维甲酸受体β基因RNAi表达质粒的构建及其对A549细胞增殖和分化的影响

目的：利用RNA干扰（RNAi）技术,构建针对维甲酸受体（RAR）β基因的小干扰RNA（siRNA）表达质粒,诱导RARβ基因沉默,并观察其对肺癌细胞A549株的细胞周期和增殖的影响。方法：依据设计siRNA的原则。针对人RARβ的mRNA序列,设计并合成编码siRNA的2条寡核苷酸序列,经退火成互补双链,再克隆到pSUPER-NEO-GFP真核表达载体中构建重组体pSUPER-RAR[β转染至A549细胞中,以空质粒和RARβ高表达质粒转染为对照,用Western印迹检测RARβ基因的表达,并采用M1Tr试验检测转染后细胞株的增殖和细胞分化情况。结果：表达人类RARβ基因的siRNA重组表达质粒构建成功;MTT试验结果表明,转染的A549-RARβ-si细胞增殖能力降低。结论：采用RNAi技术特异阻断RARB基因表达,通过转染A549细胞,可使其细胞形态发生变化,并抑制其细胞生长。     

利用RNA干扰抑制细丝蛋白A基因的表达

目的：构建细丝蛋白A（FLNa）基因的小干扰RNA（siRNA）表达载体,并观察其对FLNa基因表达的抑制作用。方法：利用RNA干扰（RNAi）技术设计并合成1条针对FLNa的siRNA,将其克隆到siRNA表达载体pSilencer4．1-CMV-hygro中;将重组质粒pSilencer-FLNa、pSilencer-negative（阴性对照）转染293T人胚肾细胞,通过Western印迹检测FLNa的表达;通过潮霉素筛选建立干扰FLNa表达的前列腺癌细胞。结果：PCR鉴定证明构建了FLNa基因RNAi载体;Western印迹表明构建的FLNa基因干扰载体能够有效地抑制FLNa基因的表达;建立了稳定干扰FLNa表达的前列腺癌C4-2细胞。结论：构建了FLNa基因RNAi载体,该载体能够有效地抑制FLNa基因的表达。     

小分子G蛋白Rap1 shRNA表达载体的构建和鉴定

应用RNA干扰（RNA interference,RNAi）技术抑制Rap1基因的表达,构建RaplshRNA（small hairpin RNA．shRNA）表达载体,观察其对小鼠肝脏细胞中RaplmRNA和蛋白表达的干扰作用．根据小鼠RaplmRNA的全序列．设计了3种Rap1 siRNA序列（Rap1 siRNA1、Rap1 siRNA2、Rap1 siRNA3）和阴性对照序列（HK）;采用克隆技术,将其插入带有报告基因绿色荧光（EGFP）的pGenesi1－3载体,构建RaplshRNA表达载体：经双酶切和测序证实Rap1 siRNA表达载体克隆构建成功,插入片段测序结果与合成的siRNA结果一致：昆明小鼠40只,体重18～20g,随机分成4组：I组（转染HK组）、Ⅱ组（转染RaplshRNAl组）、Ⅲ组（转染RaplshRNA2组）、Ⅳ组（转染Rap1 shRNA3组）．于0、16、24h腹腔内注射Rap1 shRNA2．0－2．5mg／kg（用PBS稀释至1mL）：48h后收集小鼠肝脏．用显微荧光、定量RT—PCT、免疫组化检测小鼠肝细胞中Rap1 shRNA的转染率、Rap1基因表达以及蛋白质表达水平．I组、Ⅱ组、Ⅲ组、Ⅳ组小鼠肝脏细胞体内转染率均大于60％．Ⅱ组、m组、Ⅳ组的RaMmRNA表达、Rap1蛋白表达均降低．其中Rao1 shRNA1干扰效果最佳．     

利用RNA干扰抑制人肝癌细胞中核因子-κB p65基因的表达

目的：用小干扰RNA（siRNA）抑制核因子-κB（NF-κB）p65基因在人肝细胞癌细胞中的表达。方法：从p65的cDNA序列中挑选3个RNA干扰靶位点,用体外转录法制备siRNA,以萤光素酶基因的siRNA为对照,分别转染Hep3B和SMMC-7721细胞,用逆转录半定量PCR和免疫印迹检测siRNA对p65基因表达的抑制效率。结果：3条siRNA对p65基因的表达都有抑制作用,其中2条siRNA的抑制作用更为显著,最高抑制效率约为70%。结论：制备的p65-siRNA可用于研究NF-κB在肝细胞癌发生发展中的作用。     

