人骨髓间充质干细胞培养方法

骨髓间充质干细胞(BMMSCs)是一种多潜能的成体干细胞,在细胞治疗和组织工程上具有广阔的应用前景。对供体年龄、分离方法、培养密度、培养基和培养基质表面性质对细胞增殖的影响进行了比较,重点阐述了用人自体血清结合多种细胞因子,替代胎牛血清培养BMMSCs的效果,转染端粒酶基因的BMMSCs的增殖能力和分化潜能,以及灌注培养反应器用于大规模培养的技术进展。     

黄芪甲苷对人骨髓间充质干细胞体外增殖及细胞因子表达的影响

目的：探讨黄芪甲苷对人骨髓间充质干细胞体外增殖及细胞因子表达的影响。方法：采用Percoll密度离心法和贴壁法分离纯化hBMSC;流式细胞术检测hBMSC表面标志;MTT法检测不同浓度黄芪甲苷干预72h后hBMSC的增殖情况;Real-timePCR法检测经黄芪甲苷干预后hBMSC对SCF、VEGF、SDF-1、GM-CSFmRNA的表达水平。结果：成功分离培养出laBMSC;不同浓度（20、40、80、160、320mg／mL）的黄芪甲苷可促进hBMSC增殖（P〈0．05）,其中160mg／mL组促增殖最明显;黄芪甲苷可促进hBMSC对SCF、VEGF、SDF-1mRNA的表达,而GM—CSFmRNA表达无明显变化。结论：黄芪甲苷可促进hBMSC体外增殖,可能与其促进hBMSC对SCF、VEGF、SDF-1mRNA表达有关。     

黄芪甲苷对人骨髓间充质干细胞体外增殖 及细胞因子表达的影响*

摘要目的：探讨黄芪甲苷对人骨髓间充质干细胞体外增殖及细胞因子表达的影响。方法：采用Percoll 密度离心法和贴壁法分离 纯化hBMSC;流式细胞术检测hBMSC 表面标志;MTT 法检测不同浓度黄芪甲苷干预72 h后hBMSC 的增殖情况;Real-time PCR 法检测经黄芪甲苷干预后hBMSC对SCF、VEGF、SDF-1、GM-CSF mRNA 的表达水平。结果：成功分离培养出hBMSC;不同 浓度（20、40、80、160、320 mg / mL）的黄芪甲苷可促进hBMSC增殖(P<0.05),其中160 mg/mL 组促增殖最明显;黄芪甲苷可促进 hBMSC对SCF、VEGF、SDF-1 mRNA的表达,而GM-CSF mRNA 表达无明显变化。结论：黄芪甲苷可促进hBMSC 体外增殖,可 能与其促进hBMSC 对SCF、VEGF、SDF-1 mRNA表达有关。     

生长因子对骨髓间充质干细胞增殖、分化的影响

骨髓间充质干细胞(bone mesenchymal stemcell,BMSC)是骨髓基质细胞的重要组成部分,由于其不但能与其他细胞一起支持造血干细胞造血,而且还具有较强的增殖功能及多向分化潜能,在一定诱导因素下可定向分化成骨细胞、软骨细胞和脂肪细胞等,近年来已成为生物学和医学的研究热点。本文简要介绍了不同生长因子如血管内皮生长因子、碱性成纤维细胞生长因子、转化生长因子-β等对BMSC增殖、分化的影响。     

人骨髓间充质干细胞在精原细胞培养条件下生物学特征的观察

目的体外分离培养流产4h、八月龄男胎的骨髓间充质干细胞(BMSCs),并观察BMSC在精原细胞培养条件下的生物学特征,探讨人骨髓间充质干细胞诱导分化为精原细胞的可行性,为BMSCs作为"种子细胞"开辟新的途径。方法分离培养、鉴定人BMSCs,研究其在精原细胞培养条件下诱导培养BMSCs并观察其生物学特征。结果 BMSCs具有间充质细胞的特征;实验组细胞形态发生变化,免疫组化显示Oct-4和C-kit染色阳性;对照组细胞则无。结论人胎儿BMSCs有较强的增殖能力;人胎儿BMSCs在精原细胞培养条件下诱导培养,能表现出精原细胞的一些生物学特征。     

