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

Apoptosis of mammalian cells is accompanied by various morphological changes including nuclear condensation, DNA fragmentation and cell surface changes. Methods developed over the past few years have focused on detection of DNA-associated changes that occur rather late in apoptosis. However, detection of apoptosis at early stages, before gross morphological changes, is critical for understanding the pathways of programmed cell death. In this report, we describe a rapid and reliable assay for detecting early stages of apoptosis. This assay is based on the observation that soon after initiating apoptosis, most mammalian cell types translocate phosphatidylserine (PS) from the inner face of the plasma membrane to the cell surface. Once on the cell surface, PS can be specifically detected by staining with fluorescein isothiocyanate (FITC)-labeled annexin V (annexin V-FITC), a protein with a strong, natural affinity for PS. Using this assay, we have detected apoptotic cells in culture, in real time, using fluorescence microscopy and flow cytometry. In combination with vital dye staining, the progressive stages of apoptosis were observed. PS redistribution occurs earlier than DNA-associated changes and membrane leakage. In addition, PS externalization occurs during apoptosis induced by a variety of stimuli. Therefore, the annexin V binding assay provides an excellent indicator for the early stages of apoptosis.
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PMID:Early detection of apoptosis using a fluorescent conjugate of annexin V. 929 27

An early indicator of apoptosis in mammalian cells is the loss of the phospholipid membrane asymmetry of the cell. This results in exposure of phosphatidylserine on the outer surface of the plasma membrane. This change in membrane asymmetry can be analysed using annexin V. A further feature of apoptosis, DNA breaks, can be measured by the TUNEL assay. Using flow cytometry, we have identified both of these features in HL-60 cells and by modifying the techniques for plants, we have verified that these features also occur in plant cells undergoing apoptosis. In both plant and HL-60 cells, apoptosis was induced by treatment with camptothecin (1 microM). Annexin V binding was found to be an early indicator of apoptosis, occurring prior to the detection of DNA strand breaks as monitored by the TUNEL assay. In plant cells, chromatin condensation was detected prior to the detection of annexin V. No loss in membrane integrity occurred with apoptotic cells in comparison with necrotic cells. Our findings indicate that a form of apoptosis occurs in plants, with flow cytometric characteristics similar to those of apoptosis in HL-60 cells.
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PMID:Annexin-V and TUNEL use in monitoring the progression of apoptosis in plants. 929 8

Various pathogenic bacteria with the capacity to live within eukaryotic cells activate an apoptotic program in infected host cells. Induction of apoptosis by Listeria monocytogenes in murine dendritic cells and hepatocytes has been described. Here we address the questions of whether and how the pathogen kills macrophages, its most important habitat. Employing several complementary techniques aimed at discriminating between apoptosis and necrosis, we show that murine bone marrow-derived macrophages (BMM) undergo delayed necrosis but not apoptosis when infected with listeriolysin (Hly)-producing L. monocytogenes. This pathogen failed to elicit apoptotic morphology, DNA fragmentation, and surface annexin V binding of macrophages, in contrast to Shigella flexneri infection or gliotoxin treatment, which were used as positive controls. Furthermore, macrophages infected with L. monocytogenes released lower quantities of interleukin-1beta (IL-1beta) than did Shigella flexneri-infected ones, indicating diminished or even absent activation of IL-1-converting enzyme in macrophages harboring L. monocytogenes. We conclude that murine BMM die by necrosis after several hours of cytoplasmic replication of L. monocytogenes. The pathogen may benefit from this feature by the possibility of taking advantage of cells of "pseudo-healthy" appearance, thus avoiding rapid elimination by other phagocytes.
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PMID:The mechanism of cell death in Listeria monocytogenes-infected murine macrophages is distinct from apoptosis. 931 10

Bacterial products such as LPS have been shown to activate monocytes and to increase CD14 expression, while anti-inflammatory cytokines, i.e., IL-4, down-regulate CD14. Furthermore, activation of monocytes increases survival, whereas deactivation evokes apoptosis (programmed cell death, PCD). This correlation among activation, CD14 expression, and the lifespan of the cells prompted us to investigate the role of CD14 in monocyte apoptosis. The effects of LPS and IL-4 on the expression of CD14, indicated by binding of Leu M3 Ab, and PCD of monocytes were studied simultaneously and in a kinetic fashion by multiparameter flow cytometry. Monocyte PCD was determined by binding of FITC-conjugated annexin V, which indicates apoptotic cell death in early stages, and was confirmed using well-established detection methods, i.e., DNA electrophoresis, electron microscopy, or colorimetric DNA staining. The present study shows that the LPS-induced increase in CD14 expression rescued monocytes from apoptosis, whereas IL-4 treatment first down-regulated CD14 expression and consecutively evoked apoptosis. CD14-/annexin V- monocytes were not apoptotic as confirmed by DNA electrophoresis, whereas CD14-/ annexin V+ monocytes showed clear apoptotic features. Kinetic studies ruled out that monocytes first bound annexin V and later lost the CD14 Ag. Other molecules, such as HLA-A, -B, and -C Ags, were not down-regulated during apoptosis. Enzymatic removal of membrane-bound CD14 by phosphatidylinositol-specific phospholipase C evoked PCD similarly to IL-4. These results suggest that regulation of CD14 receptor expression is an early effector mechanism mediating life or death of monocytes. Down-regulation or removal of the receptor triggers apoptosis, whereas up-regulation promotes survival.
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PMID:Regulation of human monocyte apoptosis by the CD14 molecule. 931 15

