The role of plasmid constructs containing the SV40 DNA nuclear-targeting sequence in cationic lipid-mediated DNA delivery

One of the steps that limit transfection efficiency in non-viral gene delivery is inefficient nuclear import of plasmid DNA, once it has been delivered into the cytoplasm. Recently, via microinjection into the cytoplasm and in situ hybridizations into a few cell types, it was shown that a region of Simian virus 40(SV40), specifically a c. 372-bp fragment of SV40 genomic DNA encompassing the SV40 promoter-enhancer-origin of replication (SV40 DTS), could enable the nuclear import of a plasmid carrying these sequences (Dean D.A. Exp. Cell Res. 230 (1997) 293). In this report, we address the issue of the suitability of the SV40 DTS for cationic lipid-mediated gene delivery, and its capacity to improve the efficiency of the transfection process. For this study, we used transient reporter gene expression assays on various cell types. The gene expression from the plasmid constructs carrying the SV40 DTS varied with cell type and plasmid construct used. Such cell-type and plasmid-construct dependency on gene expression from plasmids containing the SV40 DTS suggests that the gene expression from plasmids is not entirely dependent on its ability to enhance the nuclear import of said plasmids.     

带有穿膜结构域的转录因子蛋白Oct4和Sox2的融合表达

目的:克隆、表达及纯化带有穿膜结构域的转录因子蛋白Oct4和Sox2。方法:根据GenBank中的Oct4和Sox2基因序列,在其3’端引入穿膜结构域11R,并在其两端引入NdeⅠ和XhoⅠ酶切位点,进行全基因合成;将目的基因克隆至pET41a载体,进行酶切鉴定及测序;将所获阳性重组质粒转化感受态大肠杆菌BL21(DE3),经IPTG诱导表达后,对表达产物进行Western印迹鉴定;最后用Ni-NTA亲和层析柱对所获目的蛋白进行纯化。结果:质粒酶切鉴定结果表明带有目的基因的重组质粒构建成功;SDS-PAGE结果显示有相对分子质量约42×103和38×103的特异性蛋白表达条带,经Western印迹证实为目的蛋白;用Ni-NTA亲和层析柱纯化后,得到均一的Oct4和Sox2目的蛋白。结论:得到带有穿膜结构域的转录因子融合蛋白Oct4和Sox2,为今后安全开展诱导性多能干细胞研究奠定了基础。     

Emerging roles of microRNAs in the control of embryonic stem cells and the generation of induced pluripotent stem cells

MicroRNAs (miRNAs) have emerged as critical regulators of gene expression. These small, non-coding RNAs are believed to regulate more than a third of all protein coding genes, and they have been implicated in the control of virtually all biological processes, including the biology of stem cells. The essential roles of miRNAs in the control of pluripotent stem cells were clearly established by the finding that embryonic stem (ES) cells lacking proteins required for miRNA biogenesis exhibit defects in proliferation and differentiation. Subsequently, the function of numerous miRNAs has been shown to control the fate of ES cells and to directly influence critical gene regulatory networks controlled by pluripotency factors Sox2, Oct4, and Nanog. Moreover, a growing list of tissue-specific miRNAs, which are silenced or not processed fully in ES cells, has been found to promote differentiation upon their expression and proper processing. The importance of miRNAs for ES cells is further indicated by the exciting discovery that specific miRNA mimics or miRNA inhibitors promote the reprogramming of somatic cells into induced pluripotent stem (iPS) cells. Although some progress has been made during the past two years in our understanding of the contribution of specific miRNAs during reprogramming, further progress is needed since it is highly likely that miRNAs play even wider roles in the generation of iPS cells than currently appreciated. This review examines recent developments related to the roles of miRNAs in the biology of pluripotent stem cells. In addition, we posit that more than a dozen additional miRNAs are excellent candidates for influencing the generation of iPS cells as well as for providing new insights into the process of reprogramming.     

调控胚胎干细胞自我更新的关键转录因子研究进展

胚胎干细胞（embryonic stem cells,ES细胞）具有自我更新和发育多能性的特点,在再生医学研究中有着广泛的应用前景。ES细胞多能性和自我更新的维持受到复杂的调控,涉及到转录调控、信号转导以及表观遗传调控等多个方面。转录因子Oct4、Sox2、Nanog在其中扮演着非常重要的角色,对干细胞特性的维持必不可少。本文着重讨论了这些关键转录因子的研究进展。这些研究促进了对ES细胞自我更新机制的深入理解,并为进一步的临床研究提供了理论基础。