NGF基因重组慢病毒载体的构建及其在人脐带血间充质干细胞的表达

目的:构建神经生长因子(NGF)的慢病毒表达载体,并观察其转染人脐带间充质干细胞后的表达情况。方法:采用实时定量PCR(RT-PCR)方法获取NGF基因编码片段,并将构建的慢病毒载体质粒与包装质粒和包膜质粒共转染293T细胞,包装生产慢病毒。应用相同滴度的慢病毒转导等量间充质干细胞(MSCs),观察转染后细胞的生长形态及生长曲线,再采用RT-PCR、Western Blot方法检测NGF m RNA、蛋白质的表达水平。结果:经PCR、酶切和测序结果证明成功构建NGF基因重组慢病毒载体。同时NGF基因重组慢病毒载体能够成功转染人脐带间充质干细胞,转染率达95.35%,转染后干细胞在NGF m RNA及蛋白质的表达方面较对照组明显升高,同时经倒置显微镜观察及生长曲线实验证实转染后干细胞的生长与对照组相比无明显差异。结论:重组NGF的慢病毒表达载体能够高效的转染人脐带间充质干细胞,基因转染后干细胞的增殖分化能力与未转染细胞差异无统计学意义,可作为一种高效的干细胞转染方法。     

慢病毒重组同源盒基因HOXA4表达载体的构建及其感染人脐带间充质干细胞的实验性研究

目的 构建携带同源基因HOXA4的慢病毒表达载体,并测定其对人脐带间充质干细胞的感染效率.方法 使用酶切及PCR技术从含有HOXA4基因的质粒克隆模版HOXA4-MSCV逆转录载体中获取目的 基因HOXA4,并将HOXA4基因重组到慢病毒载体表达质粒上Lenti-GFP-CTB,通过酶切、测序验证HOXA4基因后,将Lenti-GFP-HOXA4质粒、和辅助包装质粒pRsv-REV、pMDlg-pRRE、PMD2G共同转染人胚胎肾上皮细胞系293T细胞,获得携带HOXA4基因的重组慢病毒Lentiviral-HOXA4;然后感染人脐带间充质干细胞,通过荧光显微镜及流式细胞术检测其感染效率.结果 成功构建携带HOXA4基因的慢病毒表达载体Lentiviral-HOXA4,并获得高纯度的慢病毒浓缩液.经检测病毒滴度达2.11×108 TU/ml.成功转染HOXA4基因的脐带间充质干细胞表达绿色荧光蛋白,当病毒感染复数（MOI）值为60时转染效率最高,达（95.4±4.3）%.结论 成功构建携带人HOXA4基因的慢病毒,并可以在体外有效转染人脐带间充质干细胞.     

小鼠精原干细胞不同转染方法效率的比较

本研究采用腺病毒感染、慢病毒感染、脂质体转染和电穿孔转化方法将含有绿色荧光蛋白（GFP）的质粒转入经过差异贴壁法初步分离纯化的小鼠精原干细胞(SSCs)中,转染48 h后通过流式细胞仪检测GFP阳性细胞比例比较4种方法在体外转染精原干细胞的效率.结果显示,脂质体转染效率最高仅为8.64%,不能满足对精原干细胞进一步实验的要求;电穿孔法效率最高达到25.27%,但转化后细胞大量死亡;腺病毒转染细胞的效率达到了32.4%;慢病毒转染效率最高,达到74.25%. 因此,慢病毒转染法是体外转染小鼠精原干细胞的有效方法.     

一种简便高效的人胚胎干细胞转染方法

目的 :利用Fugene 6基因转染试剂建立一种简便高效的人胚胎干细胞转染方法 ,并建立稳定表达增强型绿色荧光蛋白 (enhancedgreenfluorescentprotein ,EGFP)报告基因的人胚胎干细胞系 ,为人胚胎干细胞研究提供一个非常有用的细胞模型。方法 :通过Fugene 6基因转染试剂成功地将EGFP基因转入无饲养层培养的人胚胎干细胞中 ,嘌呤霉素筛选得到稳定表达EGFP的克隆 ;利用倒置荧光显微镜和流式细胞仪检测EGFP在人胚胎干细胞中的表达情况。结果 :EGFP瞬时转染效率为 30 %～ 40 % ,稳定转染效率约 1/10^4～5,且稳定转染的人胚胎干细胞均表达EGFP。结论 :Fugene 6是一种良好的基因转染试剂 ,它可以有效地将外源基因转入人胚胎干细胞中 ,为人胚胎干细胞的转基因研究提供新的实验手段。     

