c-Myc对诱导性多能干细胞的诱导效率及全能性影响的研究

该研究探讨转录因子c—Myc对多能诱导干细胞（inducedpluripotentstemcells,iPS）诱导效率及形成的iPS克隆全能性的影响。将Yam,dnaka四因子（Oct4、Sox2、Klf4和C—Myc,OSKM）和不舍C。Myc的三因子（OSK）病毒分别感染OG2小鼠成纤维细胞（mouseembryofibroblast,MEF）,诱导成为iPSN胞,通过计数iPS克隆形成数目和流式细胞仪分析iPS克隆的绿色荧光蛋白（GFP）阳性比例。比较OSKM和OSK诱导iPS的效率。分别挑取三株OSK和OSKM诱导的iPS克隆,采用荧光定量PCR法、碱性磷酸酶fAP）染色法和免疫荧光法检测iPS克隆的干性相关蛋白的表达;采用畸胎瘤实验、嵌合体形成实验和四倍体补偿实验检测iPS克隆的全能性。结果显示：在该实验室诱导体系里,OSK病毒感染MEF后形成的iPS克隆数目明显增多,GFP阳性克隆的比例增加。OSK和OSKM诱导iPS克隆的干细胞基本特征,包括形态、AP染色、干细胞特异性基因表达、三胚层形成均没有明显差异。然而,OSK诱导iPS克隆在形成嵌合体小鼠的全能性评估实验中的阳性比例高于OSKM克隆,且只有OSK克隆株能够获得生殖系传递小鼠和四倍体补偿小鼠。该研究表明,在实验诱导体系里去除C—Myc的三因子OSK诱导iPS的效率显著高于OSKM四因子,且三因子诱导iPS克隆具有更好的全能性。     

Efficient iPS cell production with the MyoD transactivation domain in serum-free culture

A major difficulty of producing induced pluripotent stem cells (iPSCs) has been the low efficiency of reprogramming differentiated cells into pluripotent cells. We previously showed that 5% of mouse embryonic fibroblasts (MEFs) were reprogrammed into iPSCs when they were transduced with a fusion gene composed of Oct4 and the transactivation domain of MyoD (called M(3)O), along with Sox2, Klf4 and c-Myc (SKM). In addition, M(3)O facilitated chromatin remodeling of pluripotency genes in the majority of transduced MEFs, including cells that did not become iPSCs. These observations suggested the possibility that more than 5% of cells had acquired the ability to become iPSCs given more favorable culture conditions. Here, we raised the efficiency of making mouse iPSCs with M(3)O-SKM to 26% by culturing transduced cells at low density in serum-free culture medium. In contrast, the efficiency increased from 0.1% to only 2% with the combination of wild-type Oct4 and SKM (OSKM) under the same culture condition. For human iPSCs, M(3)O-SKM achieved 7% efficiency under a similar serum-free culture condition, in comparison to 1% efficiency with OSKM. This study highlights the power of combining the transactivation domain of MyoD with a favorable culture environment.     

Ectopic expression of reprogramming factors enhances the development of cloned porcine embryos

Inefficient cloning by somatic cell nuclear transfer (SCNT) is largely attributed to defects in epigenetic reprogramming. Reprogramming factors (RFs) (Oct4, Sox2, Klf4, c-Myc, Lin28 and Nanog; OSKMLN) can achieve epigenetic reprogramming, suggesting that these might facilitate reprogramming of oocytes. Here, porcine mesenchymal stem cells (pMSCs) treated with exogenous OSKMLN or OSKM were selected as nuclei donors for SCNT. The resulting embryos displayed significantly better development than controls in terms of cleavage rates and blastomere numbers. OSKM treatment improved pluripotency status and regulation of epigenetic factors in modified pMSCs. These changed gene patterns promoted H3K9Ac both in modified pMSCs and their SCNT-derived embryos. Thus, higher histone acetylation levels in donor cells might favor subsequent clone development. Application of exogenous RFs in SCNT offers a novel way for improving cloning efficiency.