New culture system for human embryonic stem cells: autologous mesenchymal stem cell feeder without exogenous fibroblast growth factor 2

Human embryonic stem (hES) cells have been successfully maintained using human-cell feeder systems or feeder-free systems. However, despite advances in culture techniques, hES cells require supplementation with fibroblast growth factor 2 (FGF-2), an exogenous stemness factor, which is needed to sustain the authentic undifferentiated status. We developed a new culture system for hES cells; this system does not require supplementation with FGF-2 to obtain hES cells that are suitable for tissue engineering and regenerative medicine. This culture system employed mesenchymal stem cells derived from hES cells (hESC-MSCs) as autologous human feeder cells in the absence of FGF-2. The hES cell line SNUhES3 cultured in this new autologous feeder culture system maintained the typical morphology of hES cells and expression of pluripotency-related proteins, SSEA-4, TRA-1-60, OCT4, and alkaline phosphatase, without development of abnormal karyotypes after more than 30 passages. RNA expression of the pluripotency-related genes OCT4 and NANOG was similar to the expression in SNUhES3 cells maintained on xenofeeder STO cells. To identify the mechanism that enables the cells to be maintained without exogenous FGF-2, we checked the secretion of FGF-2 from the mitomycin-C treated autofeeder hESC-MSCs versus xenofeeder STO cells, and confirmed that hESC-MSCs secreted FGF-2 whereas STO cells did not. The level of FGF-2 in the media from the autofeeder system without exogenous FGF-2 was comparable to that from the xenofeeder system with addition of FGF-2. In conclusion, our new culture system for hES cells, which employs a feeder layer of autologous hESC-MSCs, supplies sufficient amounts of secreted FGF-2 to eliminate the requirement for exogenous FGF-2.     

Lung cancer-derived galectin-1 enhances tumorigenic potentiation of tumor-associated dendritic cells by expressing heparin-binding EGF-like growth factor

The interaction between cancer cells and their microenvironment is a vicious cycle that enhances the survival and progression of cancer, resulting in metastasis. This study is the first to indicate that lung cancer-derived galectin-1 secretion is responsible for stimulating tumor-associated dendritic cells (TADCs) production of mature heparin-binding EGF-like growth factor (HB-EGF), which, in turn, increases cancer progression. Treatment of galectin-1, present in large amounts in lung cancer conditioned medium and lung cancer patient sera, mimicked the inductive effect of lung cancer conditioned medium on the expression and ectodomain shedding of HB-EGF by TNFα-converting enzyme/a disintegrin and metalloproteinase 9 (ADAM9) and ADAM17. Significant up-regulation of HB-EGF has been seen in tumor-infiltrating CD11c(+) dendritic cells in human lung cancer samples. Active cleavage of HB-EGF in TADCs by ADAM9 and ADAM17 is associated with increased protein kinase C δ and Lyn signaling. Enhancement of HB-EGF production in TADCs increased the proliferation, migration, and epithelial-to-mesenchymal transition abilities of lung cancer. In contrast, inhibiting HB-EGF by siRNA suppressed TADC-mediated cancer progression. Moreover, mice injected with galectin-1 knockdown Lewis lung carcinoma showed decreased expression and ectodomain shedding of HB-EGF and reduced incidence of cancer development, resulting in increased survival rates. We demonstrate here for the first time that human and mouse DCs are a source of HB-EGF, an EGFR ligand with tumorigenic properties. Antagonists of the effect of lung cancer-derived galectin-1 on DCs and anti-HB-EGF blocking antibodies could, therefore, have therapeutic potential as antitumor agents.     