端粒酶shRNA 慢病毒载体的构建及转染人类胚胎干细胞

目的:构建端粒酶shRNA慢病毒载体及建立端粒酶稳定干扰的人类胚胎干细胞系。方法:将端粒酶基因特异性shRNA靶序列与慢病毒载体PLKO.1-puro连接、转化、挑取阳性克隆进行PCR及测序鉴定;利用包装细胞293T获得重组的慢病毒,感染人类胚胎干细胞,分为干扰组ShTert、载体组vector和野生型组wt;Realtime-PCR检测端粒酶mRNA的表达。结果:经PCR和DNA测序鉴定,成功构建端粒酶特异性shRNA慢病毒载体,并感染人类胚胎干细胞;经检测shTert组端粒酶mRNA表达较vector和wt组明显降低,vector组和wt组之间无明显差异。结论:通过成功构建的端粒酶特异性shRNA慢病毒载体对人类胚胎干细胞的转染实现了对其端粒酶mRNA的调控。     

兔Oct4启动子驱动RFP基因表达载体的构建及验证

转录因子OCT4在维持和调控胚胎干细胞的多能性中发挥着重要的作用。Oct4基因启动子驱动标志蛋白的表达对研究胚胎干细胞多能性和建立iPs细胞有重要意义。由于GFP在慢病毒转染过程中常用作转染标记,计划构建兔Oct4基因启动子（rOct4）驱动红色荧光蛋白表达的载体,这将有利于兔ES细胞和iPS细胞制备的研究。通过PCR方法扩增rOct4,构建了rOct4驱动RFP基因的表达载体rOct4-RFP。经转染小鼠ES细胞验证正确后,将rOct4-RFP质粒转染兔成纤维细胞系获得rOct4-RFP成纤维细胞系。经过酶切和测序验证,证明rOct4-RFP构建成功,而且能够在小鼠Es细胞系E14中表达细胞红色荧光蛋白,并受细胞分化状态的调控。通过脂质体介导的基因转移、抗性筛选和PCR鉴定建立了rOct4-RFP转基因成纤维细胞系。     

转染Netrin-1基因的真皮多能干细胞治疗大鼠脊髓损伤的研究

目的:观察转染Netrin-1基因的真皮多能干细胞(dMSCs)移植对大鼠脊髓损伤的修复作用。方法:取大鼠真皮组织,分离培养真皮多能干细胞,经转染Netrin-1基因和诱导,观察细胞形态变化,免疫细胞化学方法对分化细胞进行鉴定。Wistar大鼠在L4水平制成脊髓全横断损伤模型,伤处移植大鼠真皮多能干细胞或者转染Netrin-1基因的真皮多能干细胞。对大鼠进行动物行为学(BBB)评分和对损伤脊髓进行组织学检测。结果:转染Netrin-1基因的dMSCs诱导产生的神经元样细胞占总细胞数的比例为24.45±3.73%,而单独的真皮多能干细胞诱导产生的神经元样细胞占总细胞数的比例10.50±2.13%,二者差异显著(P<0.05)。BBB评分显示转染Netrin-1基因的dMSCs移植组明显高于单纯dMSCs移植组和空白对照组(P<0.05);转染Netrin-1基因的dMSCs移植组损伤脊髓结构的修复明显优于单纯dMSCs移植组和空白对照组。结论:转染Netrin-1基因的真皮多能干细胞移植较单纯dMSCs移植对大鼠脊髓损伤有更好的治疗作用。     

