• Intercellular matter▫ Organic part 25 %▫ Inorganic part 60 % Crystalls of hydroxyapatite and small amount of
amorphous calciumphosphate
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Organic part of cementum▫ Collagens Collagen type I 90 % Collagen type III (covers collagen fibrils) 5 %
▫ Noncollagen proteins Important for mineralisation process Bone sialoprotein Osteopontin Osteonectin Osteocalcin Alkaline phosphatase
▫ Proteoglycans
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The dental pulp
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Copmposition of the dental pulp• Main cells▫ Fibroblasts (s.c. pulpoblasts with two processes, synthetize
the collagen fibrils and proteoglycans)▫ Makrophages (imunity - phagocytosis)
• Intercellular matter▫ Organic part 25 %▫ Water 75 %
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Organic part Substantially different from intercellular matter of
dentine.Dentine proteins taking part in the mineralisation are not
present in pulp → the pulp is not able to mineralise
▫ Collagens Collagen type I 56 % Collagen type III 41 % Collagen type V 2,5 % Collagen VI 0,5 %
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Organic part of the pulp▫ Noncollagen proteins
Bone sialoprotein Osteopontin Fibronectin Osteonectin
▫ Proteoglycans Amount of PG in dental pulp is different than in dentine
hyaluronic acid is present
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Mineralised tissues• Bone ▫ Continuous remodelling of the bone resorption and new formation of bone tissue
▫ Reservoir of calcium, which can be released to extracellularliquid
▫ Osteoblasts are in the course of bone formation embeddedinto the bone tissue
• Enamel and dentine▫ No remodellation. Enamel calcium is not used for regulation of
the amount of calcium in extracellulár fluid▫ Odontoblasts are not embedded into the mineralised organic
matrix