Over-expression of Oct4 in human esophageal squamous cell carcinoma

The Octamer 4 gene (Oct4) is a master pluripotency controller that has been detected in several types of tumors. Here, we examine the expression of Oct4 in human esophageal squamous cell carcinoma (ESCC). We found that punctate Oct4 protein was expressed in most (93.7%) ESCC samples but it was not observed in esophageal mucosa. Some ESCC cells had the capacity to form tumorospheres; those with an Oct4⁺-rich cell phenotype had increased proliferation and Oct4 mRNA levels compared to those of differentiated cells in culture or xenograft tumors. The over-expression of Oct4 in ESCCs suggests that it is a potential target for ESCC therapy. Oct4 could be a useful tumor marker in an immunohistochemical panel designed to differentiate between ESCC and esophageal mucosa. Expression of Oct4 in tumorospheres might indicate the presence of a population of ECSCs and its expression in xenograft tumors suggests that Oct4 is also associated with tumor metastasis.     

Evolutionary and Functional Analysis of the Key Pluripotency Factor Oct4 and Its Family Proteins

Oct4 is one of the key pluripotent factors essential for embryonic stem cells and induced pluripotent stem (iPS) cells.Oct4 belongs to the POU domain family,which contains multiples genes with various ...     

Self-renewal and differentiation of mouse embryonic stem cells as measured by Oct4 expression: the role of the cAMP/PKA pathway

In this study we examined the role of the cAMP/protein kinase A (PKA) pathway in affecting IOUD2 ES cell self-renewal and differentiation, Oct4 expression, and cell proliferation. Forskolin, the adenylate cyclase agonist, alone had no effect on ES cell self-renewal. However, when cells were treated with the differentiation-inducing agent retinoic acid, forskolin significantly promoted ES cell self-renewal. Effectively, forskolin rescued cells from a pathway of differentiation. Culturing ES cells in the presence of the phosphodiesterase inhibitor IBMX had no effect on ES cell self-renewal but did increase cell proliferation. In the presence of 100 μM IBMX without LIF, 10 μM forskolin significantly increased ES cell self-renewal. The cell permeable cAMP analog 8-Br-cAMP (1 and 5 mM) promoted ES cell differentiation in the presence of LIF, while in the absence of LIF, it promoted ES cell self-renewal. The effect of the PKA specific inhibitors H89 and KT5720 on Oct4 expression was, again, LIF-dependent. In the presence of LIF, these inhibitors decreased Oct4 expression, while they increased Oct4 expression in the absence of LIF. In general, ES cells maintained on a self-renewal pathway through the presence of LIF show little effect from altered cAMP signaling except at higher levels. However, in strict contrast, when ES cell are on a differentiation pathway through exposure to retinoic acid or the removal of LIF, altering cAMP levels can rescue the self-renewal process promoting Oct4 expression. This study clearly shows that the cAMP/PKA pathway plays a role in ES cell self-renewal pathways. This work was partly funded by the Millennium Research Fund National University of Ireland Galway.     

Self-renewal and differentiation of mouse embryonic stem cells as measured by Oct4 gene expression: Effects of lif,serum-free medium,retinoic acid,and dbcAMP

Summary In this study we examined the interplay between serum, leukemia inhibitory factor (LIF), retinoic acid, and dibutyrl cyclic adenosine monophosphate (dbcAMP) in affecting IOUD2 embryonic stem cell self-renewal and differentiation as assessed by Oct4 expression, and cell proliferation as measured by total cell protein. Removal of LIF, reduced levels of fetal calf serum (FCS), and addition of retinoic acid all induced embryonic stem cell differentiation as measured by reduced Oct4 expression. Lower levels of retinoic acid (0.1–10 nM) promoted the formation of epithelial-like cells, whereas higher levels (100–10,000 nM) favored differentiation into fibroblastic-like cells. The effects of dbcAMP varied with the presence or absence of FCS and LIF and the concentration of dbcAMP. In FCS-containing media, a low level of dbcAMP (100 μM) increased self-renewal in the absence of LIF, but it had no effect in its presence. In contrast, at higher concentrations (1000 μM dbcAMP), regardless of LIF, differentiation was promoted. A similar effect of dbcAMP was seen in the presence of retinoic acid. In media without FCS but with serum replacement supplements, there was no effect of dbcAMP. This study shows that the Oct4 expression system of IOUD2 cells provides a novel, simple method for quantifying cellular differentiation.     

Survival and death of epiblast cells during embryonic stem cell derivation revealed by long-term live-cell imaging with an Oct4 reporter system

Despite the broad literature on embryonic stem cells (ESCs), their derivation process remains enigmatic. This may be because of the lack of experimental systems that can monitor this prolonged cellular process. Here we applied a live-cell imaging technique to monitor the process of ESC derivation over 10 days from morula to outgrowth phase using an Oct4/eGFP reporter system. Our imaging reflects the ‘natural’ state of ESC derivation, as the ESCs established after the imaging were both competent in chimeric mice formation and germ-line transmission. Using this technique, ESC derivation in conventional conditions was imaged. After the blastocoel was formed, the intensity of Oct4 signals attenuated in the trophoblast cells but was maintained in the inner cell mass (ICM). Thereafter, the Oct4-positive cells scattered and their number decreased along with apoptosis of the other Oct4-nagative cells likely corresponds to trophoblast and hypoblast cells, and then only the surviving Oct4-positive cells proliferated and formed the colony. All embryos without exception passed through this cell death phase. Importantly, the addition of caspase inhibitor Z-VAD-FMK to the medium dramatically suppressed the loss of Oct4-positive cells and also other embryo-derived cells, suggesting that the cell deaths was induced by a caspase-dependent apoptotic pathway. Next we imaged the ESC derivation in 3i medium, which consists of chemical compounds that can suppress differentiation. The most significant difference between the conventional and 3i methods was that there was no obvious cell death in 3i, so that the colony formation was rapid and all of the Oct4-positive cells contributed to the formation of the outgrown colony. These data indicate that the prevention of cell death in epiblast cells is one of the important events for the successful establishment of ESCs. Thus, our imaging technique can advance the understanding of the time-dependent cellular changes during ESC derivation.     

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。     

核移植与诱导多能干细胞技术在体细胞重编程研究中的应用

体细胞重编程是指分化的体细胞在特定的条件下被逆转后恢复到多能性或全能性状态,或者形成多能干细胞系,或者形成早期胚胎然后发育成一个新的个体的过程。诱导体细胞重编程的方法有许多,如核移植（nuclear transfer,NT）、细胞融合、细胞培养和通过导入特定因子获得诱导多能干（induced pluripotent stem,iPS）细胞的方法等。其中核移植和iPS技术是到目前为止诱导体细胞为多能干细胞最为完全、最具有运用于临床再生医学潜能的方法。然而,它们的效率都很低,机制也不清楚,如何将两个方法结合在一起,提高重编程的效率,揭示重编程的机制,进而促进其在患者特异性治疗中的运用将是下阶段的努力方向。