含GDNF基因的慢病毒载体的构建和其在人胚胎神经干细胞中的表达

利用含胶质源性神经营养因子(Glial cell derived neurotrophic factor, GDNF)基因的慢病毒(Lentivirus)载体转染了人胚胎来源的神经干细胞, 探讨了转染后GDNF在神经干细胞中的体外表达水平及其影响因素。首先GDNF基因被克隆入慢病毒载体, 通过瞬时转染法包装出病毒上清, 经滴度鉴定后分别按拷贝数分别为 1、2.5、5、10转染神经干细胞。转染后细胞经过潮霉素筛选得到均一表达GDNF的神经干细胞体系。其后分别利用酶联免疫吸附(ELISA)方法和Real-time PCR方法测定不同转染组细胞在不同时间点GDNF的蛋白分泌水平和基因表达水平。实验中构建了表达GDNF基因的慢病毒载体, 包装出的病毒上清在体外培养条件下成功转染了神经干细胞, 经潮霉素筛选可以得到均一的持续表达分泌GDNF的人胚胎皮层神经干细胞体系。实验结果表明转染拷贝数可以影响GDNF的分泌水平, 相同条件下转染拷贝数越高, GDNF分泌量越多, 其基因表达水平越高。因此, 含GDNF的慢病毒载体可以成功转染人胚胎来源的神经干细胞, 使其持续表达GDNF, 转染过程中可以通过拷贝数在一定水平上控制GDNF的蛋白分泌水平和基因表达水平。     

一种获得猪诱导性多能干细胞的新方法

诱导性多能干细胞技术表明,通过过表达4个重编程因子可使体细胞逆转到多能性的状态,为建立更多家畜动物的多能性干细胞系提供了新的方法,如猪、牛、羊等农业动物.莫洛尼氏鼠白血病逆转录病毒载体被广泛应用于小鼠iPS细胞的建系和机制研究上,然而这种病毒只能感染小鼠和大鼠细胞,这限制了它在其他哺乳动物iPS细胞系建立上的应用.本实验采用一种新的逆转录病毒系统,可以高效便捷地从猪成纤维细胞中获得iPS细胞.通过在GP2-293细胞中包装VSV-G蛋白包被的病毒,仅一步感染猪成纤维细胞即可转入4个人源重编程因子（Oct4,Sox2,Klf4和c-Myc）.在添加有碱性成骨因子bFGF的人类胚胎干细胞培养体系中,成功建立6株和人类胚胎干细胞形态极其相似的猪iPS细胞系.这些猪iPS克隆具有较大的细胞核/细胞质比例、边界清晰、细胞呈扁平状等特征.在体外可以分化成拟胚体,注射入免疫缺陷性小鼠体内可以形成畸胎瘤,含有3种胚层类型的组织.     

Periostin表达上调对去势大鼠骨髓间充质干细胞生物学行为的作用

目的:探究Periostin(骨膜蛋白)表达上调对雌性去势大鼠骨髓间充质干细胞(BMSCs)成骨分化、细胞增殖与凋亡特性的作用。方法:通过去势手术建立雌性大鼠骨质疏松模型,待建模成功后分离培养并鉴定BMSCs,利用含有增强型绿色荧光蛋白(EGFP)和大鼠Periostin基因的重组慢病毒转染P3代BMSCs,成骨诱导后鉴定其成骨分化能力改变,流式细胞仪检测其细胞周期以及细胞凋亡率的变化。结果:成功建立骨质疏松模型;荧光显微镜下观察到绿色荧光提示慢病毒载体实现转染并表达目的蛋白;慢病毒转染组BMSCs成骨诱导后ALP及茜素红染色较去势组BMSCs染色加深;慢病毒转染组BMSCs的S期细胞比例为(17.07±0.56)%,显著高于去势组BMSCs的S期细胞比例(8.42±0.02)%,差异具有统计学意义(P0.05);慢病毒转染组BMSCs的细胞凋亡率为(7.3±0.1)%,显著低于去势组BMSCs的凋亡率(12.05±0.55)%,其差异具有统计学意义(P0.05)。结论:Periostin表达上调可提高去势骨髓间充质干细胞的成骨分化及细胞增殖能力,并对其凋亡有抑制作用。     

Alternative Cultures for Human Pluripotent Stem Cell Production,Maintenance, and Genetic Analysis

