Theories of Mineralization
There are three main theories of mineralization:
1) Robinson's phosphate theory which involves alkaline phosphatase increasing local phosphate levels for hydroxyapatite formation.
2) Nucleation theory where nucleating substances like proteoglycans and collagen fibrils initiate crystal formation.
3) Matrix vesicle theory which is most accepted - matrix vesicles accumulate calcium and phosphate ions to form initial mineral complexes within their membranes before releasing crystals into the extracellular matrix.
4. Although , tissue fluid is supersaturated with Ca & P
ions, spontaneous precipitation of calcium phosphate
does not take place.
BECAUSE:-
Inhibitory macromolecules-inhibit crystal formation.
Unstable-initial cluster of ions needed to form a
lattice structure.
Furthermore, the formation of clusters of ions
requires the expenditure of energy and an energy
barrier must be overcome for crystallization.
5. ORGANIC MATRIX
Organic matrix is composed of:-
Collagenous proteins:
Type I collagen : It acts as scaffold that accumulate the minerals
in holes and pores of fibrils.
Non - collagenous proteins:
Proteoglycans
Phospholipids
Phosphoproteins-Osteopontin, Osteonectin, Phosphophoryn
Non collagenous proteins are involved in mineralization of
enamel whereas in other hard tissues collagen play an important
role.
6. MINERALS
Inorganic component of mineralized tissue
Consist of mainly: calcium hydroxyapatite i.e a
biological apatite. Ca10(PO4)6(OH)2
Unit cell - least no. of Ca, phosphate and hydroxyl
ions able to establish a stable ionic relationship.
Shape-hexagonal
Unit cells stacked together - lattice of crystal
8. Alkaline phosphatase, Pyrophosphatase, Ca ATPase, Metalloproteinase,
Proteoglycans & anionic Phospholipids bind Ca & P ions
Calcium-inorganic phosphate-phospholipids complex
Initiate mineralization.
Crystallites grows rapidly & rupture from vesicle
Fuses with adjacent clusters-form mineralized matrix
9.
10. Mechanism of mineralization
Mineralization process is based on two mechanisms:
1. Booster mechanism: According to this theory,
due to concentration/action of enzymes, the
concentration of Ca and Phosphate ions increases
to such a level that would to lead their precipitation.
2. Seeding mechanism: It refers to a presence of
seeding or nucleating substance which acts as a
template on which crystals are deposited.
11. THEORIES OF MINERALIZATION
1. Robinson’s phosphate(Alkaline Phosphatase) theory
2. Nucleation theory (Seeding theory)
3. Matrix vesicle theory
12. 1. Robinson’s phosphate (Alkaline
Phosphatase) theory
Alkaline phosphatase is the enzyme which participates in the
process of calcification.
It resides in matrix vesicle.
This enzyme hydrolyses the organic phosphate containing
substrate and increases the local inorganic phosphate
concentration.
This enzyme hydrolyses inhibitor of HA & provide Pi for the
formation of HA crystals.
13. Objections
1. Alkaline phosphatases seen in other tissues which
do not calcify.
2. Organic phosphate is not sufficient to produce
inorganic phosphate to initiate calcification
process.
14. 2.Nucleation theory (Seeding theory)
Neumann and Neumann (1953)
According to this theory, a nucleus is formed
probably in relation to collagen, effective in
aggregating Ca and Phosphate ions. Then, HA
crystals grow spontaneously.
15. Nucleation sites and their nucleating agents:
1. Ground substance: Sulfated glycosaminoglycans,
Proteoglycans
2. Collagen: Collagen fibrils, Phosphoproteins including
Osteonectin
3. Mitochondria : the earliest storage sites of Ca and
Phosphate in the form of amorphous CaPo4. This stored
mineral is made available extracellularly which causes growth
of crystals forming extracellularly in association with matrix
vesicles.
16. HOMOGENOUS NUCLEATION:
Any local increase in concentration of inorganic ions
permits a sufficient no. of ionic clusters & crystallite to
form.
HETEROGENOUS NUCLEATION:
The presence of nucleating substance allows crystal
formation to occur, in absence of a locally increased
ionic concentration.
17. Objections
• Fails to explain mineralization in enamel and
cartilage.
• Fails to explain mineralization in soft tissues
though it contains collagens because collagens in
soft tissues are densely packed which impede
phosphate ion access to nucleation sites.
18. 3. Matrix vesicle Theory
The mineralization requires the presence of extracellular matrix
vesicles.
Matrix vesicle are small membrane bound structures, 25-250
nm in diameter, lying free in the matrix, where calcification
occurs.
The vesicles are rich in Phospholipids; esp. Phosphotidyl
serine, a lipid with high affinity for Ca ion.
The vesicles also contain Annexins, which forms Ca channel
thus incorporating the ion within the matrix vesicle.
19. Matrix vesicle accumulate Ca and their membrane furnish
binding site for the nucleation of HA crystals.
They serve as site for Ca and inorganic P accumulation
where deposition of initial amorphous mineral
complexes(nucleation) occurs and where HA is produced.
HA crystals are released into the extracellular matrix after
reaching certain thickness which is triggered by
phospholipases, thus leading to tissue calcification.
Most acceptable theory.
20. Inhibitors of calcification
• Pyrophosphate, Diphosphonates or Adenosine
triphosphate:- can delay or prevent the
transformation of amorphous calcium phosphate
to HA.
• Citrate, Magnesium and proteins like Albumin.
• Components of bone matrix- eg; Proteoglycans
21. Enamel mineralization
Matrix vesicles and Collagen are absent in enamel.
Enamel mineralization is thought to be achieved
by crystal growth from already mineralized dentin
i.e. mantle dentin with subsequent shape and size
of crystal is determined by enamel protein of the
matrix.
Enamel proteins are of 2 types:-
22. 1. 90% amelogenins
Proline, Histidine, Glutamine
- helps to maintain space between crystals.
2. 10% non-amelogenins
Tuftelin, enamelin, amelin
-helps in nucleation and growth of crystals.
23. Mineralization in:
Enamel
• Formative cell is Ameloblast.
• Organic matrix are
Amelogenin & Non-
Amelogenin.
• Has HA>90%
• Non-amelogenin proteins
helps in nucleation.
Dentin
• Formative cell is
Odontoblast.
• Organic matrix are Collagen
& Non-Collagenous proteins.
• Has HA>67%
• Nucleation takes place in
Matrix vesicles.