Unique secretory dynamics of tissue plasminogen activator and its modulation by plasminogen activator inhibitor-1 in vascular endothelial cells

We analyzed the secretory dynamics of tissue plasminogen activator (tPA) in EA.hy926 cells, an established vascular endothelial cell (VEC) line producing GFP-tagged tPA, using total internal reflection-fluorescence (TIR-F) microscopy. tPA-GFP was detected in small granules in EA.hy926 cells, the distribution of which was indistinguishable from intrinsically expressed tPA. Its secretory dynamics were unique, with prolonged (> 5 minutes) retention of the tPA-GFP on the cell surface, appearing as fluorescent spots in two-thirds of the exocytosis events. The rapid disappearance (mostly by 250 ms) of a domain-deletion mutant of tPA-GFP possessing only the signal peptide and catalytic domain indicates that the amino-terminal heavy chain of tPA-GFP is essential for binding to the membrane surface. The addition of PAI-1 dose-dependently facilitated the dissociation of membrane-retained tPA and increased the amounts of tPA-PAI-1 high-molecular-weight complexes in the medium. Accordingly, suppression of PAI-1 synthesis in EA.hy926 cells by siRNA prolonged the dissociation of tPA-GFP, whereas a catalytically inactive mutant of tPA-GFP not forming complexes with PAI-1 remained on the membrane even after PAI-1 treatment. Our results provide new insights into the relationship between exocytosed, membrane-retained tPA and PAI-1, which would modulate cell surface-associated fibrinolytic potential.     

MEK1,2 response element mediates angiotensin II-stimulated plasminogen activator inhibitor-1 promoter activation

The MEK1,2 (MAPK/ERK kinase 1 and 2) pathway mediates the up-regulation of plasminogen activator inhibitor-1 (PAI-1) expression in vascular smooth muscle cells by a variety of hormones, including angiotensin II. Transfection of constitutively active MEKK-1, an upstream activator of the mitogen-activated protein (MAP) kinase pathways, was used to isolate an enhancer element located between -89 and -50 bp in PAI-1 promoter that was activated by MEKK-1 and selectively blocked by the MEK1,2 inhibitor PD98059. Mutational analysis revealed that the MEKK-1 response element (MRE) contained 2 cis-acting Sp1- and AP-1-like sequences, located between -75 to -70 and -63 to -52 bp, respectively. Overexpression of Sp1 enhanced MEKK-1-induced MRE promoter activity and a dominant-negative c-Fos blocked this Sp1 response. The combination of Sp1 and c-Jun or c-Fos was required to activate this MRE. Angiotensin II (Ang II) stimulation increased c-Fos, c-Jun, and Sp1 binding to the MRE by 100-, 4.9-, and 1.9-fold, respectively, and these responses were inhibited by PD98059 and AT1 receptor antagonist candesartan. Intravenous Ang II infusion in rats increased aortic c-Fos binding to the MRE. This MRE sequence mediated a 4-fold increase of MEK1,2-dependent PAI-1/luciferase mRNA expression by angiotensin II stimulation. This report identifies the MEK1,2 response element that mediates angiotensin II-stimulated PAI-1 promoter activation and shows that activation of this element requires Sp1 and AP-1 co-activation.     

Increased expression of endothelin-converting enzyme-1c isoform in response to high glucose levels in endothelial cells

Endothelin-1 (ET-1) is both a potent vasoconstrictor and mitogenic factor that has been implicated as a cause of the micro- and macrovascular complications of diabetes mellitus. The pathway by which the high-glucose environment of diabetes mediates increased levels of endothelins has not been completely elucidated but appears to involve endothelin-converting enzyme (ECE-1), which converts inactive big ET-1 to active ET-1 peptide. To determine the effect of high glucose concentrations on the expression of ECE-1, hybrid endothelial cells (EA.hy926) and human umbilical vein endothelial cells (HUVEC) were both grown in various glucose concentrations. There was a 2-fold increase in ECE-1 immunoreactivity in the EA.hy926 cell line growing in medium containing 22.2 versus 5.5 mmol/l glucose after 24 h, which rose to greater than 20-fold after 5 days. Similar results were seen with HUVEC. Bradykinin or NG-nitro-L-arginine methyl ester did not change the effect of high glucose on ECE-1 protein expression. High glucose induced a 72 and 41% increase in total protein kinase C (PKC) activity in both EA.hy926 cells and HUVEC, respectively, and a 39, 49 and 109% elevation in PKC beta1, beta2 and delta expression, respectively, in EA.hy926 cells. The increase in ECE-1 expression was inhibited in both cell cultures by GF109203X (5 micromol/l), a general PKC inhibitor, while addition of 10 nmol/l phorbol myristic acid to EA.hy926 cells or HUVEC growing on medium containing 5.5 mmol/l glucose increased ECE-1 expression to a level similar to that of cells conditioned in high glucose. Human ECE-1 protein exists in four different isoforms, termed 1a, 1b, 1c and 1d. Northern blot analysis revealed that only ECE-1c isoform mRNA levels increased. Immunohistochemical staining of EA.hy926 cells grown in high glucose concentrations demonstrated an increase in the ECE-1c isoform, which occurred mainly in the plasma membrane. These results showed that the PKC pathway may play an important role in the glucose-mediated induction of ECE-1 expression. The main isoform to increase in response to high glucose was ECE-1c. This enzyme may be one of the factors contributing to the elevated ET-1 peptide levels observed in diabetes.     