骨髓间充质干细胞无血清培养

为建立一种化学成分明确的、能用于体外扩增骨髓间充质干细胞的无血清培养基, 且骨髓间充质干细胞经无血清培养扩增后仍能保持其多向分化的潜能。采用密度梯度离心结合贴壁法从1月龄新西兰大白兔股骨中分离骨髓间充质干细胞, 比较在含10%胎牛血清的培养基(SCM)和自制的化学成分明确的无血清培养基(CDSFM)中骨髓间充质干细胞的形态、增殖能力, 以及扩增后的骨髓间充质干细胞的细胞周期、集落形成能力和成骨、成脂肪分化能力。经过10 d的培养, 骨髓间充质干细胞在自制的无血清培养基中扩增了50倍, 在含10%胎牛血清的培养基中扩增了40倍。在无血清和有血清培养基中扩增后的细胞中G0/G1期比例分别为(80.31%±0.6%)和(75.24%±4.0%), 两者无显著差异(P>0.05)。无血清培养扩增后的骨髓间充质干细胞集落形成率(12.7%±4.0%)低于有血清培养组(28.7%±4.2%), 两者比较差异显著(P<0.01)。经过无血清培养扩增的骨髓间充质干细胞在成骨、成脂肪诱导分化培养基中能够分化成成骨和脂肪细胞。自制的化学成分明确的无血清培养基能够在体外培养扩增骨髓间充质干细胞, 并且维持其干细胞特性, 可以用于细胞治疗以及生物医学研究。     

骨髓间充质干细胞的研究进展

骨髓间充质干细胞是存在于骨髓中的具有高度自我更新能力和多向分化潜能的干细胞群体 ,具有支持造血、多向分化潜能以及在细胞和基因工程中具有潜在应用前景等特点 ,将在医学上具有重要的临床应用价值。     

骨髓间充质干细胞可塑性研究

骨髓间充质干细胞（bone marrow mesenchymal stem cells,MSCs）具有跨系统、甚至跨胚层分化的特性,称为MSCs的可塑性（plasticity）,成为细胞工程、再生医学中的主要选择细胞。但随着对成体干细胞可塑性质疑的出现,使MSCs是否具有转分化能力,存在着极大的分歧。对MSCs可塑性是否真正存在的进一步明确,越加显得急切和重要,也对干细胞基础理论及其临床应用具有指导性意义。     

小型猪骨髓间充质干细胞的分离和培养

目的建立小型猪骨髓间充质干细胞（mesenchymal stem cells,MSCs）的体外分离和培养方法。方法穿刺小型猪髂后上嵴抽取骨髓,经密度梯度法离心得到骨髓单个核细胞,接种后形成单层贴壁细胞。用形态学方法鉴定培养的MSCs。结果经培养存活的MSCs原代和一代呈纺锤型、多边型或星型。至二代起呈均一纺锤型,似成纤维细胞样,长宽比例约为（2～3）？1。体外培养的原代MSCs8～10d达到融合,传代后仍具有较强的增殖能力。结论小型猪MSCs可在体外长期、稳定培养,其分离、培养体系的建立为基础研究和组织工程技术提供了一个有价值的动物模型。     

不同强度静电磁场对体外培养骨髓间充质干细胞增殖与分化的影响

本实验研究不同强度静电磁场对体外培养大鼠骨髓间充质干细胞增殖与分化作用. 体外分离培养大鼠骨髓间充质干细胞,传代后随机分为6组,分别用强度为0（对照组）、0.9、1.2、1.5、1.8和2.1 mT的静电磁场处理,每d每次处理30 min. 在磁场处理后的9~10 d ,骨髓间充质干细胞开始出现钙化小颗粒. 0.9 mT组抑制骨髓间充质干细胞增殖,1.5到2.1mT组促进骨髓间充质干细胞增殖. 在磁场处理后的12 d和15 d ,1.5和1.8 mT组极显著地增加了碱性磷酸酶(AKP)活性. 采用AKP组织化学染色和钙化结节染色对骨髓间充质干细胞成骨性分化进行鉴定,AKP组织化学染色和钙化结节染色都呈现了极强的阳性结果,尤以1.5 mT和1.8 mT阳性染色面积最大. 在SEMFs处理后的48 h 和96 h ,1.5 mT和1.8 mT组胶原I(collagen-Ⅰ)和骨形态发生蛋白2(bone morphogenetic protein-2, Bmp-2) 基因表达水平显著高于对照组.在SEMFs处理后的12 d, BMP-2蛋白表达量高于对照组. 研究表明,0.9 mT 组抑制骨髓间充质干细胞增殖,1.5 mT到2.1 mT组不同强度静电磁场促进体外培养骨髓间充质干细胞的增殖. 磁场组能促进骨髓间充质干细胞成骨性分化,其中尤以1.5 mT和1.8 mT组促进大鼠骨髓间充质干细胞分化作用效果最为明显.     