A comparative study on nonviral genetic modifications in cord blood and bone marrow mesenchymal stem cells

The focus of both clinical and basic studies on stem cells is increasing due to their potentials in regenerative medicine and cell-based therapies. Recently stem cells have been genetically modified to enhance an existing character in or to bring a new property to them. However, accomplishment of declared goals requires detailed knowledge about their molecular characteristics which could be achieved by genetic modifications mostly through nonviral transfection strategies. Capable of differentiating into multiple cells, human unrestricted somatic stem cells (hUSSCs) and human mesenchymal stem cells (hMSCs) seem to be suitable candidates for transfection approaches. Involvement of microRNAs (miRNAs) in many biological processes makes their transfection evaluation valuable. Herein we investigated the efficacy and toxicity of four typically used transfection reagents (Arrest-In, Lipofectamine 2000, Oligofectamine and HiPerfect) systematically to deliver fluorescent labeled-miRNA and Green Fluorescent Protein (GFP) expressing plasmid into hUSSCs and hMSCs. The authenticity of stem cells was verified by differentiation experiments along with flow cytometry of surface markers. Our study revealed that stemness properties of these stem cells were not affected by transient transfection. Moreover the ratios of cell viability and transfection efficiency in both analyzed stem cells were reversed. Considering cell viability, the highest fraction of GFP-expressing cells was obtained using Oligofectamine (~50%) while the highest transfection rate of miRNA was achieved by Lipofectamine 2000 (~90%). Moreover dependency of hMSCs to size of transfected nucleic acid and time-dependency of Oligofectamine and their affection on the yield of transfection were observed. Cytotoxicity assessments also showed that hUSSCs are sensitive to HiPerFect. In addition cells treated by Lipofectamine showed morphological changes. Representing the efficient nucleic acid transfection, our research facilitates comprehensive genetic modification of stem cells and demonstrates powerful approaches to understand stem cell molecular regulation mechanisms, which eventually improves nonviral cell-mediated gene therapy.

Electronic supplementary material

The online version of this article (doi:10.1007/s10616-012-9430-9) contains supplementary material, which is available to authorized users.     

Assessment of the green florescence protein labeling method for tracking implanted mesenchymal stem cells

Although green fluorescent protein (GFP) labeling is widely accepted as a tracking method, much remains uncertain regarding the retention of injected GFP-labeled cells implanted in ischemic organs. In this study, we evaluate the effectiveness of GFP for identifying and tracking implanted bone marrow- mesenchymal stem cells (BM-MSCs) and the effect of GFP on the paracrine actions of these cells. MSCs isolated from rat femur marrow were transduced with a recombinant adenovirus carrying GFP. After transplantation of the GFP-labeled BM-MSCs into the infarct zone of rat hearts, the survival, distribution, and migration of the labeled cells were analyzed at 3, 7, 14, and 28 days. To evaluate the effect of GFP on the paracrine actions of BM-MSCs, Western blot analysis was performed to detect the expression of vascular endothelial growth factor (VEGF), b fibroblast growth factor (b FGF), tissue inhibitor of metalloproteinase-1 (TIMP-1) and matrix metalloproteinases-2 (MMP-2). GFP was successfully expressed by BM-MSCs in vitro. At 14 days after cell transplantation the GFP-positive cells could not be detected via confocal microscopy. By using a GFP antibody, distinct GFP-positive cells could be seen and quantitative analysis showed that the expression volume of GFP was 6.42 ± 0.92 mm³ after 3 days, 1.24 ± 0.76 mm³ after 7 days, 0.33 ± 0.03 mm³ after 14 days, and 0.09 ± 0.05 mm³ after 28 days. GFP labeling did not adversely affect the paracrine actions of BM-MSCs. GFP labeling could be used to track MSC distribution and their fate for at least 28 days after delivery to rat hearts with myocardial infarction, and this stem cell tracking strategy did not adversely affect the paracrine actions of BM-MSCs.     

