Objective To observe the effects of cobalt chloride (CoCl2)-simulated hypoxia on VEGF and TGF-β1 expression and to provide theoretical basis for deci phering the molecular mechanism of cl inical distraction osteogenesis. Methods The mandibular osteoblasts were obtained from newborn Wistar rats within 24 hours and cultured and purified through modified enzymatic digestion. The morphological and histological changes of cells were evaluated by the HE staining,the histochemical staining for ALP, the collagen I immunohistochemistry staining and the calcified nodules staining, and the growth curves were drawn. The best cells of the 3rd-passage rats were treated with CoCl2, and then immunofluorescence was used to detect the expressions of VEGF and TGF-β1 at 0, 3, 6, 9, 12 and 24 hours after culture. Results The HE staining demonstrated that the cellular forms were diverse, triangular, polygonal, circular and scaly and so on. The prominence varied in length and extended outwards. The nucleus was clearly discernible. The cytoplasma was rich and pink, with the nucleus royal purple. Sometimes 2 cell nuclei were seen. At the crowded place, cellular form was not clear, the dividing l ine was indistinct, and just the great-circle nuclear cells could be seen. The ALP immunohistochemistry staining demonstrated that the cell butcher nature appeared black pellets, the cell nucleus outl ine was unclear, and at the cell compact district, massive mascul ine cells could be seen clearly. The collagen I immunohistochemistry staining demonstrated that mascul ine cells were seen evenly, cytoplasma appeared yellowish brown especially around the nucleus. However, yellowish brown pellets were not seen in negative cells. The osteoblast calcium tubercle staining demonstrated that the cells gathered in the opaque region with the shape of tubercle after15 days of culture. After al izarin red staining, the reddish orange pigmentation appeared. At various time points, weak VEGF fluorescence was seen in the cells in the control group under the laser confocal microscope. As the hypoxia time prolonged, VEGF fluorescence of cells in the experimental group intensified, and reached the peak 9 hours after peration, and then dropped to the normal level. At various time points, TGF-β1 fluorescence was found in both groups under the laser confocal microscope, and fluorescence intensity in the control group was sl ightly ber than that in the VEGF control group. In the experimental group, TGF-β1 expression had short-term increase 3 hours after hypoxia, and reduced gradually with the prolonging of hypoxia time. Conclusion The method of culturing osteoblast from Wistar rats mandibular is practicable. The cells can be used for further studies. Moderate hypoxia can affect bone synthesis and turnover in distraction osteogenesis and up-regulate the expressions of VEGF and TGF-β1.
Objective To establish a model of the human marrow mesenchymal stem cells (hMSCs) cultured under the hypoxic condition in adults and to investigate the biological features of MSCs under hypoxia.Methods The bone marrow was obtained by aspiration at the posterior superior iliac spine in 3 healthy adult subjects. hMSCs were isolated by the gradient centrifugation and were cultured in the DMEM-LG that contained 20% fetal bovine serum. The serial subcultivation was performed 10-14 days later. The second passage of the hMSCs were taken, and they were divided into the following 4 groups according to the oxygen concentrations and the medium types: the normoxic group(20%O2, DMEM-LG, Group A), the hypoxic group(1%O2, DMEM-LG,Group B), the normoxic osteoblast induction group(20%O2, conditioned medium, Group C), and the hypoxic osteoblast induction group(1%O2, conditioned medium, Group D). The biological features of the cultured hMSCs under hypoxia were assessed bythe cell count, the MTT method, the colony forming unit-fibroblast, the real-time RT-PCR, and the alkaline phosphatase (ALP) activity, and the alizarinred staining. Results The hMSCs cultured in the Group B and Group D had a significantly higher proliferation rate than those in the Group A (Plt;0.01), and the culture effect was not influenced by the medium type. The hMSCs in the Group B had a significantly higher level of the colony-forming unit capability than the hMSCs cultured in the Group A(Plt;0.01). After the induction, hMSCs in the Group B had a decreasednumber of the osteoblasts than hMSCs in the Group C. The hMSCs in the Group D had a gradually-increasedactivity of ALP, which was significantly lower than that in the Group C(Plt;0.01). The RT-PCR examination revealed that ALP,osteocalcin, and mRNA expressions of collagen type Ⅰ and osteonectin in the Group Csignificantly increased (P<0.01). By comparisonamong the 3 groups, after the 4-week culture the obvious calcium salt deposit and the red-stained calcium nodus could be observed.ConclusionHypoxia can promote the proliferation rate of hMSCs, enhance the colonyforming ability and inhibit the differentiation of the osteoblasts.
ObjectiveTo investigate the influences of lactic acid (LA), the final degradation product of polylactic acid (PLA) on the prol iferation and osteoblastic phenotype of osteoblast-l ike cells so as to provide theoretical basis for bone tissue engineering.
