Osteoblasts were cultured and isolated from a piece of tibial pettiosteum of four New-Zealandrabbits. After subeultured,these cells Were incubatd in vitro with tritiated thvmidine for 36 hoursand then these labeled cells were implanted in the subeutaneous layer of the defects of the auriclarcartilage and the radial bone, After 2 weeks and 4 weeks respectively, these rabbits were killed andthe spoimens were obtained from the site where the cells had been transplanted. The transformation of these cells was observed by autoradiographic method. The results indicated that nearly all of the cultured cells were labeled. After 2 weeks, it was observed that many labeled osteoblasts were in different stages of differentiation, some were beried by extracellular matrix and resembled osteocyte, thers were differentiated into chondrocyte-like cell. In addition, some labeled osteoblasts were congregated in the form of multinucleated osteoclast. After 4 weeks , in the subcutaneous layer the labeled osteoblasts were changed to osteoid tissue and in the defect of the auricular crtilage these cells transformed into chondritic tissue; moreover, those labeled osteoblsts which had been implanted into the radial defect had differentiated into typical bone tissue. The results of this research indicated that the osteoblasts isolated from the periosteum if reimplanted to the same donor might be possible to repair the bone and cartilage defects.
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 establish a model for studying on mechanical responses of osteoblasts seeded in 3 dimensional(3D) scaffold. Methods Fifty pieces of bioderived cancellous bones, whose holes were 500 to 800 μm and density was 0.36 to 0.45g/cm3, were obtained as the scaffolds. They were cultured with the third passage suspension of Wistar rat. Twenty-four of the 50 scaffolds were constructed under apparent strain sine waveform with amplitude of 1 000 με, frequency of 3 Hz, and duration of 3 min/d, as experimental group. The other scaffolds were control group. After 3day coculture, osteoblasts were observed with scanning electron microscope. The proliferation of the osteoblasts was checked by MTT on scheduled date. Results Scanning electron microscopic observation showed that osteoblasts ttached and spread on the trabeculae, which presented the validity of the model under proper mechanical condition. Experiment showed that mechanical environment promoted theproliferation of osteoblasts. The observation of proliferation of osteoblasts showed that the quantity of osteoblasts in the experimental group was higher than that in the control group 1,4,8,12,16,20,24, and 28 days after culturing. Therewas significant difference between the two groups 12,16,20,24,and 28 days afterculturing(P<0.05). Conclusion The establishment of the model can facilitate the study of mechanical responses of osteoblasts under different conditions.
OBJECTIVE: To investigate the effects of three-dimentional culture in bioderived material modified by Pluronic F-127 on the growth and function of rabbit periosteal osteoblast in vitro. METHODS: Bio-derived materials were from fresh pig ribs and were modified by Pluronic F-127. Then rabbit periosteal osteoblasts were cultured in bio-derived materials(group A), in the modified bio-derived materials(group B) and on the plastic surfaces as a control (group C), respectively. During a 7-day period, the status of growth, cell viability and alkaline phosphatase(ALP) activity were measured. RESULTS: Osteoblasts attached, elongated and grew well on the modified bio-derived materials. There were no significant difference in osteogenesis and ALP activity between group A and group B(P gt; 0.05). The osteogenesis and ALP activity in groups A, B were less than those in group C (P lt; 0.01). CONCLUSION: Pluronic F-127 can be used for a carrier for bioactive factors to modify bio-derived material.
OBJECTIVE: To isolate and characterize mesenchymal stem cells (MSCs) derived from bone marrow of Banna minipig inbred line (BMI). METHODS: BMI-MSCs was isolated from bone marrow by density gradient centrifugation and cultured in DMEM (containing 15% bovine serum) at 37 degrees C with humidified 5% CO2. These cultured stem cells were characterized in clonal growth, expression of specific markers and capability of differentiation. RESULTS: Mesenchymal stem cells were proliferative and could be expanded rapidly in vitro. Clonal growth of these cells can be observed when small amount of cells was inoculated. These cells were SH2, SH3, SH4, SB10 and SB21 positive. And it was proved that these cells possess osteo-differentiation ability, up-regulated alkaline phosphatase expression and calcium secretion after osteosupplement was added into the media for several days. CONCLUSION: Mesenchymal stem cells derived from bone marrow of BMI possess the general characters of stem cell.
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 review the regulation and mechanism of the microRNAs (miRNAs) in the bone and cartilage tissue. Methods Recent l iterature concerning the regulation and mechanism of the miRNAs in the bone and cartilage tissue was extensively reviewed, summarized, and analyzed. Results Recently miRNAs is a hot topic in the bone and cartilage tissue. More and more materials show its important regulatory role in osteogenesis and cartilage growth andregeneration, but the definite mechanisms have not been clear yet. Conclusion The study on miRNAs of bone and cartilage tissue can provide a new access to understanding the degenerative osteoarthritic diseases.
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 summary the functional roles and molecular mechanisms of microRNA (miRNA) in osteoblast differentiation so as to supply information for basic and cl inical researches. Methods Recent l iterature concerning miRNA in osteoblast differentiation was reviewed. The information was classified and summarized. Results miRNAs critically regulate bone morphogenetic protein, transforming growth factor β, and Wnt/β-catenin signal ing pathways during osteoblast differentiation. In pathological conditions, especially in some disorders of abnormal osteoblast differentiation, downregulated miRNA expression has been observed. Conclusion miRNA may represent a novel biomarker for diagnosis, and a candidate target therapies for the disorders with abnormal osteoblast differentiation.
【Abstract】Objective To give a summary of the current researches on hematopoietic stem cell niche. Methods Through extensive reviewing the related domestic and abroad literatures, the present summary reviews the components of hematopoietic stem cell niche, related cell factors and related cell signaling pathway participating in regulation of hematopoietic stem cell. Results The activities of hematopoietic stem cells are regulated by the niche (microenvironment), which is composed of hematopoietic stem cell and its surrounding cells. The regulation cannot be completed through one signaling pathway. Also, the self-renewal and differentiation of hematopoietic stem cell cannot be completed only through osteoblastic cells. Conclusion The niche regulates hematopoietic stem cells by different ways. With study in-depth, we will comprehensively understand the nature of stem cells and the study will provide a broader space to stem cell-based therapy.