Cell shrinkage during apoptosis is not obligatory. Apoptosis of U937 cells induced by staurosporine and etoposide

A study was made of apoptotic cell shrinkage, which is generally believed to be a hallmark of apoptosis. The two conventional models of apoptosis were used for examination of changes in cell water balance--one is apoptosis caused in human lymphoma cell line U937 by staurosporine, and the other by etoposide. Intracellular water was determined by measuring buoyant density of cells in continuous Percoll gradient. Apoptosis was recognized by microscopy and flow cytometry. Apoptosis caused by staurosporine (1 microM, 4 h) was found to be associated with a decrease in cell water content by almost 24%. In contrast, no decrease in cell water content was observed in U937 cells incubated with etoposide (50 microM, 4 h), in spite of the number of features suggesting the presence of apoptosis, such as the appearance of apoptotic bodies, chromatin condensation and fragmentation and disappearance of S-phase cells in DNA histogram. It is concluded that definition of apoptosis as "shrinkage-necrosis" (Kerr, 1971) needs correcting: the distinction of apoptotic cells involves the absence of swelling, rather than cell shrinkage.     

7-Ketocholesterol and staurosporine induce opposite changes in intracellular pH,associated with distinct types of cell death in ECV304 cells

Incubation of ECV304 cells with 7-ketocholesterol, a lipid component of oxidized low-density lipoproteins, caused a concentration- and time-dependent decrease in the number of viable cells. Other cholesterol oxides, 7 beta-hydroxycholesterol and 25-hydroxycholesterol, but not cholesterol, were only weakly cytotoxic. No evidence for activation of caspase-3 and -8, DNA laddering, or release of cytochrome c from mitochondria into the cytoplasm was obtained in 7-ketocholesterol-treated cells, indicating that cell death was not due to apoptosis. As a positive control for apoptosis, ECV304 cells were treated with staurosporine, which indeed caused significant activation of caspase-3 activity, DNA laddering, and cytochrome c release. Cellular morphology and actin cytoskeletal organization were distinctly different after exposure to the two drugs. Furthermore, staurosporine caused intracellular acidification, whereas 7-ketocholesterol induced a significant alkalinization, which was abolished by 4,4'-diisothiocyanatodihydrostilbene-2,2'-disulfonic acid. In conclusion, in ECV304 cells 7-ketocholesterol induces some typical hallmarks of necrotic cell death but not of apoptosis.     

Characteristics of spontaneously transformed human endothelial ECV304 cell line: II. Functional responses of ECV304 cells

The functional peculiarities of spontaneously transformed human endothelial ECV304 cell line were studied to estimate its adequacy as an endothelial cell model for studying angiogenesis and signal transduction. The dependence of the proliferative activity of this line on the presence of growth factors was shown. The absence of serum in the nutrition medium leads to the blockage of cells in the G₁ phase of cell cycle, which is not characteristic of tumor cell lines. Low doses of beta particles emitted during the decay of the [³H]-thymidine blocked, dose-dependent proliferation of these cells in the G₂/M phase. The incubation of the cells in medium with another source of β particles, ³H₂O, resulted in the predominant accumulation of cells in the S phase under conditions of equal specific tritium activities. The different efficiency of β particles of tritium as a part of the H₂O molecule or thymidine demonstrates that different mechanisms are responsible for different checkpoints. The checkpoint of G₁/S is absent, which agrees with the presence of the deletion of chromosome 9 at locus p21. The level of NO produced by the constitutive form of NO synthase in ECV304 cells was relatively low and not modified by inducible NO-synthase inhibitors. The data obtained suggest that the ECV304 line cells retained properties of the initial spontaneously transformed cell line obtained from the human umbilical vein (HUVEC) and can be used as a model system for further studies of properties of the vascular endothelium.     

