OBJECTIVE: To study the expression of type I collagen and its receptor system-integrin alpha 2 beta 1 in different passages of osteoblasts. METHODS: The expression of type I collagen and integrin alpha 2 beta 1 in the primary, sixth and fifteenth passage of osteoblasts were detected by S-P immunohistological staining technique, and their mRNA expression by quantity RT-PCR technique. RESULTS: Type I collagen and integrin alpha 2 beta 1 were expressed in different passages of osteoblasts and there was no significant difference among three passages by immunohistological technique. Their mRNA expression was gradually decreased with subculture. CONCLUSION: Type I collagen promotes the adhesion and phenotype expression of osteoblasts through its receptor-integrin alpha 2 beta 1. The reductive expression of type I collagen-receptor system will decline the phenotype of osteoblasts.
Abstract An experiment was carried out to investigate the possibility of the establishment of an osteoblasts bank which could supply osteoblasts in repairing bone defect. Osteoblasts were isolated from thetibial periosteum of eight New-Zealand rabbits and cultured in votro. A bone defect, 1.5cm in length was made in both radii of each of the 8 rabbits. The cultivated osteoblasts, gelfoam as a carrier were randomly implanted into the defects of the radii of rabbits. Accordingly, the contralateral radial defects wereimplanted with gelfoam absorbed with the Hanks solution as control. The healing of bone defects was evaluated by roentgenographic examination at 2, 4, 8 and 12 weeks after operation, respectively. It was shown that the implanted cells had osteogenetic capability and could be possible to promote healing of the bone defects. It was suggested that further study needed to be carried out in this field.
Objective To observe effects of the core binding factor α1 (Cbfα1) in its promoting differentiation of the rabbit marrow mesenchym al stem cells (MSCs) into osteoblasts. Methods The rabbit marrow MSCs were isolated and cult ured in vitro and were divided into 3 groups. In the control group, the marr ow MSCs were cultured by DMEM; in the single inducement group, they were cultured by the condition medium (DMEM, 10% fetal bovine serum, dexamethasone 10 mmol/L, vitamin C 50 mg/L, and βGP 10 mmol/L); and in the experimental group , the ywere transfected with AdEasy1/Cbfα1,and then were cultured by the condition m edium. The alkaline phosphatase(ALP) activity and the experission of osteocalcin as the osteoblast markers were measured with the chemohistological and immunohi stochemical methods at 3 days,1,2,3,and 4 weeks after inducement. Results More than 90% MSCs were grown well in vitro. The GFP was positive in MSCs after their being transfectived with AdEasy1/Cbfα1. The ALP activity and the experission of osteocalcin were significantly upregulated in the transfection group compared with those in the single inducement group and the control group at 1, 2, 3, and 4 weeks (Plt;0.05).The mineralized node began to appear at 2 weeks in the experiment al group and the single induction group, but did not appear in control group. Conclusion Cbfα1 can obviously promote differentiation of the rabb it marrow mesenchymal stem cells into the osteoblasts.
Objective To review the research progress of osteoblasts in the hematopoietic microenvironment of bone marrow and regulatory pathways and mechanisms. Methods The advances in the osteoblasts as crucial components for hematopoietic microenvironment in bone marrow, regulation to osteoblasts and hematopoietic stem cells(HSCs), and correlative singal pathways and mechanisms were introduced based on the recent related literature. Results Evidence indicates that osteoblasts are crucial components of the hematopoietic microenvironments in adult bone marrow. The osteoblasts maintainthe quiescence of primitive HSCs by the signaling receptorsligands, secreted cell factors and celladhesion molecules and by regulating other cells in the niche. The quiescent primitive HSCs persist stem cell characteristic which has unlimited selfrenewal and multipotent differentiation potential. Conclusion The further understanding of the relationship between osteoblasts and hematopoietic microenvironment should lead to development of new strategies directed toward clinical therapeutics of HSCs transplantation.
Objective To review the progress, methods and obstacles in the differentiation of embryonic stem cells(ESCs) into osteoblasts in vitro. Methods The recent literature concerned with the differentiation of ESCs into the osteoblasts was extensively reviewed and briefly summarized. Results ESCs was a good tool for derivation of obsteoblasts.Conclusion The study on the induction of ESCsinto the osteogenic lineage provides a model for analyzing the molecular processes of osteoblasts development in vivo and establishes the foundation for the use of ESCs in skeletal tissue repair.
Objective Metal wear products cause the aseptic loosening of joint prosthesis. To investigate the effect of metal ions Co2+ and Cr3+ on the osteoblast apoptosis, cell cycle distribution, and secretion of alkal ine phosphatase (ALP), and to search a method to prevent and treat aseptic loosening. Methods The mouse calvarial osteoblasts (MC3T3-E1) were cultured in vitro to 3-5 generations (5 × 105 cells/ mL) and divided into 2 groups: the experimental group and the controlgroup. The osteoblasts were cultured in α-MEM medium containing 10%FBS (the control group), and the mixed solution ofCoCl2 and CrCl3 was added after the osteoblasts cultured in α-MEM medium containing 10%FBS attached completely (the experimental group). At 12, 24, and 48 hours after culture, the osteoblast apoptosis and the cell cycle distribution were assessed by flow cytometry; and ELISA method was appl ied to detect ALP content in serum supernatant. Results At 12, 24, and 48 hours after culture, the apoptosis rates in the experimental group (13.90% ± 0.52%, 14.80% ± 0.41%, and 13.40% ± 0.26%) were significantly higher than those in the control group (8.56% ± 0.31%, 8.19% ± 0.24%, and 2.15% ± 0.11%), (P lt; 0.05); G2M (dividing phase) distribution ratio significantly decreased and G0G1 (dormancy stage) distribution ratio significantly increased when compared with those in the control group (P lt; 0.05); and the absorbency (A) values of ALP were 0.955 ± 0.052, 0.624 ± 0.041, and 0.498 ± 0.026 in the exprimental group, and were 1.664 ± 0.041, 1.986 ± 0.024, and 2.192 ± 0.041 in the control group, showing significant differences between 2 groups (P lt; 0.05). Conclusion Metal ions Co2+ and Cr3+ have a marked effect on osteoblasts cell cycle distribution, which can make most of the cells to be in dormancy stage (G0G1), up-regulate the apoptosis rate and inhibit the releasion of ALP from osteoblasts.