MethodsRos17/2.8 osteoblast-l ike cells were harvested and divided into 3 groups. In groups A and B, the cells were cultured with the medium containing 4, 8, 16, 22, and 27 mmol/L L-LA and D, L-LA, respectively. In group C, the cells were cultured with normal medium (pH7.4). The cell prol iferation was determined with MTT method after 1, 3, and 5 days. The relative growth ratio (RGR) was calculated, and the cytotoxicity was evaluated according to national standard of China. In addition, the alkal ine phosphatase (ALP) activity of cells cultured with medium containing 4 mmol/L L-LA (group A), 4 mmol/ L D, L-LA (group B), and normal medium (group C) after 1 and 5 days were detected with ALP kits, and the relative ALP ratio (RAR) was calculated; after 21 days, the calcium nodules were tested with von Kossa staining method, and were quantitatively analyzed.
ResultsWhen LA concentration was 4 mmol/L, the mean RGR of both groups A and B were all above 80%, and the cytotoxic grades were grade 0 or 1, which meant non-cytotoxicity. When LA concentration was 8 mmol/L and 16 mmol/ L, groups A and B showed cytotoxicity after 5 days and 3 days, respectively. When LA concentration was above 22 mmol/L, cell prol iferations of groups A and B were inhibited evidently after 1-day culture. At each LA concentration, RGR of group A was significantly higher than that of group B at the same culture time (P<0.05) except those at 4 mmol/L after 1-day and 3-day culture. After 1 day, the RAR of group A was significantly higher than that of group B on 1 day (144.1%±3.2% vs. 115.2%±9.8%, P<0.05) and on 5 days (129.6%±9.8% vs. 78.2%±6.9%, P<0.05). The results of von Kossa staining showed that the black gobbets in group A were obviously more than those of groups B and C. The staining area of group A (91.2%±8.2%) was significantly higher than that of groups B (50.3%±7.9%) and C (54.2%±8.6%) (P<0.05).
ConclusionThe concentration and composition of LA have significant effects on the cell proliferation and osteoblastic phenotype of osteoblast-l ike cells.
Objective To investigate the effect of transforming growth factor-β1 (TGF-β1) gene transfer on the biological characteristics of osteoblasts. Methods The expression of TGF-β1 in the transfected osteoblasts was detected by in situ hybridization and assay of TGF-β1 activity in the supernatant (minklung epithelium cell growth -inhibition test). The effects of gene transfer andsupernatant of the transfected osteoblasts on the proliferation and alkaline phosphatase(ALP) activity of osteoblasts were detected by 3 H-TdR and MTT. Results The results of in situ hybridization analysis suggested that the osteoblasts transfected by TGF-β1 gene could express TGF-β1 obviously. The complex medium, which was the mixture of serum-free DMEM and the activated supernatant according to 1∶1, 1∶2, 1∶4, could inhibit growth of Mv-1-Lu evidently and the ratios ofinhibition were 16.3%, 22.7%, 28.2% respectively. TGF-β1 gene transfer hadno effect on the biological characteristics of osteoblasts, but the activated supernatant of transfected osteoblasts stimulated proliferation and inhibited ALPactivity of osteoblasts. Conclusion TGF-β1 gene transfer promotes the expression of TGF-β1 and the biological characteristics of trasfected osteoblasts are stable, which is helpful for gene therapy of bone defects in vivo.
Objective To study the effect of serum rich in growth factors (SRGF) derived from plateletrich plasma (PRP) on the biological function of human and rat osteoblast.Methods PRP and platelet-poor plasma (PPP) obtained from healthy human and SD rat were activated by thrombin toget SRGF and serum poor in growth factors (SPGF). The level of TGFβ1 and PDGF-AB in human-SRGF and SPGF were assayed by enzyme-linked immunoassay(ELISA). Rat and human osteoblast were cultured and identified. Rat osteoblasts were treated with 5% rat-SRGF, 5% rat-SPGF and serumfree F12 medium, respectively. And human osteoblast were treated with 5% human-SRGF, 5% human-SPGF and serumfree DMEM. Cellular mitogenic activity was evaluated by thiazoly blue (MTT) colorimetric assay at 24, 48, 72 and 96hours.Results The level of TGF-β1 in human-SRGF was 307.67±35.57 ng/ml, and that of PDGF-AB was 52.76±7.89 ng/ml. The proliferation of rat and human osteoblast were promoted after treated with rat-SRGFand human-SRGF, respectively. In rat osteoblast groups, there were significant differences in absorbency between ratSPGF group and rat-SRGF group at 48 and 96 hours(Plt;0.05). In human osteoblast groups, the differences between human-SPGF group and human-SRGF group were significant at 48, 72 and 96 hours(Plt;0.05). The proliferation of these two kinds of osteoblasts almost stopped in serum-free medium, and the differences in absorbency , compared with othergroups,were significant (Plt;0.05). Conclusion High quality of PRP can be achieved by the improved method and SRGF is capable of up-regulating the proliferation of rat osteoblast and human osteoblast.