Characterization of the spontaneously transformed human endothelial cell line ECV304: 1. Multiple chromosomal rearrangements in ECV304 cells

Using differential G-staining of chromosomes, the karyotype of the endothelial cell line ECV304 obtained from endotheliocytes of the human umbilical vein was studied. The cells have been shown to have a polyploid karyotype with a number of chromosomes ranging from 96 to 112, as well as multiple numerical and structural clonal chromosome abnormalities. The structural rearrangements involve almost all chromosomes of the karyotype. Several paired chromosomal rearrangements have been revealed and include del(9)(p21), as well as two derivates of chromosome 3 with a breakpoint at the p25 locus, i.e., der(3)t(3;12)(3p25;12q11～12;12q21～24.?1) and der(3)t(3;?)(3p25). The role of these rearrangements in the immortalization of endotheliocytes and in angiogenesis is discussed. A comparison of the karyotypes of the cell line ECV304 and of the bladder carcinoma T24 cell line has shown that these karyotypes differ in all of the main cytogenetic characteristics. No identical structural chromosomal rearrangements, nor rearrangements characteristic of bladder carcinoma cells have been revealed. The studied endothelial cell line ECV304 is not identical to the T24 cell line.     

Characteristics of the spontaneously transformed human endothelial cell line ECV304. I. Multiple chromosomal rearrangements in endothelial cells ECV304

Karyotype of endothelial line ECV304 cells obtained from human umbilicus vein endothelial cells was studied using G-banding chromosome staining. It has been revealed that the cells have a polyploidy karyotype with 96-112 chromosomes and multiple numerical and structural clonal rearrangements. Almost all the chromosomes of the karyotype are involved in structural rearrangements. There are several double chromosome rearrangements revealed including del(9)(p21) as well as two derivatives of chromosome 3 with the breakpoint in the locus p25 - der(3)t(3;12)(3p25;12q11- 12q24.?1) and der(3)t(3;?)(3p25). The role of these rearrangements in the immortalization of endothelial cells and sighs of transformation are discussed. In connection with the information received about the fact that the cells of ECV304 line are not endothelial cells but T24, urinary bladder cancer cells (which karyotype was studied by Hurst et al., 2000), the comparative analysis of the karyotypes of these two lines was carried out. It has been revealed that these two lines differ by all cytogenetic characteristics. Neither identical structural chromosomal rearrangements nor cell characteristic of urinary bladder cancer cells were detected. Our line ECV304 is not identical to the line T24.     

Characteristics of the spontaneously transformed human endothelial cell line ECV304. II. Functional responses of the ECV304 cells

Functional responses of the spontaneously transformed human endothelial cell line ECV304 were studied in order to asses its applicability as an endothelial cell model for studying angiogenesis and signal transduction. The dependence of proliferation activity of this line on the presence of growth factor was shown. The absent serum in culture medium resulted in blocking of cells in G1-phase of a cell cycle which is not typical for tumor cell lines. Low doses of beta particles emitted during [3H]thymidine decay resulted in blocking the proliferation of these cells in G2M-phase in a dose-dependent manner. Incubation of the cells with another source of beta particles, 3H2O, under condition of equal specific activities of tritium resulted in preferable accumulation of the cells in S-phase. The different efficiency of beta particles of tritium as a part of 3H2O molecule or thymidine demonstrates that various mechanisms are responsible for various check points. The check point of G1/S is absent and that complies with the presence of deletion of chromosome 9 in locus p21. The level of NO produced by constitutive form of NO-synthase in ECV304 cells was relatively low and not modified by inducible NO-synthase inhibitors. The data obtained suggest that ECV304 line cells retained the properties of the initial spontaneously transformed cell line obtained from human umbilical vein (HUVEC) as well as they can be used as a model system for further studies of the properties of vascular endothelial.     

Protein kinase B inhibits apoptosis induced by actinomycin D in ECV304 cells through phosphorylation of caspase 8

Actinomycin D (act-D) anchors itself into DNA-base pairs by intercalation and thereby inhibits mRNA synthesis. It has been well established that act-D elicits apoptosis in various cell types involving endothelial cells. However, the regulatory mechanisms of actinomycin D-induced apoptotic cell death still remain unclear. Here, we investigated apoptotic cell death and its underlying regulatory mechanisms elicited by actinomycin D in ECV304. Act-D induced typical apoptotic features including chromatin condensation and translocation of phosphatidylserine. Since the phosphoinositide 3-OH kinase (PI3K)/protein kinase B (PKB) signaling pathway has been shown to prevent apoptosis in various cell types, it was of interest to determine if this pathway could protect against apoptosis induced by act-D. Inhibition of PI3K/PKB significantly increased act-D-induced apoptosis. Moreover, act-D-induced cell death was physiologically linked to PKB-mediated cell survival through caspase-8. These results suggest that cross-talk between the PKB and caspase-8 pathways may regulate the balance between cell survival and cell death in ECV304.     