Xeno-free proliferation of human bone marrow mesenchymal stem cells

The proliferation of human bone marrow mesenchymal stem cells (MSCs) employing xeno-free materials not containing fetal calf serum (FCS) and porcine trypsin was investigated for the regenerative medicine of cartilage using MSCs. Four sequential subcultivations of MSCs using a medium containing 10% FCS and recombinant trypsin (TrypLESelect™) resulted in cell growth comparable to that with porcine trypsin. There was no apparent difference in the cell growth and morphology between two kinds of MSC stored in liquid nitrogen using 10% FCS plus DMSO or serum-free TC protector™. MSCs were isolated from human bone marrow cells, stored in liquid nitrogen, and sequentially subcultivated four times employing conventional materials that included FCS, porcine trypsin, and DMSO, or xeno-free materials that included serum-free medium (MesenCult-XF™), TC protector™ and TrypLESelect™. Cells in the culture using the xeno-free materials maintained typical fibroblast-like morphology and grew more rapidly than the cells in the culture using the conventional materials, while the cell surface markers of MSCs (CD90 and CD166) were well maintained in both cultures. Chondrogenic pellet cultures were carried out using these subcultivated cells and a medium containing TGFβ3 and IGF1. The pellet culture using cells grown with the xeno-free materials showed an apparently higher gene expression of aggrecan, a chondrocyte marker, than the pellet culture using cells grown with the conventional materials. Consequently, MSCs that are isolated, stored, and grown using the xeno-free materials including the serum-free medium (MesenCult-XF™), TC protector™, and recombinant trypsin (TrypLESelect™) might be applicable for regenerative medicine of cartilage.     

Effects of malondialdehyde on growth and proliferation of human bone marrow mesenchymal stem cells in vitro

Malondialdehyde(MDA)is a well known inducer of carbonyl stress in a variety of human cells,however,its effects on human bone marrow mesenchymal stem cells(hMSCs)have not been documented.In this study,the effects of MDA concentration on the growth rate and proliferation of hMSCs in vitro were assessed.Under high concentrations of MDA,the cell count was decreased and the population doubling time(PDT)was lengthened.Flow cytometry(FCM)demonstrated that MDA triggered cells to undergo apoptosis.in parallel with the findings in MTT[3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyl tetrazolium bromide]assay which showed that it can also impair cellular viability.Surprisingly,FCM also determined that the percentage of hMSCs in G2/M- and S-phases also increased in a dose-dependent manner with respect to MDA concentration.These results strongly suggest that even though hMSCs were severely impaired by high concentrations of MDA,they were still able to send signals that resulted in accelerated cellular proliferation process.This study provided important insights on how carbonyl stress affects cell cycle and proliferation of hMSCs.     

Cell proliferation of human bone marrow mesenchymal stem cells on biodegradable microcarriers enhances in vitro differentiation potential

Objectives: For reasons of provision of highly‐specific surface area and three‐dimensional culture, microcarrier culture (MC) has garnered great interest for its potential to expand anchorage‐dependent stem cells. This study utilizes MC for in vitro expansion of human bone marrow mesenchymal stem cells (BMMSCs) and analyses its effects on BMMSC proliferation and differentiation. Materials and methods: Effects of semi‐continuous MC compared to control plate culture (PC) and serial bead‐to‐bead transfer MC (MC bead‐T) on human BMMSCs were investigated. Cell population growth kinetics, cell phenotypes and differentiation potential of cells were assayed. Results: Maximum cell density and overall fold increase in cell population growth were similar between PCs and MCs with similar starting conditions, but lag period of BMMSC growth differed substantially between the two; moreover, MC cells exhibited reduced granularity and higher CXCR4 expression. Differentiation of BMMSCs into osteogenic and adipogenic lineages was enhanced after 3 days in MC. However, MC bead‐T resulted in changes in cell granularity and lower osteogenic and adipogenic differentiation potential. Conclusions: In comparison to PC, MC supported expansion of BMMSCs in an up‐scalable three‐dimensional culture system using a semi‐continuous process, increasing potential for stem cell homing ability and osteogenic and adipogenic differentiation.     

