Cyclosporin A(CsA) as immunosuppressive drug is used to prevent immune reactions after organ transplant. And also It is reported that the effect of CsA on osteoblast differentiation has been controversial according to dosage. The purpose of this study was to examine the effect of various CsA concentrations on osteoblast differentiation. According to different concentration o f CsA, growth curve, apoptosis index MTT assay, ALP activation and osteocalcin secretion, in cultured NHost were analyzed. Treating osteoblasts with low concentrations of CsA increased growth rate, MTT assay activity, ALP activation and osteocalcin protein levels in a dose-dependent manner, while high concentration showed opposite results. Therefore, these results showed that low concentrations of CsA increased osteoblast differentiation, while high concentrations elicited an opposite response, showing inhibition of CsA on osteoblast differentiation. It suggested that different CsA concentrations might play in regulating NHost differentiation, and its specific activation of lower concentration will represent a viable anabolic therapy for bone resorption disease in future.

In this study, we investigated primary biocompatibility and osteogenic gene expression of porous granular BCP bone substitutes with or without strontium (Sr) doping. In vitro biocompatibility was investigated on fibroblasts like L929 cells and osteoblasts like MG-63 cells using a cell viability assay (MTT) and one cell morphological observation by SEM, respectively. MTT results showed a cell viability percent of L929 fibroblasts, which was higher in Sr-BCP granules (98-101%) than in the non-doped granules (92-96%, p< 0.05). Osteoblasts like MG-63 cells were also found to proliferate better on Sr-doped BCP granules (01-111%) than on the non-doped ones (92-99%, p< 0.05) using an MTT assay. As compared with pure BCP granules, SEM images of MG-63 cells grown on sample surfaces confirmed that cellular spreading, adhesion and proliferation were facilitated by Sr doping on BCP. Active filopodial growth of MG-63 cells was also observed on Sr-doped BCP granules. The cells on Sr-doped BCP granules were well attached and spread out. Gene expression of osteonectin, osteopontin and osteoprotegrin were also evaluated using reverse transcriptase polymerase chain reaction (RT-PCR), which showed that the mRNA phenotypes of these genes were well maintained and expressed in Sr-doped BCP granules. These results suggest that Sr doping in a porous BCP granule can potentially enhance the biocompatibility and bone ingrowth capability of BCP biomaterials.

Numerous bone cell culture models have been presented by the development of isolation and culturing techniques of cells. The culture of osteoblast-like cells of human origin with a specific osteoblastic phenotype has become an important experimental model in bone biology. Recently, it has become increasingly popular to utilize bone marrow cultures because these cultures are therefore thought to represent earlier stages of the osteoblast differentiation pathway. There is no report about culturing normal human osteoblast from oral and maxillofacial area. Primary cultured cells from oral and maxillofacial cancellous bone were analyzed by morphologic features, total DNA contents, ALP, osteocalcin and von Kossa staining positivity. The purpose of this study were to culture the cell population from oral and maxillofacial cancellous bone and to analyze the phenotypic expression of cultured normal human osteoblast by the bone marrow isolation technique. Growth curve of NHost showed about 45hrs of doubling time and about 70μ g/well of total DNA content. NHost showed spindle shaped cytoplasm with ovoid nucleus under preconfluency and after cellular differentiation, they formed irregular numerous nodules from stratified cellular layers under D medium. ALP activity was about 2 folds higher under control medium with 10nM 1,25(OH)2D3 than that under control medium. Osteocalcin expression was about seven folds higher under control medium with 100nM 1,25(OH)2D3 than that under control medium. Scattered mineralized nodules stained by von Kossa method were seen on the cellular layer under D medium. It suggested that NHost might be established from oral and maxillofacial area by characteristic cellular shape, ALP activity, osteocalcin expression and numerous mineralized nodules.

