Expression of fibroblast growth factor by F9 teratocarcinoma cells as a function of differentiation

F9 teratocarcinoma stem cells treated with retinoic acid (RA) and dibutyryl cAMP (but2 cAMP) differentiate into embryonic parietal endoderm. Using heparin-affinity chromatography, endothelial cell proliferation assays, immunoprecipitation, and Western analysis with antibodies specific for acidic and basic fibroblast growth factors (FGFs), we detected biologically active FGF in F9 cells only after differentiation. A bovine basic FGF cDNA probe hybridized to 2.2-kb mRNAs in both F9 stem and parietal endoderm cells and to a 3.8-kb mRNA in F9 stem cells. A genomic DNA probe for acidic FGF hybridized to a 5.8-6.0-kb mRNA in both F9 stem and parietal endoderm cells, and to a 6.0-6.3-kb mRNA only in parietal endoderm cells. Although these FGF mRNAs were present in the stem cells, we could find no evidence that F9 stem cells synthesized FGFs, whereas differentiated F9 cells synthesized both acidic and basic FGF-like proteins. We conclude that biologically active factors with properties characteristic of acidic and basic FGF are expressed by F9 parietal endoderm cells after differentiation. Differentiating embryonic parietal endoderm thus may serve as a source of FGF molecules in the developing blastocyst, where these factors appear to play a central role in subsequent embryogenesis.     

Induction of the expression of retinol-binding protein and transthyretin in F9 embryonal carcinoma cells differentiated to embryoid bodies

Studies were conducted to determine if the expression of the gene for retinol-binding protein (RBP) and/or transthyretin (TTR) could be induced upon differentiation of F9 teratocarcinoma cells to either visceral endoderm or parietal endoderm. Both TTR mRNA and RBP mRNA were undetectable in the undifferentiated F9 stem cells and in F9 cells differentiated to parietal endoderm. However, TTR mRNA and RBP mRNA were both detected in F9 cell aggregates differentiated to embryoid bodies (which contain visceral endoderm-like cells) by treatment of the aggregates in suspension with retinoic acid. TTR mRNA was observed at 3 days, and RBP mRNA at 5 days, after treatment of the F9 cell aggregates with retinoic acid. Both TTR mRNA and RBP mRNA were found to be specifically localized by in situ hybridization in the outer layer of cells (the visceral endoderm-like cells) of the embryoid bodies. Finally, synthesis and secretion of both RBP and TTR by F9 cell embryoid bodies was demonstrated by specific immunoprecipitation of each newly synthesized protein from the culture medium. These data thus demonstrate the production and presence of RBP mRNA and TTR mRNA, and the synthesis and secretion of RBP and TTR, by F9 cell embryoid bodies (specifically by visceral endoderm-like cells). This finding suggests that these two proteins may be synthesized by rodent embryos extremely early in embryonic development.     

The location and expression of fibroblast growth factor (FGF) in F9 visceral and parietal embryonic cells after retinoic acid-induced differentiation

It is well-established that fibroblast growth factors (FGFs) participate in mesoderm formation and patterning in the developing embryo. To identify cells in mammalian embryos that produce and/or respond to FGFs, we utilized the F9 teratocarcinoma cell system. Undifferentiated F9 cells resemble inner cell mass (ICM) cells of the mouse blastocyst by several criteria including having a characteristic high nuclear to cytoplasmic ratio and by their expression of stage-specific embryonic antigens. F9 stem cells differ from ICM cells by their low spontaneous rate of differentiation and their differentiation potential. ICM cells are heterogeneous with a proportion of the cells maintaining totipotency. In contrast, F9 stem cells appear capable of forming only endodermal derivatives. Retinoic acid (RA) treatment of F9 stem cells is required for them to differentiate, and under different culturing conditions the F9 cells will form either extraembryonic parietal or visceral endoderm. We have previously shown that FGF is synthesized by F9 parietal endoderm, but not by F9 stem cells. Our present study demonstrates that F9 aggregate cultures that contain visceral endoderm cells produce cell-associated-heparin-binding mitogens for 3T3 and endothelial cells, factors with characteristics of FGFs. Furthermore, our studies detect endothelial cell-mitogens within the extracellular matrix (ECM) of F9 parietal endoderm cells, not detected within F9 stem cell 'matrices'. Parietal endoderm cell matrix mitogens could be removed by prior treatment of the ECM with buffers containing heparin or 2 M NaCl, and could be neutralized by basic FGF antibodies.     