不同数目骨髓间充质干细胞移植对大鼠肺损伤的抑制作用

目的研究不同数目的骨髓间充质干细胞（mesenchymal stem cells,MSCs）静脉移植对野百合碱（monocrotaline,MCT）诱导大鼠肺损伤的抑制作用。方法全骨髓贴壁法培养Wistar大鼠MSCs,取第3～5代细胞进行移植。健康雄性Wistar大鼠20只由颈外静脉移植MSCs,按移植细胞个数分为5×105组、1×106组、5×106组和对照（生理盐水）组（n=5）,测定移植前、移植后5 min,30 min及24 h的RVSP。另40只随机分组（n=10）：①MCT/MSCs 5×105组;②MCT/MSCs 1×106组;③MCT组;④对照组,腹腔注射60 mg/kgM CT（对照组注射等量生理盐水）,同时分别移植MSCs 5×105个、1×106个或等量PBS液体。4周后检测大鼠右心室收缩压（right ventricularsystolic pressure,RVSP）、RV/（LV＋S）重量比值;肺组织苏木素-伊红染色、地衣红染色和平滑肌Actin免疫组织化学染色。统计数据采用SPSS 11.0软件,对各组数据进行单因素方差分析检验。结果少于1×106个MSCs颈外静脉移植是安全的。MSCs颈外静脉移植4周后,MCT/MSCs 1×106组RVSP（35.6±8.4）mmHg与MCT组（47.2±10.5）mmHg相比明显下降（P〈0.05）,心室比0.3572±0.0923明显低于MCT组0.4454±0.0935（P〈0.05）,而MCT/MSCs 5×105组RVSP为（42.5±11.3）mmHg,心室比0.4003±0.0725,与MCT组相比无明显下降（两者P〉0.05）;病理染色可见肺组织肺小动脉中,MCT/MSCs 1×106组中膜厚度分布为（19.2±3.8）%,较MCT组（26.4±4.9）%明显变薄（P〈0.05）;而MCT/MSCs 5×105组（23.3±3.6）%较MCT组相比无显著差异（P〉0.05）。结论 MSCs颈外静脉移植对MCT诱导的肺损伤具有抑制作用,1×106个细胞较5×105个细胞移植抑制作用显著。     

人脐带间充质干细胞于不同通电情况下在聚吡咯上生长情况的形态

目的观察人脐带间充质干细胞（human umbilical cord mesenchymal stem cell,hUC-MSC）与聚吡咯共培养后,在不同通电条件下形态学变化。方法体外分离培养hUC-MSC并进行鉴定。循环伏安法制备聚吡咯（polypyrrole,PPy）薄膜。选择第3～6代的hUC-MSC与PPy共培养,分别采用控制电压和控制电流的方法对细胞进行刺激,利用电镜及光镜观察细胞形态学变化。不通电组作为阴性对照。结果电刺激对细胞贴附、形态有较大影响,不同形式的电刺激对细胞形态影响的比较类似。结论电刺激结合生物导电材料对细胞的贴附和形态可造成显著改变,可作为调控细胞生长的手段之一,需要进一步研究其控制条件。     

间充质干细胞-透明质酸-多聚赖氨酸治疗脊髓损伤的实验研究

目的研究间充质干细胞—透明质酸—多聚赖氨酸复合物治疗脊髓损伤的可行性,评价其治疗效果并探讨其可能机制。方法从人骨髓中分离、培养人骨髓间充质干细胞（human bone marrow mesenchymal stem cell,hBMSC）;制作大鼠脊髓半横断模型,按照实验分组分别将hBMSC、透明质酸-多聚赖氨酸（hyaluronic acid-poly-L-lysine,HA-PLL）、hBMSC-HA-PLL复合物注入损伤区域,单纯损伤组作为对照。术后按照不同时间点评价损伤和移植后的大鼠运动功能。8周后杀死大鼠,观察不同移植组体内轴突和血管生长的情况,对不同细胞、材料及复合物移植对大鼠脊髓损伤修复效果进行评估。结果 hBMSC移植组和hBMSC-HA-PLL移植组的大鼠运动功能的改善显著好于单纯损伤及HA-PLL移植组。电镜结果证实复合物移植组可显著促进轴突和血管生长,新生的轴突和血管结构较为完整。结论 hBMSC具有促进神经功能恢复的作用,将其与HA-PLL相结合,可以促进大鼠脊髓损伤修复,其机制可能包括材料框架作用和hBMSC在体内对大鼠神经细胞的营养作用以及促进微血管的生成。     