It is not yet clear to know how normal human osteoblasts(NHost) from oral and maxillofacial area deposit, stabilize, and configure their extracellular matrix on dental biomaterial surfaces. Therefore it is necessary to design biomaterials with improved biocompatibility that will promote earlier bone differentiation and mineralization. There is now increasing evidence that TGase 2 may play a role in the initiation and regulation of the mineralization processes and serves to cross-link osteocalcin and osteopontin, which are predominant substrates for TGase 2 expressed during bone mineralization. But it is still unclear as to which TGase 2 is expressed by NHost in vitro bone formation. The purpose of this s tudy was t o determine the level of TGase 2 expression associated with collagen I , osteopontin and osteocalcin in NHost cell lines from oral and maxillofacial area in vitro. We will investigate whether TGase 2 has an active role in the biocompatibility of dental biomaterials during differentiation and mineralization of NHost. NHost cell lines were cultured under DMEM with 10% FBS at 37ﾟC and 5% CO2. Collagen quantification, mineralization and calcium assay, ALP activity assay, and RT-PCR analysis during bone differentiation and mineralization were done. ALP levels showed higher activity under AA+hGP t han under AA. I nhibition o f T Gase 2 by cystamine showed d ecreased Ca++ concentration, c ollagen I deposition and ALP level during 11 days of differentiation. TGase 2 mRNA expression of NHost was constant during mineralization stage. TGase 2 enzyme activity was increased during differentiation. Osteopontin mRNA expression during mineralization was higher than that of osteocalcin and collagen I . It suggested that TGase 2 associated with collagen I, osteocalcin and osteonectin might play a role in the differentiation of NHost from oral and maxillofacial area, but a little involved in mineralization.

Thrombospondins (TSP-1, TSP-2) are secretory extracellular glycoproteins that are involved in a variety of physiological processes such as tumor cell adhesion, invasion, and metastasis. The present study was undertaken to elucidate the involvement of thrombospondins in the adhesion of osteoblast-like cells using the TSP-1 or TSP-2 antisense MG63 and MC3T3-E1 cell lines. For downregulation of TSPs expression, we prepared antisense constructs for TSP-1 and TSP-2 using the pREP4 an episomal mammalian expression vector, which be able to produce the specific antisense oligonucleotides around chromosome. MG63 and MC3T3-E1 osteoblast-like cells were transfected with the antisense constructs and nonliposomal Fugene 6, and then selected under hygromycin B (50 μM/mℓ) treatment for 2 weeks. Western blot analysis revealed that expression of the TSP proteins was downregulated in the antisense cell lines. The cell adhesion assay showed that adhesive properties of TSP-1 and TSP-2 antisense MG63 cells on the polystyrene culture plate were reduced to 17% and 21% of the control cells, respectively, and those of the TSP-1 and TSP-2 antisense MC3T3-E1 cells also decreased to 19% and 27% of control, respectively. Adhesion of TSP-1 and TSP-2 antisense MC3T3-E1 cells on Type I collagen-coated culture plate decreased to 27% and 76%, respectively. These results indicate that TSP-1 and TSP-2 proteins may have an important role in adhesion of osteoblast-like cells to extracellular matrix.

Low energy photon irradiation by light in the far red to near infrared spectral range(630~1000nm) using low energy lasers or light emitting diode arrays has been found to modulate various biological processes in cell culture and animal models. The purpose of this study was to examine the light emitting diode irradiation effect on activity of normal human osteoblast on titanium plate in vitro by various energy density, and to observe morphologic change of NHost on titanium plate and to analysis concentration of Ca++, IP and ALP. NHost were cultured in DMEM containing 10% FBS, and observed by inverted microscope for attatchment to the surface of titanium plate. Ca++, I.P., and alkaline phosphatase( ALP) concentration in medium was calculated during 4 weeks, which was treated with Wilcoxon rank, Anova test and linear regression. Morphologic changes showed LED produced in vitro increases of cell growth of 144~256% in NHost. During a culture period, Ca++ concentration was decreased. LED treatment(>3J/cm2) stimulate calcium consumption in NHost. Statistically, a significant difference was not found between LED power density. LED treated group(>3J/cm2) had higher total inorganic phosphate concentrations than control group in NHost. Statistically, a significant difference was not found between LED power density. No significant changes were observed between ALP acitivity and LED treatment. In spite of LED power density, there were rapid growth rate of NHost and no significant of Ca++, IP and P concentration but these concentration showed predominant change than that of control.