Transcription factor decoy for activator protein-1 (AP-1) inhibits high glucose- and angiotensin II-induced type 1 plasminogen activator inhibitor (PAI-1) gene expression in cultured human vascular smooth muscle cells

AIMS/HYPOTHESIS: Multiple factors, including hyperglycaemia and angiotensin II (Ang II), stimulate plasminogen activator inhibitor-1 (PAI-1) gene expression in human vascular smooth muscle cells. This study tested the hypothesis that hyperglycaemia and Ang II stimulate PAI-1 gene expression through activator protein-1 (AP-1) binding sites. METHODS: We evaluated the role of AP-1 in PAI-1 gene expression in human vascular smooth muscle cells under high D-glucose and Ang II stimulation using a double-stranded cis-element AP-1 oligodeoxynucleotide (decoy ODN). RESULTS: Activator protein 1 activity was stimulated by high glucose and Ang II treatment and the AP-1 decoy ODN, but not a mismatched decoy ODN, competed for AP-1 activity. The increase in PAI-1 expression by high glucose and Ang II was significantly attenuated by the AP-1 decoy ODN (p <0.05 or p < 0.01). The increase in PAI-1 expression by high glucose and Ang II action on AP-1 sites was also confirmed by promoter analysis of PAI-1. Activator protein 1 activation in response to either high glucose or co-stimulation with high glucose and Ang II was inhibited completely by calphostin C (a PKC inhibitor) and partially by genistein (a protein tyrosine kinase inhibitor). CONCLUSION/INTERPRETATION: This study shows that high glucose and Ang II stimulate PAI-1 expression through AP-1 binding sites. Signal transduction after AP-1 activation by both high glucose and Ang II largely depends on PKC activation. These data indicate an important role for AP-1 in PAI-1 expression.     

Fibrinolytic properties of a human endothelial hybrid cell line (Ea.hy 926)

The fibrinolytic characteristics of the endothelial hybrid cell line EA.hy 926, established by fusing a human umbilical vein endothelial cell with a human carcinoma cell line, were studied. The hybrid cell line produced large amounts of tissue-type plasminogen activator (t- PA), plasminogen activator inhibitor type 1, and a small amount of urokinase. All plasminogen activator present in conditioned medium was complexed with inhibitor because the cells secreted plasminogen activator inhibitor in excess over plasminogen activator and no activator activity was detectable in conditioned media by direct activity assays. t-PA activator activity was, however, demonstrable in conditioned media after treatment with sodium dodecyl sulfate, in agreement with t-PA antigen determinations. Increased plasminogen activator inhibitor activity could be induced by incubating the cells in the presence of endotoxin or microtubule inhibitors, whereas increased t-PA activity could be induced by microtubule inhibitors. Interleukin-1 had no effect. The fibrinolytic characteristics of the hybrid cell line were stable for at least 30 passages. The perpetual human hybrid cell line EA.hy 926 therefore may be a useful tool for the study of fibrinolysis in cultured endothelial cells.     

登革2型病毒与整合素β3相互作用机制的研究

目的 观察登革2型病毒(dengue virus+etotype 2,DV2)感染后及转染DV2病毒蛋白的质粒后,EA.hy926细胞中整合素β3表达规律及表达量的变化,以初步明确DV2与整合素β3的相互作用的可能机制.方法　经噬斑法测定DV2在EA.hy926中的增殖规律,并通过间接免疫荧光染色检测DV2感染后及病毒...     