家蚕吡哆醛激酶基因干扰降低转氨酶基因的转录表达

【目的】维生素B₆在氨基酸代谢中是多种酶的辅酶,维持氨基酸代谢的正常运行。磷酸吡哆醛（pyridoxal-5′-phosphate, PLP）是维生素B₆的主要辅酶形式,吡哆醛激酶（pyridoxal kinase, PLK）是PLP的重要生成酶,本研究试图明确PLK基因与PLP依赖酶之间转录水平的调节关系。【方法】本研究采用RNA干扰（RNA interference, RNAi）方法对家蚕 Bombyx mori 的PLK基因进行干扰,通过体外合成PLK基因的3个干扰片段（siRNA1, siRNA2和siRNA3）,将siRNA从体腔注入5龄第3天的家蚕幼虫体内诱导RNAi。利用荧光定量PCR测定不同干扰片段、不同时间点及不同组织中PLK基因表达量的变化;并测定家蚕体内磷酸丝氨酸转氨酶（phosphoserine aminotransferase, SerB）和天门冬氨酸氨基转移酶（asparate aminotransferase, AST）基因的表达量。【结果】注射干扰片段后48 h干扰效果达到最佳。3个干扰片段干扰效果从高到低依次为siRNA1, siRNA2和siRNA3。RNAi效果最好的是中肠组织,其PLK基因的相对表达量下降了55%。RNA干扰PLK基因后,后部丝腺中SerB和AST基因相对表达量分别下降了90%和29%。【结论】本研究通过RNAi实现了家蚕PLK基因干扰,并进一步证明了家蚕PLK基因和SerB基因及AST基因存在联动调节关系。     

RNAi在药物研究中的应用

RNA干扰是双链RNA分子在mRNA水平上诱发的序列特异性的转录后基因表达沉默。在哺乳动物细胞里,RNAi可以由21-25个核苷酸长度的小干扰RNA（siRNA）触发,在后基因组时代的基因功能研究和药物开发中具有广阔的应用前景。现针对近年RNAi在药物研究中的应用包括应用RNAi发现新药靶、辅助确认药靶、RNAi药物、RNAi与耐药性等方面作一综述。     

RNA干扰沉默低氧诱导因子-1α对低氧下大鼠肺动脉平滑肌细胞增殖的影响

本研究应用基因克隆技术,将合成的发卡样特异性低氧诱导因子-1α（hypoxia inducible factor-1alpha,HIF-1α）干扰寡核苷酸（siRNA）序列插入真核表达载体中,构建出特异性HIF-1α基因RNA干扰（RNAi）真核表达载体。采用组织块种植法,原代培养大鼠肺动脉平滑肌细胞（pulmonary artery smooth muscle cells,PASMCs）,将构建出的特异性HIF-1αRNAi真核表达载体转染到PASMCs;分别在常氧和低氧下进行细胞培养,采用RT-PCR检测PASMCsHIF-1αmRNA表达水平,用MTT和流式细胞仪检测细胞增殖水平,探讨低氧条件下HIF-1αRNAi真核表达载体对PASMCs增殖的影响。结果表明,低氧培养48h后,正常PASMCs和转染了HIF-1αsiRNA阴性表达载体的细胞增殖显著,HIF-1αmRNA表达水平也显著升高;而转染了HIF-1αsiRNA阳性表达质粒的细胞增殖不显著,HIF-1αmRNA表达水平较低。结果提示：HIF-1αRNAi真核表达载体能显著干扰培养的PASMCsHIF-1αmRNA表达,同时抑制低氧环境下PASMCs的增殖。     

Nogo—p4与NgR结合抑制神经干细胞分化为双极形星形胶质细胞的突起生长

目的观察Nogo—p4是否通过与NgR结合的途径对大鼠脊髓来源神经干细胞分化形成双极形星形胶质细胞突起长度产生抑制。方法取4只出生24h内的Wistar大鼠,悬浮培养法培养大鼠脊髓来源的神经干细胞。把神经干细胞分为A、B、C、D四组,A组加入血清,B组加入血清和Nogo—p4,C组神经干细胞经RNA干扰沉默NgR基因后加入血清分化,D组神经干细胞经RNA干扰沉默NgR基因后加入血清和Nogo—p4。分化第7d,GFAP抗体标记星形胶质细胞,使用Image—ProPlus5．0软件测量双极形星形胶质细胞突起长度。结果神经干细胞分化第7d,四组均可形成双极形星形胶质细胞。B组中双极形星形胶质细胞的突起长度明显短于其它各组。A、C、D组中双极形星形胶质细胞的突起长度没有显著差异。结论Nogo—p4经与NgR结合途径显著抑制脊髓来源神经干细胞分化成的双极形星形胶质细胞的突起生长。     