Hydroxyapatite (HAp) and biphasic calcium phosphate (BCP) nano powders were synthesized using the microwave-assisted synthesis process dependent on pH and microwave irradiation time. The average size of a powder was less than 100 nm in diameter. Through in-vitro cytotoxicity tests by an extract dilution method, the HAp and BCP nano powders have shown to be cytocompatible for L-929 fibroblast cells, osteoblastlike MG-63 cells and osteoclast-like Raw 264.7 cells. The activation of osteoblast was estimated by alkaline phosphatase (ALP) activity. When the HAp and BCP were treated to MG-63 cells, alkaline phosphatase activities increased on day 3, compared with those of the untreated cells. Also, the collagen fibers increased when the HAp and BCP powders suspension were treated to MG-63 cells, compared to those of the untreated cells. Quantitative alizarin red S mineralization assays showed a trend toward increasing mineralization in osteoblast cultured with powder suspension. In conclusion, hydroxyapatite and biphasic calcium phosphate appeared to be a bone graft substitute material with optimal biocompatibility and could be further applied to clinical use as an artificial bone graft substitute.

The diffe rentiation of osteoblasts from mesenchymal precursors requires a series of cell fa te decis ions controlled by a hi erarchy of transcription factors Among these are RUNX2, osterix (OSX) , ATF4 and a la rge number of nuclear co-regulators. During bone development, initial RUNX2 expression coincides with the formation of mesenchyma l con densations well before the branching of chondrogenic and osteogenic lineages. Runx2 is s ubject to a number 0 1' post - tran scriptional controls including regulation by nuclear accessory factors such as ATF4 and DLX5 and post-trans lational mod ificati on, especially phosphOl‘ylation. We previously showed that Runx2-dependent transcription is acti vated by the ex tracellular signal-regulated/MAP kinase pathway in response to ECM/integrin and FGF2 stimulation. To identify and a5sess the function of ERK/MAPK phosphorylation s ites in RUNX2 and esta bli sh the role of MAPK s ignaling in bone fo 1'mation Approaches: A deletion/mutagenesis approach wa5 used to ide ntify 1'egions 0 1' RUNX2 necessary fo1' MAPK responsiveness and phosphorylation. To evaluate the in vivo function of the ERK/MAPK pa thway‘ transgen ic mice were developed wi th osteoblast- specific expression of either dominant-negative 0 1' cons titutively-active MEKl in osteoblasts and crossed with Runx2 heterozygous-• null ammals RUNX2 is phosphorylated on two critical serine res idues in the P/S/T domain. RUNX2 conta ining S/A mutations in these sites is refractory to MAPK stimula ti on while S/E muta tions cause cons titutive activation MAPK activation of RUNX2 was also found to occur in vivo 까'a n sge ni c expression of cons titutively ac tive MEKl in osteo • blas ts accelerated skeletal development while a dominant-negati ve MEKl reta rd ed bone formation in a RUNX2- dependent manner As shown by these studies‘ the ERK/MAPK pathway controls Runx2 tra nscript iona l activ ity by phosphorylation at specific serine residues. This may be a major pathway for controlling osteoblast activity in response to extracellul ar matrix signals. mechanical loads and hormonal stimulation

Laser is used to prevent the early dental caries in dental f ield and to apply for treatment of stomatitis and hyper sens it ivity , and laser mass Recently it is reported that laser i1'r adiation affect on soft tissue treatment and bone 1'emodelling after dental implantation. The purpose of this study was to examine laser irradia ti on effect on activity of normal human osteoblast on titanium plate in vitro by various laser wave length, and to observe morphologic change of NHost on LiLa nium plate and to a nalysis concentration of Ca"++ , IP and ALP NHost were cultured in DMEM containing 10% FBS, and observed by in verted microscope 1"or attatchment to the surface of titanium plate. Ca ++, I.P. , and a lkaline phosphat ase(ALP) concent ration in medium was calculated during 4 weeks, which was treated with Wilcoxon rank, Anova test and linear regression. The obtained results were as follows Morphologic changes showed rapid growth rate of NHost ++ at 3 days of laser lrradiatlOn ln spite of laser wave type, Ca" and P concentration was decreased at 2 weeks and was the hig hest at 3 weeks, but decreased at 4 weeks In spite of laser wave type, ALP concentration was decreased at 2 weeks but was increased at 3-4 weeks, From the aboving results, in spite of laser wave type, there were rapid growth rat e of NHost a nd no significant of Ca"++ , IP and P concen tr ation but these concentration showed predominant change than that of control