Relative contribution of different l-arginine sources to the substrate supply of endothelial nitric oxide synthase

In certain cases of endothelial dysfunction l-arginine becomes rate-limiting for NO synthesis in spite of sufficiently high plasma concentrations of the amino acid. To better understand this phenomenon, we investigated routes of substrate supply to endothelial nitric oxide synthase (eNOS). Our previous data with human umbilical vein (HUVEC) and EA.hy.926 endothelial cells demonstrated that eNOS can obtain its substrate from the conversion of l-citrulline to l-arginine and from protein breakdown. In the present study, we determined the quantitative contribution of proteasomal and lysosomal protein degradation and investigated to what extent extracellular peptides and l-citrulline can provide substrate to eNOS. The RFL-6 reporter cell assay was used to measure eNOS activity in human EA.hy926 endothelial cells. Individual proteasome and lysosome inhibition reduced eNOS activity in EA.hy926 cells only slightly. However, the combined inhibition had a pronounced reducing effect. eNOS activity was fully restored by supplementing either l-citrulline or l-arginine-containing dipeptides. Histidine prevented the restoration of eNOS activity by the dipeptide, suggesting that a transporter accepting both, peptides and histidine, mediates the uptake of the extracellular peptide. In fact, the peptide and histidine transporter PHT1 was expressed in EA.hy926 cells and HUVECs (qRT/PCR). Our study thus demonstrates that l-citrulline and l-arginine-containing peptides derived from either intracellular protein breakdown or from the extracellular space seem to be good substrate sources for eNOS.     

Differential and opposing regulation of PAI-1 promoter activity by estrogen receptor alpha and estrogen receptor beta in endothelial cells

To investigate the molecular mechanisms involved in the estrogen-dependent control of plasminogen activator inhibitor-1 (PAI-1) gene expression in vascular cells, we compared the transactivation properties of estrogen receptors (ERalpha and ERbeta) in regulating the activity of a human PAI-1 promoter reporter construct in transfected bovine aortic endothelial cells (BAECs). ERalpha increased PAI-1 promoter activity in BAECs by an estrogen-dependent mechanism, whereas ERbeta suppressed PAI-1 promoter activity by an estrogen-independent mechanism. The suppressive activity of ERbeta was dominant over the inductive activity of ERalpha. Mutation of a putative estrogen response element (ERE) located at position -427 in the proximal promoter abolished the ERalpha action without influencing the suppressive effects of ERbeta. Mutation of either AP1-like site did not eliminate the ERalpha or ERbeta actions at the PAI-1 promoter, suggesting that other promoter elements are involved in these responses. These mutations significantly reduced the -3.4kbp PAI-1 promoter response to serum. We concluded that ERalpha and ERbeta exert differential effects on the PAI-1 promoter activity in transfected BAECs. ERalpha activated the PAI-1 promoter through a proximal ERE (-427) and possibly additional EREs located within the PAI-1 promoter, whereas ERbeta suppressed the promoter construct via an unidentified mechanism. This is the first demonstration of the differential regulation of a vascular gene promoter by ERalpha and ERbeta.     

Comparative expression profiling in primary and immortalized endothelial cells: changes in gene expression in response to hydroxy methylglutaryl-coenzyme A reductase inhibition.

Immortalized cell lines offer significant logistical advantages over primary cells when used for in-vitro studies. Immortalized cells may, however, exhibit important differences relative to their primary cell counterparts. In this study, microarrays were used to make a genome-wide comparison between primary human umbilical vein endothelial cells (HUVECs) and EA.hy926, an immortalized HUVEC cell line, in their baseline properties and in their response to inhibition of the mevalonate pathway with an inhibitor of hydroxy methylglutaryl-coenzyme A reductase (statin). HUVECs and EA.hy926 were incubated with control medium, atorvastatin, mevalonate, or a combination of atorvastatin and mevalonate for 24 h. Gene expression profiles were obtained in duplicates using Affymetrix Human Genome U133A 2.0 arrays (Santa Clara, California, USA). Probe-sets were selected according to the following criteria: a twofold or greater increase/decrease in atorvastatin-treated cells compared with untreated cells; a twofold or greater reversal of the effect of atorvastatin by combined treatment with atorvastatin and mevalonate; no significant change in gene expression in cells treated with mevalonate alone compared with untreated cells. Most genes that were expressed by untreated HUVECs, were also expressed by untreated EA.hy926 cells. EA.hy926 cells, however, constitutively expressed a large number of additional genes, many of which were related to cell cycle control and apoptosis. Atorvastatin induced differential expression (> or = twofold) of 103 genes in HUVECs (10 up, 93 down) and 466 genes in EA.hy926 cells (198 up, 268 down). Applying the above selection criteria, thrombomodulin and tissue plasminogen activator were up-regulated in both cell types, whereas, connective tissue growth factor, thrombospondin-1, and cysteine-rich angiogenic inducer 61 were down-regulated. In conclusion, EA.hy926 cells retain most of the characteristics of endothelial cells under baseline conditions as well as after treatment with atorvastatin. It is necessary, however, to carefully select and validate changes in genes that are the focus of studies when using EA.hy926 cells. While this cell line is highly useful in studies on some genes, including genes encoding molecules involved in regulating thrombohemorrhagic homeostasis, they appear to be less suited for studies focused on other genes, particularly those involved in the regulation of cell proliferation and apoptosis.     