缺氧环境下MSCs促进血管内皮细胞增殖和血管形成

目的 探讨成人骨髓间充质干细胞(bone marrow mesenchymal stem cells BMSCs)在体外缺氧环境下对人脐静脉内皮细胞(human umbilical vein endothelial cells,HUVECs)增殖和血管形成能力的影响及其可能机制.方法密度梯度离心法收集分离成人骨髓血MSCs并进行体外培养扩增,传代至4代进行实验,流式细胞仪鉴定MSCs表面标志.BMSCs缺氧培养0h(对照组)、12h、24h和48h后,RT-PCR检测SDF-1和VEGF基因表达,ELISA法检测细胞上清液中SDF-1和VEGF蛋白含量.HUVECs传代培养后分成三组进行实验:对照组、BMSCsCMN-HUVECs组,BMSCsCMH-HUVECs组,MTT检测三组细胞增殖能力,体外血管形成实验分析三组细胞在Matrigel上管腔样结构形成情况.结果 (1) BMSCs呈旋涡状长梭形即纤维母细胞样生长;(2) 人BMSCs阳性表达CD29、CD44和CD90,而CD34、CD45和CD106为阴性;(3) BMSCs缺氧培养后SDF-1和VEGF在mRNA和蛋白水平表达均较常氧培养显著增高(P均<0.05);(4) BMSCsCMH明显提高HUVECs增殖能力(P<0.05),显著增加HUVECs在Matrigel上形成管腔样结构的能力(P<0.05).结论 人BMSCs在缺氧环境下通过旁分泌SDF-1和VEGF提高血管内皮细胞增殖和管腔样结构形成能力,促进血管新生.     

芪丹通脉片促进骨髓间充质干细胞向缺血心肌趋化迁移

目的:研究芪丹通脉片对骨髓间充质干细胞向缺血心肌趋化迁移的作用。方法:SD大鼠,随机分为单纯移植组,益气组,活血组。芪丹通脉片组,各组大鼠灌服中药14天后,采用冠状动脉左前降支结扎法建立心肌梗死模型。经尾静脉注入DIO标记的骨髓间充质干细胞,3天后取缺血部位的心肌,应用流式细胞仪分析计算出每克心肌所含有的DIO阳性细胞数;行冰冻切片,采用荧光显微镜观察DIO阳性细胞;4周后采用多导生理记录仪记录大鼠平均动脉压(MAP)、左心室收缩峰压(LVPSP)、左心室内压最大上升变化速率(+LVdp/dtmax)和最大下降速率(-LVdp/dtmax)。结果:芪丹通脉片组较益气组、活血组、单纯移植组,每克心肌所含有的DIO阳性细胞数增多,其差异有统计学意义;冰冻切片镜下观察,芪丹通脉片组阳性细胞数较益气组、活血组、单纯移植组增多,其差异有统计学意义;心功能检测示:芪丹通脉片组MAP、LVPSP、+LVdp/dtmax、-LVdp/dtmax较益气组、活血组、单纯移植组改善明显,差异有统计学意义。结论:芪丹通脉片具有促进骨髓间充质干细胞向缺血心肌趋化迁移的作用,益气与活血中药配伍应用优于单纯益气药或活血药。     

脐带间充质干细胞与再生障碍性贫血

再生障碍性贫血(aplastic anemia,AA)是由于物理、化学、生物或不明因素作用使骨髓造血干细胞和骨髓微环境严重受损,造成骨髓造血功能降低或衰竭,以全血细胞减少为主要表现的一组综合征。间充质干细胞(MSC)是属于中胚层的一类多能干细胞,主要存在于结缔组织和器官间质中。不仅具有多向分化潜能,还有多种免疫调节作用。许多研究表明MSCs抑制同种异体效应T淋巴细胞增殖,还能下调T淋巴细胞表面的活化分子CD25、CD38、CD69的表达。MSCs对DCs的分化、成熟和活化具有抑制作用,改变DCs的细胞因子分泌,使成熟的DCl分泌TNF-a减少,DC2分泌IL-10增加,从而抑制T淋巴细胞增殖。MSCs能够抑制IL-2和IL-15介导的NK细胞增殖,使IL-2刺激NK细胞分泌的IFN-y减少。通过这些机制来干预再生障碍性贫血,同时研究发现MSCs免疫原性较低。尤其脐带MSC,因为其独特优势,目前已经成为干细胞干预治疗AA的研究热点。