Regulation of cyclic longitudinal mechanical stretch on proliferation of human bone marrow mesenchymal stem cells

Mechanical stimulation is critical to both physiological and pathological states of living cells. Although a great deal of research has been done on biological and biochemical regulation of the behavior of bone marrow mesenchymal stem cells (MSCs), the influence of biomechanical factors on their behavior is still not fully documented. In this study, we investigated the modulation of mechanical stretch magnitude, frequency, and duration on the human marrow mesenchymal stem cells (hMSCs) proliferation by an in vitro model system using a mechanical stretch loading apparatus, and optimized the stretch regime for the proliferation of hMSCs. We applied 3-(4,5-dimethylthiazol-2-yl)- 2,5-diphenyl tetrasodium bromide (MTT) assay to estimate the overall proliferative effects of the stretch on hMSCs. We found that fibronectin coating increased adhesion to silicone chamber surface, however, it did not show significant effect on proliferation of hMSCs. A frequency of 1 Hz was more effective in stimulating hMSCs proliferation. At 1 Hz, 5% strain for 15, 30, 60 min, the significant increase of hMSCs proliferation was observed. Proliferation was enhanced at 1 Hz, 10% strain for 15, 30 min, while decreased for 60 min. At 1 Hz, 15% strain, 15 min stretch resulted in the decrease of proliferation, and 30 min and 60 min stretch showed an increased proliferation. Long time (12 and 24 h) strain application blocked the proliferation. These results indicate that mechanical stretch plays an important role in hMSCs growth and proliferation; an appropriate mechanical stretch regime could be a novel approach to promoting proliferation of hMSCs in vitro.     

In vitro effects of RU486 on proliferation and differentiation capabilities of human bone marrow mesenchymal stromal cells

Although exogenous glucocorticoids (GC) play a role in the regulation of bone marrow mesenchymal stem/stromal cells (MSCs) proliferation and differentiation, the function of endogenous GC is not well understood. The purpose of this study was to investigate the effect of the blockage of endogenous GC using RU486, an antagonist of the glucocorticoid receptor, on the in vitro proliferation and differentiation capabilities of human MSCs. We quantitatively measured cell proliferation of human MSCs after treatment with increasing concentrations of RU486. We also evaluated multiple MSC differentiation capabilities, as well as the expression of stemness and senescence genes after proliferation of these human cells in vitro in the presence of RU486 at 10(-8)M. It was observed that RU486 treatment significantly increases the proliferation of human MSCs, although the optimal dose of RU486 for this increase in proliferation differs depending on the gender of the MSC donor. This improvement in MSC proliferation with RU486 treatment was higher in MSCs from male donors than that from females. No effect of RU486 on MSC proliferation was observed in a steroid-free medium. RU486 pretreatment significantly increased the expression of mRNA for alkaline phosphatase in human MSCs and the mRNA expression of osteocalcin of these cells up-regulated earlier after their exposure to osteogenic differentiation medium. Although no statistical significance in terms of chondrogenic differentiation markers was detected, mRNA expression for aggrecan and collagen type 2 were higher in a majority of the RU486-pretreated donor MSCs than their untreated controls. No significant difference in terms of MSC adipogenic differentiation capabilities were observed after RU486 treatment. RU486 treatment up-regulated the expressions of FGF-2 and Sox-11 in human MSCs. These results indicate that blockage of endogenous GCs may be developed as a novel approach to effectively improve the proliferation and osteochondral differentiation capabilities of human MSCs for potential clinical applications. Additional studies will be required to determine the potential long-term effects of RU486 treatment on these bone marrow cells.     