RNA干扰与抗病毒感染

RNA干扰(RNAi)是由小干扰RNA(siRNA)引发的生物细胞内同源基因的转录后基因沉默(PTGS)现象,是一种古老的生物抵抗外在感染的防御机制。RNAi因其在维持基因组稳定、调控基因表达和保护基因组免受外源核酸侵入等方面发挥的重要作用,已被广泛用于探索基因功能、基因治疗和新药的研发。外源导入siRNA引发的RNAi可以特异性抑制病毒的复制与感染,为抗病毒感染治疗开辟了一条新的途径。     

Expression of Nogo-66 receptor in human astrocytoma is correlated with tumor malignancy

Nogo-A is a myelin-associated neuronal growth inhibitory molecule in central nervous system after trauma. However, the physiological functions of Nogo-A in neural development and in healthy oligodendrocytes are largely unknown. In this study, we investigated the expression of Nogo-66 receptor (NgR) protein in 60 cases of human astrocytoma by Western blot RT-PCR and immunohistochemistry. The correlation between the expression of NgR and pathologic grades of astrocyoma was further analyzed. The results showed that the expression of NgR protein and NgR mRNA immunoreactivity score, were decreased markedly with the increasing pathological grades. Double immunostaining results showed that Nogo-A and NgR were colocalized at the interface of astrocytoma cells and extracellular matrix. Our results indicated that NgR may have inhibitory effects on tumor activity and Nogo-A may restrict migration of tumor cells via NgR.     

Inhibition of neuronal nitric oxide synthase activity promotes migration of human‐induced pluripotent stem cell‐derived neural stem cells toward cancer cells

The breakthrough in derivation of human‐induced pluripotent stem cells (hiPSCs) provides an approach that may help overcome ethical and allergenic challenges posed in numerous medical applications involving human cells, including neural stem/progenitor cells (NSCs). Considering the great potential of NSCs in targeted cancer gene therapy, we investigated in this study the tumor tropism of hiPSC‐derived NSCs and attempted to enhance the tropism by manipulation of biological activities of proteins that are involved in regulating the migration of NSCs toward cancer cells. We first demonstrated that hiPSC‐NSCs displayed tropism for both glioblastoma cells and breast cancer cells in vitro and in vivo. We then compared gene expression profiles between migratory and non‐migratory hiPSC‐NSCs toward these cancer cells and observed that the gene encoding neuronal nitric oxide synthase (nNOS) was down‐regulated in migratory hiPSC‐NSCs. Using nNOS inhibitors and nNOS siRNAs, we demonstrated that this protein is a relevant regulator in controlling migration of hiPSC‐NSCs toward cancer cells, and that inhibition of its activity or down‐regulation of its expression can sensitize poorly migratory NSCs and be used to improve their tumor tropism. These findings suggest a novel application of nNOS inhibitors in neural stem cell‐mediated cancer therapy.     

人胚与鼠胚神经干细胞体外培养的差异

为比较人胚与鼠胚神经干细胞体外培养的差异。实验采用具有丝裂原作用的细胞生长因子。结合无血清细胞培养技术从人胚和鼠胚皮层分离神经干细胞。在连续传代过程中观察其体外培养特性,免疫荧光染色检测Nestin抗原和分化后特异性成熟神经细胞抗原的表达,并用流式细胞仪检测神经干细胞分化情况。结果表明：（1）使用单一生长因子即可从鼠胚皮层分离神经干细胞,但在人胚却需同时使用多种生长因子,协同使用bFGF,EGF和LIF是人胚神经干细胞体外培养的较佳条件;（2）鼠胚皮层神经干细胞在连续传代过程中增殖速度快于人胚,其Nestin阳性率和BrdU标记的阳性率亦高于人胚,表明其增殖能力明显高于人胚,（3）人胚神经干细胞较鼠胚更易分化为神经元。     