含人纤溶酶原K5基因的腺病毒载体制备和功能研究

应用PCR将人纤溶酶原信号肽序列引入K5cDNA基因 ,与真核表达载体pcDNA3重组 ,形成重组质粒pcDNA3K5 ,与穿梭质粒pShuttle重组得pShuttleK5 ,经与腺病毒DNA重组 ,PCR鉴定正确 ,即为pAd K5。脂质体法将其转染 2 93细胞后 ,制备细胞裂解液 ;噬斑分析法测定病毒滴度为 5× 10 8pfu mL。将病毒以不同的感染系数 (MOI)感染人脐静脉内皮细胞株ECV30 4和人乳腺癌细胞株MDA MB 2 31,MTT法检测两者的增殖情况 :ECV30 4细胞增殖受抑制 ,而MDA MB 2 31细胞增殖未受明显影响。将感染病毒的ECV30 4细胞接种于ECMatrixTM胶 ,显示内皮细胞分化和毛细血管管腔形成受抑制。表明所构建的含人纤溶酶原K5基因的重组复制缺陷型腺病毒具有抑制ECV30 4细胞增殖、分化和管腔形成的作用而对MDA MB 2 31细胞的生长则无影响。     

Variability in E-selectin expression, mRNA levels and sE-selectin release between endothelial cell lines and primary endothelial cells

Endothelial cell lines express markers and are assumed to exhibit other endothelial cell responses. We investigated E-selectin expression from human umbilical vein endothelial cells, the spontaneously transformed ECV304 line and the hybrid line EA.hy926 by flow cytometry and immunofluorescence, mRNA and soluble E-selectin release. In cells exposed to tumour necrosis factor alpha (TNF-alpha) and interleukin-1beta (IL-1beta), median (range) percentage of E-selectin-positive HUVECs increased from 1.6(0.9-6. 2)% to 91.4(83.0-96.1)%, (P=0.001) using flow cytometry. In contrast, E-selectin expression by ECV304 and EA.hy926 cell lines was 100-fold lower. E-selectin mRNA was detectable after 2 h, maximal at 6 h in HUVECs and undetectable in EA.hy926 and ECV304 cell lines after exposure to TNF-alpha/IL-1beta. sE-selectin accumulation increased (P=0.004) in HUVECs only. Neutrophil adherence to ECV304 and EA.hy926 cells was poor compared to HUVECs (P=0.004). The cell lines ECV304 and EA.hy926 do not exhibit normal endothelium expression of E-selectin, and may not be appropriate for studies of adhesion.     

Ferulic acid inhibits endothelial cell proliferation through NO down-regulating ERK1/2 pathway

The aim of this study was to determine the antiproliferative mechanism of ferulic acid (FA) on serum induced ECV304 cell, a human umbilical vein endothelial line. The results suggest that FA significantly suppressed ECV304 cells proliferation and blocked the cell cycle in G0/G1 phase. Treatment of the cells with FA increased nitric oxide (NO) production and inactivated the extracellular signal-regulated kinase (EERK1/2), and the NO donor, sodium nitroprusside, inhibited both ECV304 cells proliferation and phosphorylation of ERK1/2. However, the NO synthase inhibitor, Nomega-nitro-L-arginine methyl ester, caused ECV304 cells proliferation. PD 98059, the inhibitor of ERK1/2, had no effect on the NO production. These results indicate that NO suppressed ECV304 cells proliferation through down-regulating ERK1/2 pathway. Moreover, the inhibition of cell cycle progression was associated with the decrement of cyclin D1 expression and phosphorylation of retinoblastoma protein (pRb) by increment of p21 level. The findings not only present the first evidence that FA is a potent inhibitor on ECV304 cells proliferation, but also reveal the potential signaling molecules involved in its action.     

Ras/MAPK pathway confers basement membrane dependence upon endoderm differentiation of embryonic carcinoma cells

The formation of extraembryonic endoderm is one of the earliest steps in the differentiation of pluripotent cells of the inner cell mass during the early stages of embryonic development. The primitive endoderm cells and the derived parietal and visceral endoderm cells gain the capacity to produce collagen IV and laminin. The deposition of these components results in the formation of basement membrane and epithelium of the endoderm, with polarized cells covering the inner surface of the blastocoels. We used retinoic acid-induced endoderm differentiation of stem cell-like F9 embryonic carcinoma cells to study the role of the Ras pathway and its regulation in the formation of the visceral endoderm. Upon endoderm differentiation of F9 cells induced by retinoic acid, c-Fos expression, the downstream target of the Ras pathway, is suppressed by uncoupling Elk-1 phosphorylation/activation to MAPK activity. However, attachment to matrix gel greatly enhances the activation of MAPK in endoderm cells but not in undifferentiated F9 cells. Enhanced MAPK activation as a result of contact with basement membrane is able to compensate for reduced Elk-1 phosphorylation and c-Fos expression. We conclude that endoderm differentiation renders the activation of the Ras pathway basement membrane dependent, contributing to the epithelial organization of the visceral endoderm.     