Human pluripotent stem cells (hPSCs) hold great promise for regenerative medicine and biopharmaceutical applications. Currently, optimal culture and efficient expansion of large amounts of clinical-grade hPSCs are critical issues in hPSC-based therapies. Conventionally, hPSCs are propagated as colonies on both feeder and feeder-free culture systems. However, these methods have several major limitations, including low cell yields and generation of heterogeneously differentiated cells. To improve current hPSC culture methods, we have recently developed a new method, which is based on non-colony type monolayer (NCM) culture of dissociated single cells. Here, we present detailed NCM protocols based on the Rho-associated kinase (ROCK) inhibitor Y-27632. We also provide new information regarding NCM culture with different small molecules such as Y-39983 (ROCK I inhibitor), phenylbenzodioxane (ROCK II inhibitor), and thiazovivin (a novel ROCK inhibitor). We further extend our basic protocol to cultivate hPSCs on defined extracellular proteins such as the laminin isoform 521 (LN-521) without the use of ROCK inhibitors. Moreover, based on NCM, we have demonstrated efficient transfection or transduction of plasmid DNAs, lentiviral particles, and oligonucleotide-based microRNAs into hPSCs in order to genetically modify these cells for molecular analyses and drug discovery. The NCM-based methods overcome the major shortcomings of colony-type culture, and thus may be suitable for producing large amounts of homogeneous hPSCs for future clinical therapies, stem cell research, and drug discovery.     

Localized decrease of beta-catenin contributes to the differentiation of human embryonic stem cells

Human embryonic stem cells (hESC) are pluripotent, and can be directed to differentiate into different cell types for therapeutic applications. To expand hESCs, it is desirable to maintain hESC growth without differentiation. As hESC colonies grow, differentiated cells are often found at the periphery of the colonies, but the underlying mechanism is not well understood. Here, we utilized micropatterning techniques to pattern circular islands or strips of matrix proteins, and examined the spatial pattern of hESC renewal and differentiation. We found that micropatterned matrix restricted hESC differentiation at colony periphery but allowed hESC growth into multiple layers in the central region, which decreased hESC proliferation and induced hESC differentiation. In undifferentiated hESCs, β-catenin primarily localized at cell-cell junctions but not in the nucleus. The amount of β-catenin in differentiating hESCs at the periphery of colonies or in multiple layers decreased significantly at cell-cell junctions. Consistently, knocking down β-catenin decreased Oct-4 expression in hESCs. These results indicate that localized decrease of β-catenin contributes to the spatial pattern of differentiation in hESC colonies.     

Pinacidil enhances survival of cryopreserved human embryonic stem cells

Human embryonic stem cells (hESCs) can be maintained as undifferentiated cells in vitro and induced to differentiate into a variety of somatic cell types. Thus, hESCs provide a source of differentiated cell types that could be used to replace diseased cells of a tissue. The efficient cryopreservation of hESCs is important for establishing effective stem cell banks, however, conventional slow freezing methods usually lead to low rates of recovery after thawing cells and their replating in culture. We have established a method for recovering cryopreserved hESCs using pinacidil and compared it to a method that employs the ROCK inhibitor Y-27632. We show that pinacidil is similar to Y-27632 in promoting survival of hESCs after cryopreservation. The cells exhibited normal hESC morphology, retained a normal karyotype, and expressed characteristic hESC markers (OCT4, SSEA3, SSEA4 and TRA-1-60). Moreover, the cells retained the capacity to differentiate into derivatives of all three embryonic germ layers as demonstrated by differentiation through embryoid body formation. Pinacidil has been used for many years as a vasodilator drug to treat hypertension and its manufacture and traceability are well defined. It is also considerably cheaper than Y-27632. Thus, the use of pinacidil offers an efficient method for recovery of cryopreserved dissociated human ES cells.     

Micropatterning of human embryonic stem cells dissects the mesoderm and endoderm lineages

Human pluripotent cells such as human embryonic stem cells (hESC) are a great potential source of cells for cell-based therapies; however, directing their differentiation into the desired cell types with high purity remains a challenge. The stem cell microenvironment plays a vital role in directing hESC fate and we have previously shown that manipulation of colony size in a serum- and cytokine-free environment controls self-renewal and differentiation toward the extraembryonic endoderm lineage. Here we show that, in the presence of bone morphogenetic protein 2 and activin A, control of colony size using a microcontact printing technology is able to direct hESC fate to either the mesoderm or the endoderm lineage. Large, 1200-μm-diameter colonies give rise to mesoderm, while small 200-μm colonies give rise to definitive endoderm. This study links, for the first time, cellular organization to pluripotent cell differentiation along the mesoderm and endoderm lineages.     

