Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P08758 (annexin V)
9,383 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Oxidized cholesterol compounds or oxysterols are thought to be potent membrane-destabilizing agents. Anionic phospholipids, chiefly phosphatidylserine, have a procoagulant potential due to their ability to favour the membrane assembly of the characteristic clotting enzyme complexes including the tissue factor-dependent initiating complex. However, in resting cells, phosphatidylserine is sequestered in the inner leaflet of the plasma membrane. When THP-1 monocytic cells were cultured in the presence of 7beta-hydroxycholesterol (7beta-OH) or 25-hydroxycholesterol (25-OH), prothrombinase, which reflects anionic phospholipid exposure and tissue factor (TF) procoagulant activities, increased in a time- and dose-dependent manner. 7beta-OH appeared 1.5- to 2-fold more potent than 25-OH. Interestingly, no effect of cholesterol itself could be detected on procoagulant activities. Nevertheless, no difference in TF activity could be detected between oxysterol-treated and control cells after disruption. TF antigen expression was the same in oxysterol-treated and control cells as shown by flow cytometry. In contrast, the use of labelled annexin V, a protein probe of anionic phospholipids, revealed an elevated number of cells with exposed phosphatidylserine. Because the latter also constitutes a signal for phagocyte recognition of apoptotic cells and fragments, and a proportion of cells displayed altered morphology with condensed chromatin and membrane blebs, analysis of DNA was performed and indicated apoptosis in oxysterol-treated cells. Hence, oxysterol-induced phosphatidylserine exposure and enhanced TF activity may results from apoptosis. These results suggest relationships between oxysterol and the amplification of coagulation reactions by monocytic cells resulting from induced phosphatidylserine exposure.
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PMID:Oyxsterols induce membrane procoagulant activity in monocytic THP-1 cells. 861 54

Exposure of phosphatidylserine (PtdSer) has been implicated in the recognition and phagocytosis of senescent and apoptotic cells, and CD36 has been proposed as one receptor protein that recognizes PtdSer and other anionic phospholipids. We investigated the binding of phospholipid vesicles to the monocytic leukemia cell lines THP-1 and J774A.1 with a flow cytometric assay; vesicles contained 50 mol% PtdSer, phosphatidylinositol (PtdIns), or phosphatidylglycerol (PtdGro), with the balance being phosphatidylcholine. Specific, high affinity binding was observed for vesicles containing PtdSer, PtdIns, or PtdGro. Specificity of the assay was confirmed by control experiments with erythrocytes, which showed minimal vesicle binding, and with annexin V, which blocked the binding of PtdSer, PtdGro, and PtdIns vesicles to the THP-1 cells. However, O-phospho-L-serine (to 1 mM) had no effect on the binding of PtdSer vesicles, indicating that high affinity binding requires a surface containing multiple phosphoserine groups rather than a single molecule. A monoclonal antibody to CD36 blocked up to 60% of the specific binding of PtdSer vesicles but had minimal to no effect on the binding of PtdGro or PtdIns vesicles. This antibody also selectively inhibited the phagocytosis of PtdSer-containing vesicles as measured by fluorescence microscopy, indicating that CD36 is functionally significant for phagocytosis of this vesicle type. In addition, collagen and thrombospondin, two other putative ligands of CD36, were unable to inhibit the binding of PtdSer vesicles. We conclude that CD36 is the primary protein responsible for the high affinity binding of PtdSer vesicles to these monocyte-like cells. In addition, CD36 appears to be specific for PtdSer among anionic phospholipids, and non-phospholipid ligands of CD36 do not share binding sites with PtdSer on CD36.
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PMID:Phosphatidylserine receptors: role of CD36 in binding of anionic phospholipid vesicles to monocytic cells. 991 44

In addition to its inhibitory activity against viral DNA polymerases and reverse transcriptase, the acyclic nucleoside phosphonate 9-(2-phosphonylmethoxyethyl)adenine (PMEA) also markedly inhibits the replicative cellular DNA polymerases alpha, delta, and epsilon. We have previously shown that PMEA is a strong inducer of differentiation in several in vitro tumor cell models and has marked antitumor potential in vivo. To elucidate the molecular mechanism of the differentiation-inducing activity of PMEA, we have now investigated the effects of the drug on cell proliferation and differentiation, cell cycle regulation, and oncogene expression in the human erythroleukemia K562 cell line. Terminal, irreversible erythroid differentiation of PMEA-treated K562 cells was evidenced by hemoglobin production, increased expression of glycophorin A on the K562 cell membrane, and induction of acetylcholinesterase activity. After exposure to PMEA, K562 cell cultures displayed a marked retardation of S-phase progression, leading to a severe perturbation of the normal cell cycle distribution pattern. Whereas no substantial changes in c-myc mRNA levels and p21, PCNA, cdc2, and CDK2 protein levels were noted in PMEA-treated K562 cells, there was a marked accumulation of cyclin A and, most strikingly, cyclins E and B1. A similar picture of cell cycle deregulation was also observed in PMEA-exposed human myeloid THP-1 cells. However, in contrast to the strong differentiation-inducing activity of PMEA in K562 cells, the drug completely failed to induce monocytic maturation of human myeloid THP-1 cells. On the contrary, THP-1 cells underwent apoptotic cell death in the presence of PMEA, as demonstrated by prelytic, intracellular DNA fragmentation and the binding of annexin V to the cell surface. We hypothesize that, depending on the nature of the tumor cell line, PMEA triggers a process of either differentiation or apoptosis by the uncoupling of normally integrated cell cycle processes through inhibition of DNA replication during the S phase.
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PMID:9-(2-Phosphonylmethoxyethyl)adenine induces tumor cell differentiation or cell death by blocking cell cycle progression through the S phase. 1039 5