Cxc chemokine receptor expression on human endothelial cells.

CXC chemokines play a important role in the process of leukocyte recruitment and activation at sites of inflammation. However, recent evidence suggests that these molecules can also regulate endothelial cell functions such as migration, angiogenesis and proliferation. In this study we have investigated CXC chemokine receptor expression in both primary cultures of human umbilical vein endothelial cells (HUVEC) and the spontaneously transformed HUVEC cell line, ECV304. We found that both cell types express mRNA for chemokine receptors CXCR1, CXCR2 and CXCR4, but not CXCR3. Flow cytometric analysis revealed low levels of CXCR1 but higher levels of CXCR4 cell surface expression. HUVECs responded to SDF-1alpha with a rapid and robust calcium flux, however no calcium flux was seen with either IL-8 or Gro-alpha. HUVECs and ECV304 cells did not proliferate in response to CXC chemokines, although ECV304 cells did migrate towards SDF-1alpha and IL-8. These data demonstrate that HUVECs and the endothelial cell line, ECV304 express functional CXC chemokine receptors.     

Cardiac malformations are associated with altered expression of vascular endothelial growth factor and endothelial nitric oxide synthase genes in embryos of diabetic mice

The aim of this study was to investigate the role of nitric oxide (NO), and the expression of endothelial nitric oxide synthase (eNOS) and vascular endothelial growth factor (VEGF) genes in developing hearts at embryonic day 13.5 of embryos from diabetic mice. The protein and mRNA expression levels of eNOS and VEGF were significantly altered in the developing hearts of embryos from diabetic mice. The NO level was significantly decreased, whereas the VEGF concentration was significantly increased in the developing hearts of the embryos from diabetic mice. In vitro study showed a significant reduction in eNOS expression and cell proliferation in cardiac myoblast cells exposed to high glucose concentrations. Further, high glucose induced apoptosis in myoblast cells. Ultrastructural changes characteristics of apoptosis, including cell blebbing, aggregation of ribosomes and vacuoles in the cytoplasm were also evident in myoblast cells exposed to high glucose. It is suggested that hyperglycemia alters the expression of eNOS and VEGF genes that are involved in the regulation of cell growth and vasculogenesis, thereby contributing to the cardiac malformations seen in embryos from diabetic mice.     

膜型基质金属蛋白酶-1在不同内皮细胞株中的表达差异

为研究膜型基质金属蛋白酶-1（membrane-type matrix metalloproteinase-1, MT1-MMP）在血管生物学中的作用机制,比较了3株常用的内皮细胞株：人微血管内皮细胞株HMEC-1、人脐静脉内皮细胞株ECV304和EAhy926中MT1-MMP及与其功能相关的MMP-2,TIMP-2的表达差异.实时PCR 和流式细胞术检测HMEC-1、EAhy926和ECV304中MT1-MMP/MMP-2/TIMP-2的表达,明胶酶谱法分析各细胞株上清中MMP-2的酶活.实时PCR结果显示,3株细胞均表达MT1-MMP与TIMP-2,MT1-MMP在EAhy926中表达最高,TIMP-2在ECV304中表达最高,而仅在EAhy926中检测到MMP-2的表达.流式细胞术和酶谱的结果与PCR结果基本一致.MT1-MMP和MMP-2在典型的大血管内皮细胞株EAhy926中高表达可能与该细胞独特的来源、表型特点和功能有关.     

Transient Gene Expression by SV40 Promoter Characterizes Sequential Differentiation of Embryohal Carcinoma F9 Cells into Primitive and Visceral Endoderm

Transient expression of the chloramphenicol acetyl-transferase (CAT) gene under the control of simian virus 40 (SV40), Moloney murine leukemia virus, human T cell leukemia virus, and cytomegalovirus promoters was stimulated by the differentiation of F9 stem cells into primitive endoderm, but repressed again by further differentiation into visceral endoderm. Deletion mutants of the SV40 enhancer showed that a similar set of motifs is critical for CAT expression at all stages of F9 differentiation, but differentiation dependency was observed even in their absence. The stability of transient gene expression under the control of the SV40 promoter was markedly dependent on F9 differentiation. Appreciable expression was detected even in undifferentiated F9 cells immediately after gene transfection, was maximal at 12 h and declined rapidly thereafter. On the other hand, expression in primitive endoderm increased until 72 h. The decline was accelerated again in visceral endoderm. This shift was somewhat specific to the virus promoter since CAT expression in undifferentiated F9 cells under the control of the elongation factor 1α promoter was more stable than for virus promoters tested. Thus, the change in stability of expression is important for differentiation-dependent virus promoter activity.     