Tryptase activates PKB in inflammatory reaction in ECV304 cells

Tryptase is involved in proteinase-activated receptor-2 (PAR-2) mediated up-regulation of IL-8 expression. The present report showed the effects of tryptase on gene expression and activation, including up-regulation IL-8 expression. The expression of mRNA for NF-kappaB first increased at 1 h after tryptase-treatment (1 ng/ml) and reached the plateau after 4 h. The NF-kappaB mRNA increased by 3-fold (n = 3, P < 0.05), AP-1 by 2-fold (n = 3, P < 0.05), and PKB by 10-fold (n = 3, P < 0.05). However, tryptase-treatment did not affect the expression of JNK and p38 MAPK when compared with control cells at mRNA level. Furthermore, in addition to increasing phosphorylation of p38 MAPK, tryptase-treatment also increased phosphorylation of PKB by 2-fold at 15 min following the treatment. The up-regulation and phosphorylation of PKB by tryptase could be abolished by either phosphoinositol-3-kinase (PI3K) inhibitor (LY294002) at 10 microM or antisense PKB cDNA transfection. The up-regulation of NF-kappaB expression could be inhibited by LY294002 and antisense PKB cDNA. These results indicate that tryptase can activate PI3K-PKB pathway and enhance IL-8 expression.     

秦皮甲素对AGEs致损的ECV304细胞增殖及氧化应激的影响

为研究秦皮甲素对血管内皮细胞的保护作用,采用CCK-8法观察秦皮甲素对体外AGEs培养的人脐静脉内皮细胞增殖的影响。检测不同浓度AGEs以及秦皮甲素作用后对内皮细胞一氧化氮(NO)、不对称二甲基精氨酸(ADMA)水平的影响以及内皮细胞氧化应激有关指标:活性氧簇(reactive oxygen species,ROS)、丙二醛(malondialdehyde,MDA)、超氧化物歧化酶(superoxide dismutase,SOD);脂肪代谢相关指标:乳酸脱氢酶(lactic dehydrogenase,LDH)、总胆固醇(total cholesterol,CHO)、甘油三酯(triglyceride,TG)和低密度脂蛋白(low density lipoprotein,LDL),同时分别检测粘附相关因子:血管细胞粘附分子-1(VCAM-1)和细胞间粘附分子-1(ICAM-1)的表达水平。结果显示200 mg/L AGEs对人内皮细胞ECV304增殖有显著抑制作用,秦皮甲素可对抗AGEs导致的内皮细胞增殖抑制,并呈浓度依赖性。在25 mg/L时,保护效应达到最高。秦皮甲素可抵抗ROS生成。同时可改善细胞的脂类代谢:胆固醇、LDL以及TG含量在秦皮甲素作用后改善明显。秦皮甲素可显著抑制内皮粘附因子VCAM-1的表达。秦皮甲素还可上调NO水平,下调ADMA水平。总之,秦皮甲素可有效促进人血管内皮细胞增殖并在改善氧化应激,脂代谢,粘附因子和NO释放等方面发挥作用。     

CASK inhibits ECV304 cell growth and interacts with Id1

Calcium/calmodulin-dependent serine protein kinase (CASK) is generally known as a scaffold protein. Here we show that overexpression of CASK resulted in a reduced rate of cell growth, while inhibition of expression of endogenous CASK via RNA-mediated interference resulted in an increased rate of cell growth in ECV304 cells. To explore the molecular mechanism, we identified a novel CASK-interacting protein, inhibitor of differentiation 1 (Id1) with a yeast two-hybrid screening. Furthermore, endogenous CASK and Id1 proteins were co-precipitated from the lysates of ECV304 cells by immunoprecipitation. Mammalian two-hybrid protein-protein interaction assays indicated that CASK possessed a different binding activity for Id1 and its alternative splicing variant. It is known that Id proteins play important roles in regulation of cell proliferation and differentiation. Thus, we speculate that the regulation of cell growth mediated by CASK may be involved in Id1. Our findings indicate a novel function of CASK, the mechanism that remains to be further investigated.     