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。     

Control of glioma cell death and differentiation by PKM2–Oct4 interaction

Glioma stem cells are highly resistant to cell death and as such are supposed to contribute to tumor recurrence by eluding anticancer treatments. Here, we show that spheroids that contain rat neural stem cells (NSCs) or rat glioma stem cells (cancer stem cells, CSCs) express isoforms 1 and 2 of pyruvate kinase (PKM1 and PKM2); however, the expression of PKM2 is considerably higher in glioma spheroids. Silencing of PKM2 enhances both apoptosis and differentiation of rat and human glioma spheroids. We establish that PKM2 was implicated in glioma spheroid differentiation through its interaction with Oct4, a major regulator of self-renewal and differentiation in stem cells. The small molecule Dichloroacetate (DCA), a pyruvate dehydrogenase kinase inhibitor, increases the amount of PKM2/Oct4 complexes and thus inhibited Oct4-dependent gene expression. Taken together, our results highlight a new molecular pathway through which PKM2 can manage gliomagenesis via the control of glioma stemness by Oct4.     

Quantitative analysis of gene expression in living adult neural stem cells by gene trapping

The potential of neural stem cells (NSCs) for the treatment of neurodegenerative diseases makes the identification and characterization of genes involved in neural stem cell responses therapeutically important. Although technologies exist for measuring gene expression in cells, they often provide only a representative expression profile specific to a stimulus and time. We developed a complementary technology based on a retroviral-vector gene-trap approach that uses beta-lactamase-induced disruption of fluorescence resonance energy transfer in the fluorophore CCF-2/AM. A library of 'tagged' adult rat NSCs was generated by transduction with gene-trap virus produced from a single-integrant packaging cell line that allowed us to quantitatively analyze dynamic gene expression changes in real time in living NSCs. Using this library we identified previously unknown genes regulated by oxidative stress, indomethacin and factors that induce differentiation, and show that one of the trapped genes, Sox6, is sufficient to induce astrocytic differentiation when overexpressed.     

Role of phospholipase D1 in neurite outgrowth of neural stem cells

Employing neural stem cells from the brain cortex of E12 rat embryos, we investigated the possible role of phospholipase D (PLD) in the synaptogenesis and neurite formation of neural cells during differentiation. Expression level of PLD1 increased during neuronal differentiation of the neural stem cells, resulting in increased PLD activity. Expression level of synapsin I, a marker of synaptogenesis, also increased as the differentiation of neural stem cells progressed. To figure out the effect of PLD on synapsin I expression, we treated the neural stem cells with phorbol myristate acetate (PMA) to stimulate PLD activity. Increased PLD activity induced by PMA treatment resulted in elevated synapsin I expression and neurite outgrowth during neuronal differentiation. To further confirm the role of PLD in neurite outgrowth, we transfected the dominant-negative form of rat PLD1 cDNA (DN-rPLD1) into neural stem cells to downregulate PLD activity. Overexpression of DN-rPLD1 showed the complete inhibition of neurite outgrowth of neural stem cells under differentiation condition. While transfection of DN-rPLD1 did not affect the synapsin I expression, overexpression of rPLD1 resulted in increased synapsin I expression of the neural cells. These results suggest that PLD1 plays a critical role in neurite outgrowth during differentiation of the neural stem cells. In conclusion, this is the first evidence to show that PLD1 acts as an important regulator of neurite outgrowth in neural stem cell by promoting neuronal differentiation via increase of synapsin I expression.     

大脑皮层神经干细胞定向分化为神经元过程中钙调蛋白的表达

目的研究大脑皮层神经干细胞定向分化为神经元过程中钙调蛋白的表达及意义.方法采用细胞培养、免疫细胞化学方法(SABC法)观察钙调蛋白在神经干细胞定向分化过程中不同时段的表达情况.采用计算机图像分析技术对不同时段分化神经元中钙调蛋白的平均积分光密度进行定量测定.结果在神经干细胞定向分化为神经元的过程中,钙调蛋白于细胞核及核周呈阳性表达,随分化神经元的生长细胞核阳性表达逐渐减弱而胞浆增强,同时可见阳性反应物伸入树突及轴突.结论新生大鼠大脑皮层神经干细胞定向分化为神经元过程中,钙调蛋白的表达对神经干细胞定向分化的神经元的生长和发育起着重要作用.