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

Annexin V is part of a family of Ca(2+)-dependent phospholipid-binding proteins, whose purported functions are related to their interactions with biological membranes. While Ca(2+)-dependent binding to phospholipids is well-established, the specific structural interactions within the phospholipid-binding sites have only been inferred to resemble those of phospholipase A2, with no direct structural evidence. In this study, the binding avidity of various phospholipid analogs, with variations at the headgroup or sn-2 acyl chain, was monitored in a C12E8 detergent micelle system using the increase in fluorescence of tryptophan 187. Micelles also contained excess negative surface charge to saturate a nonspecific component of the binding. The Ca2+ and phospholipid concentrations required for the binding of annexin V to various phospholipid headgroups were very similar, except for the relatively weak binding to phosphatidylinositol (PI). The unique close proximity of the PI sugar ring to the phosphate group may lead to steric hindrance in this case. Binding was also strongly dependent on the presence of an sn-3 phosphate group and an sn-2 acyl chain, as previously observed. The relatively shallow nature of the annexin V phospholipid-binding sites was reflected by the nearly equivalent binding of D and L versions of phospholipids, i.e., a large shift in the position of the sn-1 acyl chain is accommodated in this case. Binding of annexin V does not specifically require an ester carbonyl oxygen, as it occurs with ether-linked, amide-linked, and phosphonate-linked sn-2 hydrocarbon chains, under these conditions.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Phospholipid determinants for annexin V binding sites and the role of tryptophan 187. 818 Feb 11

Oxygen-derived free radical injury has been associated with several cytopathic conditions. Oxygen radicals produced by chondrocytes is an important mechanism by which chondrocytes induce matrix degradation. In the present study, we extend these observations by studying oxidative processes against osteoblasts. Osteoblasts were mixed in in vitro culture with 200 microM menadione. The cytotoxic effect of menadione-induced oxidative stress was monitored by lucigenin- or luminol-amplified chemiluminescence, tetrazolium assay and immunocytochemical study. Results showed that adding menadione induces an oxidative stress on osteoblasts, via superoxide and hydrogen peroxide production, that can be eradicated by superoxide dismutase (SOD) and catalase in a dose-dependent manner. Catalase and the appropriate concentration of dimethyl sulfoxide have a protective effect on cytotoxicity induced by menadione, whereas SOD does not. Menadione-treated osteoblasts have a strong affinity for annexin V, and the nuclei are strongly stained by TUNEL (TdT-mediated dUTP nick-end labelling). The results suggest that menadione-triggered production of reactive oxygen species leads to apoptosis of osteoblasts.
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PMID:Menadione-induced cytotoxicity to rat osteoblasts. 944 50

The focus of this investigation was to examine the effects of low concentrations of organic mercuric compounds on human monocyte function and to relate these effects to apoptosis. Following exposure of monocytes to 0-5 microM MeHgCl, phagocytic function and capacity to generate a respiratory burst, following PMA activation, were determined. We found that the mercury-treated cells exhibited reduced phagocytic activity. Exposure to the same mercury concentration range, also caused a marked increase in cell death. To ascertain if monocyte death was due to apoptosis, a number of flow cytometric studies were performed. Mercury-treated cells exhibited increased Hoechst 33258 fluorescence, while maintaining their ability to exclude the vital dye 7-aminoactinomycin D. Furthermore, monocytes exhibited changes in light scatter patterns that were consistent with apoptosis; these included decreased forward light scatter and increased side scatter. The percentage of cells undergoing apoptosis was dependent upon the mercury content of the medium, regardless of whether the metal was present as methyl, ethyl or phenyl mercury. Mercury-treated cells also exhibited changes in lipid organization within the plasma membrane as evidenced by increased uptake of the fluorescent probe, merocyanine 540, and by elevated annexin V binding to phosphatidylserine. Using the fluorescent probes DiOC6(3) and rhodamine 123 we noted that within 1 h of exposure to mercury, monocytes exhibited a decrease in mitochondrial transmembrane potential (psi m). Since a decreased psi m is associated with altered mitochondrial function, the hypothesis that mercury potentiated reactive oxygen species (ROS) generation and that these species promoted apoptosis was tested. We noted that treated cells generated ROS, as evidenced by oxidation of hydroethidine and the generation of the fluorescent product, ethidium. Finally, since ROS would also lower monocyte reductive reserve, we also measured GSH levels in mercury-treated cells. Chemical measurement of GSH indicated that there was thiol depletion. We suggest that the low thiol reserve predisposes cells to ROS damage and at the same time activates death-signaling pathways.
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PMID:Mercuric compounds inhibit human monocyte function by inducing apoptosis: evidence for formation of reactive oxygen species, development of mitochondrial membrane permeability transition and loss of reductive reserve. 948 23

Rat T9 glioma cells transfected with the gene for the membrane isoform of macrophage-CSF (mM-CSF) but not for the secreted isoform of M-CSF were directly killed by bone marrow-derived macrophages. Macrophage-mediated cytolysis of the mM-CSF-transfected clone was blocked by using chemical inhibitors of phagocytosis such as iodoacetate, 2-deoxyglucose, gadolinium chloride, and cytochalasin B. In contrast, macrophage-mediated killing of mM-CSF-expressing tumor cells was augmented by the microtubule inhibitor, colchicine. Use of nitric oxide and reactive oxygen intermediate inhibitors failed to alter the macrophage-mediated killing of the mM-CSF-transfected tumor cells. Photomicroscopy, using immunohistochemical staining with the anti-Hck Ab to distinguish macrophages from tumor cells, revealed that phagocytosis began within 2 h after addition of the mM-CSF-bearing tumor cells. Photocinematography confirmed that macrophages first phagocytosized and then lysed the internalized mM-CSF transfectant cells. Using annexin V and acridine orange staining techniques, macrophages phagocytosized living mM-CSF-transfected tumor cells.
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PMID:Macrophages kill T9 glioma tumor cells bearing the membrane isoform of macrophage colony stimulating factor through a phagocytosis-dependent pathway. 955 92