Effects of human full-length amelogenin on the proliferation of human mesenchymal stem cells derived from bone marrow

Amelogenins are enamel matrix proteins that play a crucial role in enamel formation. Recent studies have revealed that amelogenins also have cell signaling properties. Although amelogenins had been described as specific products of ameloblasts, recent research has demonstrated their expression in bone marrow stromal cells. In this study, we examined the effect of recombinant human full-length amelogenin (rh174) on the proliferation of human mesenchymal stem cells (MSCs) derived from bone marrow and characterized the associated changes in intracellular signaling pathways. MSCs were treated with rh174 ranging in dose from 0 to 1,000 ng/ml. Cell proliferative activity was analyzed by bromodeoxyuridine (BrdU) immunoassay. The expression of lysosomal-associated membrane protein 1 (LAMP1), a possible amelogenin receptor, in MSCs was analyzed. Anti-LAMP1 antibody was used to block the binding of rh174 to LAMP1. The MAPK-ERK pathway was examined by Cellular Activation of Signaling ELISA (CASE) kit and western blot analysis. A specific MAPK inhibitor, U0126, was used to block ERK activity. It was shown that rh174 increased the proliferation of MSCs and MAPK-ERK activity. The MSC proliferation and MAPK-ERK activity enhanced by rh174 were reduced by the addition of anti-LAMP1 antibody. Additionally, the increased proliferation of MSCs induced by rh174 was inhibited in the presence of U0126. In conclusion, it is demonstrated that rh174 increases the proliferation of MSCs by interaction with LAMP1 through the MAPK-ERK signaling pathway, indicating the possibility of MSC application to tissue regeneration in the orofacial region.     

Isolation of mesenchymal stem cells from human placenta: comparison with human bone marrow mesenchymal stem cells

The presence within bone marrow of a population of mesenchymal stem cells (MSCs) able to differentiate into a number of different mesenchymal tissues, including bone and cartilage, was first suggested by Friedenstein nearly 40 years ago. Since then MSCs have been demonstrated in a variety of fetal and adult tissues, including bone marrow, fetal blood and liver, cord blood, amniotic fluid and, in some circumstances, in adult peripheral blood. MSCs from all of these sources can be extensively expanded in vitro and when cultured under specific permissive conditions retain their ability to differentiate into multiple lineages including bone, cartilage, fat, muscle, nerve, glial and stromal cells. There has been great interest in these cells both because of their value as a model for studying the molecular basis of differentiation and because of their therapeutic potential for tissue repair and immune modulation. However, MSCs are a rare population in these tissues. Here we tried to identify cells with MSC-like potency in human placenta. We isolated adherent cells from trypsin-digested term placentas and examined these cells for morphology, surface markers, and differentiation potential and found that they expressed several stem cell markers. They also showed endothelial and neurogenic differentiation potentials under appropriate conditions. We suggest that placenta-derived cells have multilineage differentiation potential similar to MSCs in terms of morphology and cell-surface antigen expression. The placenta may prove to be a useful source of MSCs.     

Adipocytes derived from human bone marrow mesenchymal stem cells exert inhibitory effects on osteoblastogenesis

The infiltration of adipocytes in osteoporotic patients' bone marrow suggests an important regulatory function of bone marrow fat on the development of aged bone. Therefore, we have examined the effects of adipocytes derived from bone mesenchymal stem cell (MSC) on osteoblast differentiation using two different co-culture modes (direct mode and indirect mode). Alkaline phosphatase (ALP)-positive areas and mineralized areas of MSC-derived osteoblasts decrease similarly in the two co-culture modes as the amount of MSC-derived adipocytes increases, suggesting that the crosstalk between adipocytes and osteoblasts may be mainly through secretory factors in the medium. To further understand the molecular mechanisms, both mRNA and protein expressions in osteoblasts in the lower layer of the indirect mode were analyzed, leading to identification of 12 differential genes/proteins. Among them, S100A6 and calreticulin are possibly related to bone formation. S100A6 was down-regulated and calreticulin was up-regulated as MSC-derived adipocytes increased. Similarly, differential expression of these proteins was also observed in bone tissue slides from young (1-month-old) and old (6-month-old) mice. The expression level of β-catenin in osteoblasts of bone tissues was lower in 6-month-old mice compared to 1-month-old mice. Total TGF-β analyzed with antibody-based protein microarray and active TGF-β analyzed with ELISA in the co-cultured cell medium increased consistently as the amount of adipocytes increased. Taken together, our results suggest that MSC-derived adipocytes may regulate osteoblast differentiation in the aged bone through TGF-β-mediated canonical Wnt signaling.