Suppression by 17beta-estradiol of monocyte adhesion to vascular endothelial cells is mediated by estrogen receptors

Several observational studies have shown that estrogen replacement therapy decreases cardiovascular mortality and morbidity in postmenopausal women. However, The Women's Health Initiative (WHI) study has found that women receiving estrogen plus progestin had a significantly higher risk of breast cancer, coronary heart disease, stroke, and pulmonary embolus. In the present study, we examined whether estrogen prevents mechanisms that relate to plaque formation by inhibiting monocyte adhesion to endothelial cells. ECV304 cells, an endothelial cell line that normally expresses minimal estrogen receptor (ER)alpha, were transfected with an ERalpha expression plasmid. Treatment with tumor necrosis factor (TNF)-alpha increased expression of vascular cell adhesion molecule (VCAM)-1 mRNA, activation of nuclear factor-kappaB (NF-kappaB), and U937 cell adhesion in ECV304 cells. These effects of TNF-alpha were not significantly inhibited by pretreatment of native ECV304 cells with 17beta-estradiol (E(2)). In ECV304 cells overexpressing ERalpha, E(2) significantly inhibited the effects of TNF-alpha on NF-kappaB activation, VCAM-1 expression, and U937 cell adhesion. These findings suggest E(2) suppresses inflammatory cell adhesion to vascular endothelial cells that possess functional estrogen receptors. The mechanism of suppression may involve inhibition of NF-kappaB-mediated up-regulation of VCAM-1 expression induced by atherogenic stimuli. E(2) may prevent plaque formation, as first stage of atheroscrelosis through inhibiting adhesion monocytes to endothelial cell. Actions of estrogen replacement therapy can be assessed in terms of densities of functional ERalpha.     

Angiogenesis: how a tumor adapts to hypoxia

Early atherosclerotic lesions are characterized by increased monocyte adhesion to the overlying endothelium. Oxidized LDL (oxLDL) stimulates the adhesion of human monocytes to endothelial cells, in part, by increasing expression of ICAM-1. However, the cellular role of oxLDL in endothelial adhesiveness is not well understood. The peroxisome proliferator-activated receptor gamma (PPARgamma), a member of the nuclear receptor superfamily, is expressed in vascular endothelial cells. Whether it can be activated by a synthetic ligand, troglitazone, as well as by natural ligands, oxLDL and its lipid components (i.e., 9- and 13-HODE), has not yet been explored. This study was undertaken to determine whether PPARgamma is expressed in ECV304 human vascular endothelial cells and if so to define the biological effects of its activation by these agonists. Our results demonstrate that PPARgamma mRNA is expressed in ECV304 cells, and transfected cells with a PPARE luciferase construct respond to these agonists. In addition, ligand-dependent PPARgamma activation increased ICAM-1 protein expression and enhanced adherence of monocytes to ECV304 cells by two- to threefold. These findings suggest that the PPARgamma signaling pathway might contribute to the atherogenicity of oxLDL in vascular endothelial cells.     

Human immunodeficiency virus type 1 Tat induces B7-H1 expression via ERK/MAPK signaling pathway

In HIV-infected subjects, B7-H1 synthesis and expression are up-regulated, and the degree of dysregulation correlates with the severity of disease. HIV-1 Tat protein, the viral transactivating factor, represents a key target for the host immune response. However, the relationship between B7-H1 and Tat protein has not been addressed. Here, we chose human endothelial cells which provide costimulatory signals sufficiently to influence T cells. We used recombinant pcDNA3.1(+)–Tat plasmid to transfect human endothelial cells ECV304 to establish stable Tat-expressed cell strain, and found that HIV-1 Tat was able to induce B7-H1 expression in ECV304 cells by Real-time PCR and flow cytometry analysis, and inhibited lymphocyte proliferation in co-culture system. Moreover, by using pharmacological inhibitor of ERK pathway, HIV-1 Tat induces B7-H1 expression via ERK/MAPK signaling pathway was corroborated. In summary, our results indicate that HIV-1 Tat could induce B7-H1 synthesis in ECV304 cells through ERK/MAPK signaling pathway.