Objective To study the function of platelet-derived growth factor (PDGF) in inducing phosphorylation extracellular signalregulated kinase 1/2 (pERK1/2) localization in osteoblasts. Methods Primary osteoblasts were isolated and cultured from cranial bone of 10 mice atthe age of 3 days, weighting 6-9 g without limitation in male and female.The sixth passage osteoblasts were incubated in 1% serum for 12 hours and divided into 2 groups: treated with DMSO(control group) or with PP2(experimentalgroup) for 30 minutes. Each group was further divided into 2 subgroups according to with or without PDGF (20ng/ml) stimulation for 10 minutes. pERK1/2 localization was analysized by immunofluorescence staining in osteoblasts pretreated with or without Src inhibitor PP2. The sixth passage osteoblasts were divided into 2 groups treated with DMSO (control group) or with PP2 (experimental group) for 30 minutes. Each group was further divided into two subgroupsaccording to with or without PDGF (20 ng/ml) stimulation for 10 mintues. The ability of osteoblast migration was determined by wound healing assay. The sixth passage osteoblasts were divided into 2 groups treated with DMSO (control group) or 10 μmol/L PP2 (experimental group) for 30 mintues. Each group was further divided into 2 subgroups according to with or without PDGF (20 ng/ml) stimulation.The pERK1/2 was determined by Western blot in osteoblastic cytoskeleton inducedby PDGF. Results Immunofluorescence staining showed pERK1/2 localization in osteoblastic nuclears and focal adhesions after PDGF stimulation. PP2 significantly inhibited ERK1/2 localization in focal adhesions, but not in nuclears. The wound healing assay results showed that PP2 significantly inhibited osteoblast migration induced by PDGF. The result of Western blot demonstrated that pERK1/2 in osteoblastic cytoskeleton was significantly inhibitedSrc activation is required for pERK1/2 translocalization to focal adhesions and osteoblasts migration.
Objective To investigate the influence of different dose levels of hydroxyapatite/tricalcium phosphate (HA/TCP) on the proliferation and alkalinephosphatase (ALP) activity of rabbit osteoblasts. Methods Three different doselevels of HA/TCP (10%, 40%, 70%) were co-cultivated with rabbit osteoblasts respectively. The proliferation and ALP expression capacity of osteoblasts were examined with MTT method and enzyme histochemistry once every 24 hours until 5 days. Three control groups of other materials were treated and examined in the sameway: rabbit osteoblasts as normal control; polyvinylchloride as positive control; titanium alloy as negative control. Results There was remarkable timeeffect relationship in the proliferation of osteoblasts. Ten percent HA/TCP did not affect osteoblasts growth while 40% HA/TCP could slow the cell growth rate down though time-effect relationship still existed. The proliferation of osteoblasts stagnated when co-cultivated with 70% HA/TCP. On the other hand, 10% HA/TCP could cause reversible damage on ALP activity of osteoblasts, whereas when the dose was40%, and the cultivation lasted 6 days the damage was irreversible. Three different dose levels of titanium alloy (10%, 40%, 70%) had no effect on the proliferation or ALP activity of osteoblasts. Conclusion Dosage is an important factor affecting the biocompatibility evaluation of biomaterial. It suggests that dose choosing should be more specified upon each individual biomaterial. It also indicates that ALP may be a good supplementary index of the cell compatibility of material.
Objective To study the effect of various storage methods on cellular compatibility of bio-derived bone. Methods Freeze dried biomaterials had been stored in two different preservation solutions for three months, while the biomaterials stored for the same time were observed as control group. The experiment was divided into groups A, B, C and D according to different storage methods (group A: with materials stored in preservation solution 1; group B:with materials stored in preservation solution 2; group C:with freeze-dried materials; and group D: simple osteoblasts). Osteoblasts at 2×106/ml had been cocultured with materials for 1, 3, 5, and 7 days.The cell-material complexwas observed under phase microscope and electronic scanning microscope to evaluate the adhesion and growth of osteoblasts; the cell viability and alkaline phosphatase(ALP) activity were measured,and the cell cycle wasanalysed by flow cytometer.WTHZ〗Results Osteoblasts adhered to materials preserved by different methods,differentiated and proliferated in the hole of materials. The difference of cell viability was not significant between three groups on day 1 andday 3. The cell viability of osteoblasts adhered to three materials was Agt;Cgt;B group on day 5 and day 7 (Plt;0.01,Plt;0.05). The ALP activity of osteoblasts adhered to three materials was Agt;Cgt;B group on day 7(Plt;0.01).The cell cycle of differentgroups did not change significantly,the abnormal cells were not seen. Conclusion The choice of proper preservation solution can optimize the cellular compatibility of bio-derived bone.
There is a great hope to treat long bone defects with bioactive artificial bone constructed by osteoblasts and biomaterials, in which the key point is to provide an optimum environment for the normal function of osteoblasts. The cellular sociological characteristics of osteoblasts were summarized and it was suggested that the ideal bioactive artificial bone should be composed of inorganic and organic materials together with cellular components such as osteoblasts and vascular endothelial cells, and combined with control release of growth factors, following its implantation it could be vascularized very soon and merged with the host bone by bony consolidation.