Phosphatidylserine (PS), ordinarily sequestered in the plasma membrane inner leaflet, appears in the outer leaflet during apoptosis, where it triggers non-inflammatory phagocytic recognition of the apoptotic cell. The mechanism of PS appearance during apoptosis is not well understood but has been associated with loss of aminophospholipid translocase activity and nonspecific flip-flop of phospholipids of various classes. The human leukemic cell line HL-60, the T cell line Jurkat, and peripheral blood neutrophils, undergoing apoptosis induced either with UV irradiation or anti-Fas antibody, were probed in the cytofluorograph for (i) surface PS using fluorescein isothiocyanate-labeled annexin V, (ii) PS uptake by the aminophospholipid translocase using [6-[(7-nitrobenz-2-oxa-1,3-diazol-4-yl)amino] caproyl] (NBD)-labeled PS, (iii) nonspecific uptake of phospholipids (as a measure of transbilayer flip-flop) using NBD-labeled phosphatidylcholine, and (iv) the appearance of hypodiploid DNA. In all three types of cells undergoing apoptosis, the appearance of PS followed loss of aminophospholipid translocase and was accompanied by nonspecific phospholipid flip-flop. Importantly, however, in the absence of extracellular calcium, the appearance of PS was completely inhibited despite DNA fragmentation and loss of aminophospholipid translocase activity, the latter demonstrating that loss of the translocase is insufficient for PS appearance during apoptosis. Furthermore, while both the appearance of PS and nonspecific phospholipid uptake demonstrated identical extracellular calcium requirements with an ED50 of nearly 100 microM, the magnitude of PS appearance depended on the level of aminophospholipid translocase activity. Taken together, the data strongly suggest that while nonspecific flip-flop is the driving event for PS appearance in the plasma membrane outer leaflet, aminophospholipid translocase activity ultimately modulates its appearance.
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PMID:Appearance of phosphatidylserine on apoptotic cells requires calcium-mediated nonspecific flip-flop and is enhanced by loss of the aminophospholipid translocase. 933 82

A Saccharomyces cerevisiae mutant in cell division cycle gene CDC48 shows typical markers of apoptosis: membrane staining with annexin V, indicating an exposure of phosphatidylserine at the outer layer of the cytoplasmic membrane; intense staining, using the terminal deoxynucleotidyl transferase-mediated dUTP nick end labeling method, indicating DNA fragmentation; and chromatin condensation and fragmentation. The coordinate occurrence of these events at different locations in the cell, which have no obvious connection except their relation to apoptosis, implies the presence of the molecular machinery performing the basic steps of apoptosis already in yeast. Saccharomyces cerevisiae may prove a suitable model to trace the roots of apoptosis.
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PMID:A yeast mutant showing diagnostic markers of early and late apoptosis. 934 89

Annexin V is a Ca(++)-binding protein which is widely used as a marker for apoptotic cells, as it binds to the phosphatidylserine residues exposed at the surface of apoptotic cells. In this paper, we describe a method for the immunogold-labeling of biotin-conjugated Annexin V, to detect apoptotic thymocytes at electron microscopy. Etoposide-treated thymocytes were reacted in tissue culture medium with biotin-conjugated Annexin V, fixed with glutaraldehyde, and processed for resin embedding; thin sections were incubated with antibiotin antibodies coupled with colloidal gold. Cytometric estimates of the apoptotic index were also performed by evaluating either the DNA content after propidium iodide staining or the light-scattering values, as well as the positivity for fluorescein isothiocyanate-conjugated anti-biotin antibodies. At electron microscopy, gold-labeling of Annexin V was located on the plasma membrane only of apoptotic thymocytes and on cytoplasmic debris, likely resulting from the typical apoptotic blebbing. Unlabeled thymocytes always showed normal, non-apoptotic nuclear morphology. The application of Annexin V labeling at electron microscopy will allow a more refined description of the morphological events occurring during apoptosis.
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PMID:Detection of apoptotic cells by annexin V labeling at electron microscopy. 935 32

