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- Title
Si and Ca individually and combinatorially target enhanced MC3T3-E1 subclone 4 early osteogenic marker expression.
- Authors
Varanasi, Venu G; Leong, Kelly K; Dominia, Lisa M; Jue, Stephanie M; Loomer, Peter M; Marshall, Grayson W
- Abstract
This study tests the hypothesis that silicon and calcium ions combinatorially target gene expression during osteoblast differentiation. MC3T3-E1 subclone 4 osteoblast progenitors (transformed mouse calvarial osteoblasts) were exposed to Si(4+) (from Na(2)SiO(3)) and Ca(2+) (from CaCl(2):H(2)O) ion treatments both individually (0.4 mM each + control treatment) and combinatorially (0.4 mM Si(4+) + 0.4 mM Ca(2+) + control treatment) and compared to control treated (α-minimum essential medium, 10% fetal bovine serum, and 1% penicillin-streptomycin) cells. Cell proliferation studies showed no significant increase in cell density between treatments over 5 days of culture. Cellular differentiation studies involved addition of ascorbic acid (50 mg/L) for all treatments. Relative gene expression was determined for collagen type 1 (Col(I)α1/Col(I)α2), core-binding factor a (cbfa1/Runx2), and osteocalcin (OCN), which indicated osteoblast progenitor differentiation into a mineralizing phenotype. Increased Si(4+) or Ca(2+) ion treatments enhanced Col(I)α1, Col(I)α2, Runx2, and OCN expression, while increased Si(4+) + Ca(2+) ion treatments enhanced OCN expression. Moreover, it was found that a Si(4+)/Ca(2+) ratio of unity was optimal for maximal expression of OCN. Collagen fiber bundles were dense, elongated, and thick within extracellular matrices (ECM) exposed to Si(4+) and Si(4+) + Ca(2+) treatments, while collagen fiber bundles were sparse, short, and thin within Ca(2+) and control treated ECM. These results indicated that individual ions enhance multiple osteogenic gene expression, while combined ion treatments enhance individual gene expression. In addition, these results indicated that Si(4+) enhanced osteoblast gene expression and ECM formation at higher levels than Ca(2+). These results support the larger concept that ions (possibly released from bioactive glasses) could control bone formation by targeting osteoblast marker expression.
- Publication
The Journal of oral implantology, 2012, Vol 38, Issue 4, p325
- ISSN
0160-6972
- Publication type
Journal Article
- DOI
10.1563/AAID-JOI-D-11-00108