Cytolysis resulted in cell death was detected with propidium iodide, and apoptosis with Annexin V by using flow cytometry. The more vilurent strain in known murine infections showed the higher cytolytic activity. However in those mycobacterial strains that had the higher cytolytic activity on THP-1 cell, the lower level of apoptosis induction was observed. Addition of IFN-gamma or TNF-alpha to THP-1 derived macrophage did not effect on cytolytic activities nor apoptosis induction. Since mycobacteria with the higher cytolytic activity showed the lower apoptosis induction, it was suggested that apoptosis of human macrophage in mycobacterial infection is a beneficial phenomenon to the host.
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PMID:[Factors for the onset of and the exacerbation of tuberculosis. 1. Activities in cytolysis and in apoptotic induction of mycobacteria on human THP-1 derived macrophage]. 1056 33

Oxidized low-density lipoproteins (oxLDL) play a critical role in atherogenesis. We investigated the apoptotic process in human monocytic THP-1 cell line, exposed to oxLDL generated by treatment of native LDL either with hypochlorous acid (HOCl), mainly affecting the protein moiety, or with copper sulfate (CuSO(4)), mainly affecting the lipid moiety. After incubation with both types of oxLDL, we observed: (i) microscopy signs of apoptosis in THP-1 cells, (ii) a significant increase of apoptotic cells proportional to LDL protein concentration, either by annexin V or by cell cycle phase analysis with propodium iodide flow cytometry, (iii) a reduction of THP-1 cell apoptosis in presence of the caspase inhibitor Z-VAD.fmk, (iv) the resistance of THP-1 cells apoptosis after PMA-elicited differentiation. In conclusion, HOCl-oxLDL are as potent as Cu-oxLDL to induce high rates of apoptosis in monocytes through a caspase-dependent pathway. Moreover, the resistance of differentiated THP-1 cells to oxLDL-induced apoptosis is compatible with the hypothesis that mature macrophages have prolonged survival and thereby enhance the atherogenic process.
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PMID:Caspase-dependent apoptosis in THP-1 cells exposed to oxidized low-density lipoproteins. 1089 53

The MLL gene is frequently rearranged in leukemias, and MLL chimeric proteins generated by chromosomal translocations play crucial roles in leukemogenesis. Targets of murine Mll include HOX proteins that regulate body pattern formation and hematopoiesis. However, it is not known whether or not the MLL chimeric proteins regulate the HOX gene expression in human leukemia. To address this issue, THP-1 cells, a human leukemia cell line expressing MLL-AF9, were treated with antisense oligodeoxyribonucleotide (ODN) complementary to the coding sequence of the MLL-AF9 junction. Down-regulation of the MLL-AF9 transcript was accompanied by the reduced expression of the HOXA7 and -A10 genes, but not of the HOXA2, -A4, -A5, and -A9 genes. The number of viable cells cultured with 20 microM antisense ODN for 5 days was 10-fold lower than that of the sense ODN-treated control. And the number of the annexin V-/propidium iodide- apoptotic cells in the antisense ODN-treated cells after 3 days of culture was two-fold higher than that in the control. Staining of the antisense ODN-treated cells with Hoechst 33258 showed the morphology characteristic to apoptosis. These results indicate that MLL-AF9 regulates the expression of the selected HOX genes as well as prevents the leukemic cells from apoptosis.
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PMID:Targeted down-regulation of MLL-AF9 with antisense oligodeoxyribonucleotide reduces the expression of the HOXA7 and -A10 genes and induces apoptosis in a human leukemia cell line, THP-1. 1168 16