OBJECTIVE: To investigate the influence of basic fibroblast growth factor (bFGF) on adhesion characteristics of osteoblasts, aimed at the important problem in bone tissue engineering of how to promote the adherence of osteoblasts to extracellular matrix materials. METHODS: 5 ng/ml, 10 ng/ml, 50 ng/ml, 100 ng/ml, 200 ng/ml bFGF were used to induce bone marrow stromal-derived osteoblasts of rabbit for 24 hours before incubation, and the common culture medium as the control. The attached cells were calculated with stereology method at 0.5 hour, 1st hour, 2nd hour, 4th hour, 8th hour after seeding. RESULTS: The number of attached cells was significant higher in the experimental group when induced by 10 ng/ml bFGF than that in the control group (P lt; 0.01); the number did not increase with the increase of bFGF concentration and there was no significant difference between the experimental group induced by 100 ng/ml bFGF and control group, and the number was even obviously lower in the experimental group when induced by 200 ng/ml than the control group (P lt; 0.01). CONCLUSION: bFGF can influence the adhesion characteristics of osteoblasts, 10 ng/ml bFGF can promote the adherence of osteoblasts to matrix materials, but 200 ng/ml bFGF may inhibit cell adhesion.
Objective To investigate the effect of 1,25(OH)2VD3 on differentiation of embryonic stem cells (ESCs) into osteoblasts. Methods Osteoblasts were isolated and cultured from calvarium of 2-day-old Kunming white mice, embryoid bodies (EBs) were prepared with modified zur Nieden method. EBs were divided into 4 groups according to different mediums: group A, as the control group, in which EBs medium contained no leukemia inhibitory factor; group B, in which EBs medium contained supplements of Vitamin C (VC, 50 μg/mL) and β-glycerophosphate (β-GP, 50 mmol/L); group C, inwhich EBs medium was the same as that of group B and 5 × 104 osteoblasts of 3rd passage were seeded into each well; group D, in which the medium contained supplements of VC (50 μg/mL), β-GP (50 mmol/L) and 1,25(OH)2VD(4 × 10-9 mol/L), and 5 × 104 osteoblasts of 3rd passage were seeded into each well. The ALP activity was determined by ALP reagent kit every 5 days. The RQ-PCR was performed to measure the mRNA expressions of osteocalcin (OCN). Al izarin red S staining was performed to count the bone nodules. Results The expression of ALP witnessed no obvious change in each group within 5 days after adherence of EBs, but increased gradually after 5 days. The expression of ALP in group D reached the peak at 20 days. Red nodules with clear outl ine and different sizes were evident by microscope. Al izarin red S staining testified the number of bone noudles in groups A, B, C and D was 20 ± 8, 18 ± 5, 31 ± 1 and 50 ± 1, respectively, indicating significant differences between groups C, D and groups A, B (P lt; 0.05), no significant difference between group A and group B (P gt; 0.05), and a significant difference between group C and group D (P lt; 0.05). The result of RQ-PCR showed that the mRNA expressions of OCN in groups A, B, C and D was 10.18 ± 1.17, 20.29 ± 1.03, 18.84 ± 4.07 and 32.15 ± 5.23, respectively, indicating significant differences between groups C, D and groups A, B (P lt; 0.05), no significant difference between group A and group B (P gt; 0.05), and a significant difference between group C and group D (P lt; 0.05). Conclusion The combined action of 1,25(OH)2VD(4 × 10-9 mol/L), VC, and β-GP can effectively promote the differentiation of the ESCs-derived osteoblasts.
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.
Objective To investigate the possibility of ectomesenchymal stem cell of human embryo facial process in differentiating into osteoblasts.Methods Ectomesenchymal stem cells of human embryo facial process were isolated and cultured in mineralized promoting solution containing 10 mmol/L β-glycerophosphate, 100 μg/ml ascorbic acid and 10 nmol/L dexamethasone supplemented with 15% FBS. The morphological change was observed by phase contrast microscopy. The characteristics of cells was identified by immunohistochemistry assay. Alkaline phosphatase activity was tested and the form of mineralized nodules was tested with Von Kossa staining. The expression of osteocalcin was identified by RT-PCR.Results There were significant changes in the shape of the cells after 3 days cultured in mineralized promoting solution. The cells became larger and the shape changed from fibroblast-like to multilateral. The result for anticollogen typeⅠstaining was positive. The alkaline phosphatase activity increased. Mineralized nodules were formed aftercultured 25 days by Von Kossa staining. RT-PCR assay showed induced cells expressed osteocalcin.Conclusion Ectomesenchymal stem cells of humanembryo facial process can be induced to differentiate into osteoblasts by mineralized promoting solution.
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.