Tumor necrosis factor-alpha (TNF-alpha) production by adipocytes is elevated in obesity, as shown by increased adipose tissue TNF-alpha mRNA and protein levels and by increased circulating concentrations of the cytokine. Furthermore, TNF-alpha has distinct effects on adipose tissue including induction of insulin resistance, induction of leptin production, stimulation of lipolysis, suppression of lipogenesis, induction of adipocyte dedifferentiation, and impairment of preadipocyte differentiation in vitro. Taken together, these effects all tend to decrease adipocyte volume and number and suggest a role for TNF-alpha in limiting increase in fat mass. The aim of the present study was to determine if TNF-alpha could induce apoptosis in human adipose cells, hence delineating another mechanism by which the cytokine could act to limit the development of, or extent of, obesity. Cultured human preadipocytes and mature adipocytes in explant cultures were exposed in vitro to human TNF-alpha at varying concentrations for up to 24 h. Apoptosis was assessed using morphological (histology, nuclear morphology following acridine orange staining, electron microscopy) and biochemical (demonstration of internucleosomal DNA cleavage by gel electrophoresis and of annexin V staining using immunocytochemistry) criteria. In control cultures, apoptotic indexes were between 0 and 2.3% in all experiments. In the experimental systems, TNF-alpha induced apoptosis in both preadipocytes and adipocytes, with indexes between 5 and 25%. Therefore, TNF-alpha induces apoptosis of human preadipocytes and adipocytes in vitro. In view of the major metabolic role of TNF-alpha in human adipose tissue, and the knowledge that adipose tissue is dynamic (with cell acquisition via preadipocyte replication/differentiation and cell loss via apoptosis), these findings describe a further mechanism whereby adipose tissue mass may be modified by TNF-alpha.
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PMID:Tumor necrosis factor-alpha induces apoptosis of human adipose cells. 939 77

A recently described mitochondrial membrane protein-specific monoclonal antibody, APO2.7, was examined for monitoring early apoptotic responses in anti-CD95 (7C11)-induced Jurkat cells. Jurkat cells were harvested at 1.5, 3, 4.5, 6, 12, and 18 h after induction of apoptosis, and APO2.7 antibody monitored in unprocessed (no permeabilization agent used prior to staining) and processed (permeabilized prior to staining) cells. Light-scatter changes (decreased forward-scatter and increased side-scatter) by flow cytometry were observed after 3 h, and detection of cell permeability in unprocessed cells, as measured by light microscopic examination of Trypan blue-stained cells and flow cytometric detection of tubulin, showed little change until after 6 h. In addition, unprocessed cells stained with APO2.7 antibody showed little increase in staining until after 6 h following induction of apoptosis, when DNA fragmentation was demonstrated by flow cytometry and gel electrophoresis; however, processed cells stained with APO2.7 antibody showed significant increase in staining after 1.5 h. Detection, using annexin V and flow cytometry, of phospholipid membrane asymmetry from exposure of phosphatidylserine showed greater, apparent nonspecific staining in noninduced cells as compared to the other markers of apoptosis, but nearly paralleled the results of APO2.7 staining in processed cells from 3-18 h following CD95 induction of apoptosis. The data presented herein indicate that the mitochondrial membrane protein-specific antibody, APO2.7, is useful as a marker for the detection of apoptotic cells.
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PMID:Monitoring early cellular responses in apoptosis is aided by the mitochondrial membrane protein-specific monoclonal antibody APO2.7. 941 13

Apoptosis is of paramount importance during embryonic development. This insight stems from early studies which correlated cell death to normal developmental processes and now has been confirmed by linking aberrant cell death patterns to aberrant development. Linking apoptosis to the phenotype of a developing organism requires spatial information on the localization of the dying cells, making in situ detection essential This prerequisite limits the tools available for such studies (1) to vital dyes, which can be detected at the whole mount level only; (2) to detection based upon apoptotic morphology by routine light microscopy and electron microscopy; and (3) to staining for apoptosis associated DNA fragmentation via, e.g., the TUNEL procedure, which marks cells in a relative late phase of apoptosis. New apoptosis markers need to be specific and should preferably detect cells early during this process. In the present study we show that the recently discovered in vitro marker of apoptosis, Annexin V meets these requirements for in vivo detection. Through intracardiac injections of biotin labeled Annexin V, a Ca2+ dependent phosphatidylserine binding protein, we were able to visualize apoptotic cells derived from each germ layer in the developing mouse embryo from the whole mount level up to the ultrastructural level. Double-labeling on paraffin sections for both this method and TUNEL revealed that cells become Annexin V-biotin labeled early during the process of apoptosis.
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PMID:In situ detection of apoptosis during embryogenesis with annexin V: from whole mount to ultrastructure. 941 14


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