During cell death of human cultured leukocytes (Jurkat, HL-60, THP-1, U937) and freshly prepared leukocytes, we observed a greater than 100-fold increase in the affinity of apoptotic and necrotic cells for fluorescein isothiocyanate (FITC)-heparin in comparison with live cells. Binding of FITC-heparin was reversed in the presence of high ionic strength, unlabeled heparan sulfate, and heparin and pentosan polysulfate, but not in the presence of chondroitin and dermatan sulfates. During the course of cell death, the increase in the percentage of cells positive for annexin V binding correlated with the increase in the population positive for binding FITC-heparin. Confocal microscopy demonstrated that heparin binding to dead cells was restricted to 1 or 2 small domains on the surfaces of apoptotic cells and to larger, but still discrete, areas that did not localize with chromatin on ruptured necrotic cells. The heparin-binding domains originated from the nucleus and may correspond to the ribonucleoprotein-containing structures that have recently been shown to segregate within the nucleus of cells and to move onto the cell membrane. We observed that phagocytosis of dead Jurkat cells by monocyte-derived macrophages was blocked when the heparin-binding capacity of the dead cells was saturated by the addition of pentosan polysulfate. From this we concluded that the ability of dead cells to bind to heparan sulfate proteoglycans on the surfaces of macrophages may assist in phagocytic clearance.
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PMID:High-affinity binding sites for heparin generated on leukocytes during apoptosis arise from nuclear structures segregated during cell death. 1187 1

We have characterised the Procoagulant activity (PCA) of six well-established cell lines by assays of tissue factor (TF), thrombin and FXa generation, flow cytometry using Annexin V, and by binding studies with Factors VIII and IXa. The monocytic (THP-1 & U937) and promyelocytic (NB4) cells expressed high concentrations of TF antigen and activity, whereas TF in the lymphocytic cells (Molt 4, Jurkat & Nalm 6) was very low or absent. However the T-lymphoblastoid cells (Molt 4 & Jurkat) promoted the generation of large amounts of thrombin despite their low TF content, and these cells were also the most active in supporting Factor Xa generation. Molt 4 cells bound Factors VIII and IXa with high capacity and their activity was inhibited by Annexin V. These results indicate that the PCA of T-lymphoblastoid lines is due to expression of negatively charged phospholipids. Flow cytometry studies showed Annexin V binding to the major population of nonapoptotic Molt 4 cells and the PCA of Molt 4 was not increased when apoptosis was induced by staurosporine, indicating that PCA is independent of apoptotic status.
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PMID:Procoagulant activity of T lymphoblastoid cells due to exposure of negatively charged phospholipid. 1252 68

The binding of extracellular ATP to the P2X(7) receptor opens an integral cation-permeable channel; it also leads to membrane blebbing and, in certain immune cells, interleukin-1beta secretion and eventual death. The latter three effects are unique to the P2X(7) receptor; also unique among P2X receptors is the long intracellular C terminus of the protein. We have shown that the C-terminal domain of the P2X(7) receptor is responsible for the cell blebbing phenotype. A screen for proteins that associate with the C-terminal domain of the P2X(7) receptor and might mediate the blebbing phenotype, identified epithelial membrane protein 2 (EMP-2). The interaction between EMP-2 and P2X(7) was confirmed biochemically by co-immunoprecipitation, co-purification, and glutathione S-transferase pull-down assays, and this interaction was entirely dependent on the C-terminal domain of P2X(7). The P2X(7) receptor also interacted with the other members of the epithelial membrane protein family (EMP-1, EMP-3, and PMP-22). All four EMPs were found to be expressed in HEK-293 cells and in THP-1 monocytes, which express P2X(7) receptors. Interestingly, the constitutive overexpression of any of the EMPs in HEK-293 cells led to cell blebbing, annexin V binding, and cell death, by a caspase-dependent pathway. These findings suggest that the P2X(7) C-terminal domain associates with EMPs, and this interaction may mediate some aspects of the downstream signaling following P2X(7) receptor activation.
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PMID:Epithelial membrane proteins induce membrane blebbing and interact with the P2X7 receptor C terminus. 1210 82

Ozone (O(3)), a major component of air pollution and a very strong oxidizing agent, can lead to lung injury associated with edema, inflammation, and epithelial cell damage. The ozone effects on pulmonary immune cells have been studied by various in vivo and in vitro systems. In this report, we characterized a model system of cells of monocyte/macrophage lineage (THP-1 cells) exposed to ozone in vitro by studying cell viability and cell surface marker expression. THP-1 cells exposed to ozone in concentrations ranging from 0.1 to 0.5 ppm for 1 h were analyzed for cell viability and apoptosis (Annexin V/7-Amino-actinomycin D (7-AAD) flow cytometric assay) either immediately after ozone exposure or at later time points. This analysis showed absence of apoptosis and a small decrease in cell viability (5-17%) in ozone-exposed THP-1 cells. Cell surface protein expression (CD14 and CD11b) did not change following ozone exposure, but the effect of lipopolysaccharride (LPS) on TNF-alpha production following ozone exposure changed compared to filtered air/LPS-exposed cells. These findings indicate that this in vitro ozone cell-exposure system may be used in studies where the effects of various agents (physiological and non-physiological) on phagocytic cells can be analyzed. This model system offers conditions where the experimental results are not due to cell death, but rather due to the effects of ozone and/or agents under investigation.
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PMID:An in vitro cell model system for the study of the effects of ozone and other gaseous agents on phagocytic cells. 1250 18


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