Surface-based cryopreservation strategies for human embryonic stem cells: A comparative study

Human embryonic stem cells (hESC) hold tremendous potential in the emerging fields of gene and cell therapy as well as in basic scientific research. One of the major challenges regarding their application is the development of efficient cryopreservation protocols for hESC since current methods present poor recovery rates and/or technical difficulties which impair the development of effective processes that can handle bulk quantities of pluripotent cells. The main focus of this work was to compare different strategies for the cryopreservation of adherent hESC colonies. Slow‐rate freezing protocols using intact hESC colonies was evaluated and compared with a surface‐based vitrification approach. Entrapment within ultra‐high viscous alginate was investigated as the main strategy to avoid the commonly observed loss of viability and colony fragmentation during slow‐rate freezing. Our results indicate that entrapment beneath a layer of ultra‐high viscous alginate does not provide further protection to hESC cryopreserved through slow‐rate freezing, irrespectively of the cryomedium used. Vitrification of adherent hESC colonies on culture dishes yielded significantly higher recovery rates when compared to the slow‐rate freezing approaches investigated. The pluripotency of hESC was not changed after a vitrification/thawing cycle and during further propagation in culture. In conclusion, from the cryopreservation methods investigated in this study, surface‐based vitrification of hESC has proven to be the most efficient for the cryopreservation of intact hESC colonies, reducing the time required to amplify frozen stocks thus supporting the widespread use of these cells in research and clinical applications. © 2012 American Institute of Chemical Engineers Biotechnol. Prog., 28: 1079–1087, 2012     

一种新的人胚胎干细胞无饲养层培养方法的建立

目的:以转染碱性成纤维细胞生长因子(bFGF)的人胎肝基质细胞株(FLSC)培养人胚胎干细胞(hESC),寻找更加安全、有效的体外培养扩增方法。方法:通过ELISA方法定量检测转基因的人FLSC条件培养基中bFGF的分泌量;以商业化的mTeSR1无血清无饲养层培养基、常规小鼠胚胎成纤维细胞(MEF)条件培养基,以及转染bFGF的人FLSC条件培养基(bFGF/FLSC-CM)分别培养扩增H9细胞。通过观察hESC形态、免疫荧光染色、流式细胞检测及RT-PCR,检测hESC全能性标志物的表达。结果:ELISA方法检测bFGF/FLSC-CM中bFGF因子的分泌量为(770.09±17.28)pg/mL,而MEF-CM中bFGF因子的分泌量为(55.59±0.61)pg/mL,两者存在显著差异(P0.01);在3种培养体系下,免疫荧光检测hESC全能性标志Oct-4、Tra-1-81抗体的表达均呈阳性,流式检测细胞表面阶段特异性胚胎抗原4(SSEA-4)抗体阳性细胞的比例均在99%左右;RT-PCR检测到hESC特异的转录因子Oct-4、Nanog、Sox-2的表达。结论:以转染bFGF的人FLSC条件培养基可以有效扩增hESC,可为临床应用提供一种安全、高效、低成本的无饲养层培养方法。     

High-efficiency siRNA-based gene knockdown in human embryonic stem cells

Loss-of-function studies in human embryonic stem cells (hESCs) and induced pluripotent stem cells (iPSCs) via nonviral approaches have been largely unsuccessful. Here we report a simple and cost-effective method for high-efficiency delivery of plasmids and siRNAs into hESCs and iPSCs. Using this method for siRNA delivery, we achieve >90% reduction in the expression of the stem cell factors Oct4 and Lin28, and observe cell morphological and staining pattern changes, characteristics of hESC differentiation, as a result of Oct4 knockdown.     

无血清无饲养层条件下培养小鼠胚胎干细胞

目的研究在无血清无饲养层条件下小鼠胚胎干细胞的培养方法,为最终建立无血清无饲养层培养系统打下基础。方法比较小鼠胚胎干细胞ES-S8株在无血清培养体系和有血清培养体系中的生长情况,分析ES-S8细胞克隆形成效率,测定其生长速度;然后在撤去血清和饲养层的条件下培养ES-S8细胞,进行AKP染色和表面标记物SSEA-1免疫荧光检测。结果ES-S8细胞在无血清培养条件下细胞生长速度减缓,克隆形成率降低,但AKP染色、SSEA-1免疫荧光均显阳性;在无血清无饲养层条件下ES-S8细胞培养仍能形成克隆,且AKP染色、SSEA-1免疫荧光均显阳性。结论研究表明ES-S8细胞能够在无血清无饲养层的培养条件下生长,保持其良好的未分化特性。