This experiment was performed to study the biocompatibility of xenograft materials (ABBM. coralline HA). Both autogenous bone grafts and allogenic banked bone were frequently and successfully used to promote regeneration of parts of skeleton. The use of these types of grafts were limited by the cost of donor site operation for autogenous boneor by fear of the risk of infection of allogenic materials. Another type of graft is xenograft which include ABBM and coralline HA. For investigating the biocompatibility, generally many investigators used cancer cell lines or animal cell lines. But cancer cell lines and animal cell lines had functioned different metabolism from normal human cell. So the experiment used normal human osteoblast for compare the biocompatibility of ABBM with coralline HA which were fixed in 24 well base contained culture medium. After 1st, 3rd, 7th, 14th, 28th days, the culture medium were taken out and checked the concentrations ofcalcium( Ca), inorganic phosphate(IP) and alkaline phosphatase(ALP). In another method, histologic samples were investigated after 8weeks of xenograft materials implantated on rabbit's tibia, the bone was cut and made undecalcified ground samples and checked with fluorecent microscope, polarizing microscope, reflection electron microscope and electron probe microanalysis. The statistical results of concentrations (Ca, IP, ALP) of materials in the culture medium have decreasedby day's, which meant that xenograft materials were effective for bone remodelling. The concentrations in the culture medium of ABBM were lower than that of coralline HA, that meant that biocompatibility of ABBM were superior than that of coralline HA. Histologic samples showed that ABBM had better bone remodelling effect than coralline HA. ABBM showed good alizarin red marking lines, more deposition of Ca, IP, and dense color of bone around newly formed osteon and bone trabeculae. it was concluded that ABBM was more biocompatible than corallineHA in vivo and in vitro test

Bone remodeling is a process controlled by the action of two major bone cells; the bone forming osteoblast and the bone resorbing osteoclast. In the process of osteoclastogenesis, stromal cells and osteoblast produce RANKL, OPG, and M-CSF, which in turn regulate the osteoclastogenesis. During the bone resorption by activated osteoclasts, extracellular Ca²+/PO₄²- concentration and degraded organic materials goes up, providing the hypertonic microenvironment. In this study, we tested the effects of hypertonicity due to the degraded organic materials on osteoclastogenesis in co-culture system. It was examined the cellular response of osteoblastic cell in terms of osteoclastogenesis by applying the sucrose, and mannitol, as a substitute of degraded organic materials to co-culture system. Apart from the sucrose, mannitol, and NaCl was tested to be compared to the effect of organic osmotic particles. The addition of sucrose and mannitol (25, 50, 100, 150, or 200 mM) to co-culture medium inhibited the number of tartrate-resistant acid phosphatase (TRAP) positive multinucleated cells induced by 10 nM (). However, NaCl did exert harmful effect upon the cells in this co-culture system, which is attributed to DNA damage in high concentration of NaCl. To further investigate the mechanism by which hypertonicity inhibits -induced osteoclastogenesis, the mRNA expressions of receptor activator of nuclear factor (NF)-kB ligand (RANKL) and osteoprotegerin (OPG) were monitored by RT-PCR. In the presence of sucrose (50 mM), RANKL mRNA expression was decreased in a dose-dependent manner, while the change in OPG and M-CSF mRNA were not occurred in significantly. The RANKL mRNA expression was inhibited for 48 hours in the presence of sucrose (50 mM), but such a decrement recovered after 72 hours. However, there were no considerable changes in the expression of OPG and M-CSF mRNA. Conclusively, these findings strongly suggest that hypertonic stress down-regulates -induced osteoclastogenesis via RANKL signal pathway in osteoblastic cell, and may playa pivotal role as a regulator that modulates osteoclastogenesis.