Apoptosis induced by staurosporine alters chaperone and endoplasmic reticulum proteins: Identification by quantitative proteomics

Apoptosis contributes to cell death after cerebral ischaemia. A quantitative proteomics approach has been employed to define alterations in protein levels in apoptosis induced with staurosporine (STS). Human neuroblastoma derived SH-SY5Y cells were treated with STS (500 nM for 6 h) to induce apoptosis. Quantitative 2-DE was used to determine the changing protein levels with MALDI-TOF MS identification of proteins. Of the 154 proteins analysed, 13 proteins were significantly altered as a result of the apoptotic stimulus; ten of the proteins showed an increase in level with STS and were identified as heat shock cognate 71 (Hsc71), two isoforms of heat shock protein 70 (Hsp70), glucose regulated protein 78 (GRP78), F-actin capping protein, stress-induced phosphoprotein 1, chromatin assembly factor 1 (CAF-1), protein disulphide isomerase A3 (PDI A3) precursor, transitional ER ATPase and actin interacting protein 1 (AIP 1). Three proteins which displayed significant decrease in levels with STS were identified as tubulin, vimentin and glucose regulated protein 94 (GRP94). The functional roles and subcellular locations of these proteins collectively indicate that STS-induced apoptosis provokes induces an unfolded protein response involving molecular chaperones, cochaperones and structural proteins indicative of ER stress.     

Paradoxical enhancement of oxidative cell injury by overexpression of heme oxygenase-1 in an anchorage-dependent cell ECV304

There has been increasing evidence suggesting the potent anti-inflammatory roles of heme oxygenase-1 (HO-1) in protecting renal tubular epithelial cells, vascular endothelial cells, and circulating monocytes. Based on these findings, novel therapeutic interventions have been proposed to control the expression of endothelial HO-1 levels to ameliorate various vascular diseases. We evaluated the effect of HO-1 gene transfer into an anchorage-dependent cell, ECV304. Effect of HO-1 production on the cell injury induced by hydrogen peroxide was evaluated after hemin stimulation and after HO-1 gene transfection. Morphological changes and the induction of various anti-apoptotic proteins were examined at the same time. Levels of HO-1 expression were variable in different clones of HO-1-transfected ECV304 cells. Among these, the clones with moderate levels of HO-1 expression were significantly more resistant to oxidative stress. In contrast, those with the highest levels of HO-1 exhibited paradoxically enhanced susceptibility to oxidative injury. Interestingly, the cell survival after oxidative stress was in parallel with the levels of Bcl-2 expression and of fibronectin receptor, alpha5 integrin. It is suggested from these results, that excessive HO-1 not only leads to enhanced cell injury, but also prolongs the repair process of the injured endothelial tissue. However, HO-1 reduces the oxidative cell injury and protects the endothelial cells, if its expression is appropriately controlled. Copyright 2004 Wiley-Liss, Inc.     

Leukotriene-D4 induced cell shrinkage in Ehrlich ascites tumor cells

Summary The nature of the leukotriene-D₄ (LTD₄) induced cell shrinkage in Ehrlich ascites tumor cells has been investigated. LTD₄ treatment of Ehrlich cells induces net loss of cellular KCl and cell shrinkage independent of the initial cell volume. LTD₄ also produces water loss and reduction in cell volume when all extracellular and all intracellular Cl has been replaced by NO₃. On the other hand, LTD₄ fails to produce any significant changes in cell volume in the presence of the K-channel blocker quinine, suggesting that LTD₄ in Ehrlich cells induces Cl-independent K loss through the Ca²⁺-dependent K channels. However, the effect of physiological doses of LTD₄ on cell volume seems not to be as potent in Cl-free, NO₃ cells when compared to Cl-containing cells, indicating that LTD₄ in Ehrlich cells also provokes Cl-dependent K loss. LTD₄ seems not to produce K loss through an electroneutral K⁺/H⁺ exchange system. LTD₄ still produces Cl-independent K loss and cell shrinkage in the presence of the anticalmodulin drug pimozide but not in the presence of the LTD₄ receptor antagonist L-649,923 or the 5-lipoxygenase inhibitor NDGA. Pretreatment of the cells with pertussis toxin, which inactivates inhibitory guanine nucleotide binding proteins (G-proteins), leads to partial inhibition of the LTD₄-induced shrinkage. It is suggested that the LTD₄-induced activation of K and Cl transporting systems in Ehrlich ascites tumor cells is mediated via a G-protein coupled receptor and that LTD₄ might exert its effect through another lipoxygenase product. The Ca²⁺-calmodulin complex is not involved in the LTD₄-induced activation of K and Cl transporting systems.