Ursolic acid from the Chinese herb danshen (Salvia miltiorrhiza L.) upregulates eNOS and downregulates Nox4 expression in human endothelial cells

Danshen, the dried root of Salvia miltiorrhiza Bunge (Lamiaceae), is one of the most commonly used traditional Chinese medicines for cardiovascular indications. In EA.hy 926 cells, a cell line derived from human umbilical vein endothelial cells (HUVEC), an aqueous extract of danshen, and also a methanol extract of the plant, increased eNOS promoter activity, eNOS mRNA and protein expression, as well as endothelial NO production. A dichloromethane extract, in contrast, did not change eNOS gene expression. Thus, the active danshen constituent(s) responsible for eNOS upregulation is (are) hydrophilic and/or alcohol-soluble. One such compound is ursolic acid that significantly increased eNOS expression in EA.hy 926 cells and native HUVEC, and enhanced bioactive NO production measured in terms of its cGMP increasing activity. Other tested hydrophilic and alcohol-soluble compounds isolated from danshen had no effect on eNOS expression. Interestingly, ursolic acid also reduced the expression of the NADPH oxidase subunit Nox4 and suppressed the production of reactive oxygen species in human endothelial cells. Upregulation of eNOS and a parallel downregulation of Nox4 lead to an increase in bioactive NO. This in turn could mediate some of the beneficial effects of danshen. Ursolic acid is a prototypical compound responsible for this effect of the plant.     

Characterization and purification of a secreted plasminogen activator inhibitor (PAI-1) induced by transforming growth factor-beta 1 in normal rat kidney (NRK) cells: decreased PAI-1 expression in transformed NRK cells

Type 1 transforming growth factor-beta (TGF beta 1) was found to be a potent inducer of the secretion of a 49,000 mol wt protein by normal rat kidney (NRK) cells. This protein was related to type 1 plasminogen activator inhibitor (PAI-1) on the basis of molecular mass, activity in the presence of sodium dodecyl sulfate, immunoprecipitation by antibodies to PAI-1, and N-terminal sequence analysis. PAI-1 levels in the conditioned medium of NRK cells were increased 5- to 11-fold when cells were incubated with picomolar concentrations of TGF beta 1 for 24 h, reaching a concentration of approximately 0.3 microgram/ml. The secreted PAI-1 was deposited in the NRK extracellular matrix as well as released into the culture medium. A spontaneously transformed NRK cell line was found to secrete 3-4 times less PAI-1, in the absence or presence of TGF beta 1, compared to the parent cell line, while PAI-1 secretion in Kirsten sarcoma virus-transformed NRK cells was almost completely abrogated. A novel purification procedure was established, which results in the isolation of highly active and detergent-free TGF beta 1-induced PAI-1.     

系统性血管炎抗内皮细胞抗体与抗中性粒细胞胞质抗体的相关性初探

目的以来源于大小血管内皮细胞的两种永生细胞株为底物,检测系统性血管炎血清中抗内皮细胞抗体(AECA),分析其与抗中性粒细胞胞质抗体(ANCA)的相关性。方法细胞酶联免疫吸附试验(Cyto-ELISA)法检测血清中AECA;间接免疫荧光法(IIF)及抗抗体结合内皮细胞表面的蛋白酶3(PR3)、抗MPO-ELISA检测血清中ANCA;IIF及抗PR3、抗MPO-ELISA检测细胞株中PR3及MPO;反转录—聚合酶链反应(RT-PCR)法检测细胞株中PR3及MPOmRNA。结果AECAEA(EA.hy926为底物所测AECA)阳性率33.6%(41/122),AECAHMEC(HMEC-1为底物所测AECA)37.7%(46/122),ANCA35.3%(43/122),AECAEA或AECAHMEC与ANCA串联诊断系统性血管炎敏感性分别为59.8%(73/122)或60.7%(74/122)。AECAEA与ANCA,AECAHMEC与ANCA分别行配对字2检验,差异均无显著性(P>0.05),符合率仅分别为49.2%及51.6%。EA.hy926和HMEC-1中蛋白水平及mRNA水平均无PR3和MPO的表达。结论EA.hy926与HMEC-1中无PR3、MPO蛋白水平的表达,ANCA与AECA可能是两种相互独立的抗体,串联检测可提高诊断敏感性。