The role of fluoride on different osteoblastic cell line from different mice strains with distinct bone density: Study on MC3T3-E1, C3H/HeJ and C57BL/6J

It is well known that fluoride causes chemical and cellular alteration on bone tissue, depending on the dosage and time of exposure to this element. Several studies have been conducted to show that some bone diseases, such as osteoporosis, osteopetrosis and esclerosis, can occur as a consequence of the excessive fluoride uptake. Fluoride can lead osteoblast to proliferate, under certain conditions as time and dosage. The same way, excessive dosages of fluoride can alter protein activity in osteoblasts, by changing the expression of retated genes. Sensitivity of mineralized tissues to fluoride depends on a genetic background inherent to each population. Within the same specie, different lineages present distint behavior to the ingestion of this íon. Over several decades, many researches focused on the study of NaF as the only source of fluoride, once it is wide spread used to the prevention of dental caries. More recently, different sources of fluoride have been assessed, like TiF4 e SnF2</sub, with the main aim to enhance biochemical and physical benefits of this element. Despite of this, none of these formulations have been tested to evaluate their effect on the bone tissue. Thus, we believe it is advisable to investigate viability and phosphatases activities of pre-osteoblast MC3T3 cells treated with Aluminium fluoride, compared to NaF treatments. Besides this, facing the knowledge that different cell lines have distinct behavior when treated with fluoride, we used two inbred strains of mice with distint mineral bone densities, C3H/HeJ (C3H, high bone density) and C57BL/6J (C57, low bone density), to assess the viability and phosphatases activities after the treatment with NaF. Overall results were tested by 3 way- Anova. AlF3 did not exibit influence over on alkaline phosphatase when pre-osteoblast cells are considered, but the effect of this fluoride salt on the activity of total and tartarate resistant acid phosphatases ocurrs on a dicotomic way. When we consider a mixed cell population, collected from calvária as for the C3H and C57 assays, NaF did interfered as with the proliferation rate as phosphatase activities on a very distinct fashion between the two lineages. Thus, it is possible to conclude that NaF is able to exert variable effects in different cell types and enzyme activities; on the other hand, AlF3 effects are more specific and surrounded in pre-osteblastic cells. (AU)