There is growing evidence that heavy metals, in general, and mercurial compounds, in particular, are immunotoxic to the human immune system. The major focus of our study is to demonstrate that methylmercuric chloride (MeHgCl) kills human lymphocytes by inducing apoptosis. T-cells exposed to 0.6-5 microM MeHgCl for 24 h were analyzed by flow cytometry. Methylmercury-treated cells exhibited increased Hoechst 33258 fluorescence while maintaining their ability to exclude the vital stain 7-aminoactinomycin. Furthermore, T-cells exposed to methylmercury exhibited changes in light scatter patterns that included decreased forward light scatter and increased side light scatter. The light scatter and fluorescent changes were consistent with morphological alterations displayed by cells during apoptosis. Cell death was further evaluated by assessing annexin V binding to the plasma membrane. Methylmercury-treated cells exhibited increased annexin V binding indicative of phosphatidylserine translocation to the outer leaflet of the plasma membrane. Using the fluorescent probe DiOC6(3), we noted that methylmercury exposure resulted in a decrease in mitochondrial transmembrane potential (Psim). Since a low Psim is associated with altered mitochondrial function, we also determined if exposure to methylmercury potentiated reactive oxygen species (ROS) generation. We noted that treated cells generated ROS, as evidenced by oxidation of hydroethidine and the generation of the fluorescent product, ethidium. Finally, we evaluated the effect of methylmercury on T-cell GSH content utilizing the fluorescent probe monochlorobimane; in the presence of MeHgCl, there is a marked loss in reduced cell thiols. The results of the study indicate that a key event in the induction of T-cell apoptosis by mercuric compounds is depletion in the thiol reserve which predisposes cells to ROS damage and at the same time activates death signaling pathways.
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PMID:Low-level methylmercury exposure causes human T-cells to undergo apoptosis: evidence of mitochondrial dysfunction. 960 Aug 8

This study determined the occurrence of two molecular markers of apoptosis, chromosomal DNA strand breaks and oolemma phosphatidylserine redistribution, in >200 uninseminated and unfertilized human oocytes, and >800 newly ovulated and cultured mouse oocytes. DNA breaks were analysed by terminal deoxynucleotidyl transferase-mediated dUDP nick-end labelling (TUNEL) and phosphatidylserine by annexin V staining, with imaging by conventional epifluorescence and scanning laser confocal fluorescence microscopy. More than 300 intact and 500 fragmented mouse oocytes were examined at 24 h intervals during 6 days of culture in three different types of medium. For the human, 205 oocytes were examined at retrieval or at 24 h intervals during 7.5 days of culture in two types of medium. The perifollicular vascularity and the dissolved oxygen content of follicular fluid were determined for most of the follicles from which human oocytes were derived. The results demonstrate that TUNEL fluorescence of metaphase II (MII) chromosomes and annexin V staining of the oolemma in newly ovulated and cultured mouse and human oocytes are rare, and, when detected, are not spatially or temporally related. This finding also applied to mouse oocytes that fragmented during culture and exhibited morphological features that grossly resembled apoptotic body formation. In contrast, TUNEL but not annexin V staining occurred in the first polar body of a relatively high proportion of newly ovulated mouse oocytes, but was rarely detected in newly aspirated human oocytes. For the human, the occurrence of MII chromosomal TUNEL fluorescence was patient-specific and unrelated to perifollicular vascularity or dissolved oxygen content of the corresponding follicular fluid. The pattern of chromosomal TUNEL fluorescence observed in the first polar body and in the MII chromosomes of a very small number of mouse and human oocytes, especially after many days of culture, suggests that DNA strand breaks may not arise by apoptosis-associated endonuclease digestion. The results with these two markers suggest that it is premature to conclude that apoptosis occurs in ovulated oocytes or that such a mechanism is involved in the elimination or prevention of fertilization of oocytes with cytoplasmic or chromosomal defects.
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PMID:DNA strand breaks and phosphatidylserine redistribution in newly ovulated and cultured mouse and human oocytes: occurrence and relationship to apoptosis. 964 66

Transition metal complexes containing vanadium IV have been shown to modulate the cellular redox potential and catalyse the generation of reactive oxygen intermediates (ROI). Since sperm function is exquisitely susceptible to ROI, we examined the effects of stable chelate complexes of vanadocenes on human sperm motility. We synthesized seven structurally distinct chelate complexes of bis(cyclopentadienyl)vanadium(IV) with bidentate ligands [i.e. vanadocene acetylacetonato monotriflate (VDacac), vanadocene hexafluoro acetylacetonato monotriflate (VDHfacac), vanadocene N-phenyl benzohydroxamato monotriflate (VDPH), vanadocene acethydroxamato monotriflate (VDH), vanadocene catecholate (VDCAT), vanadocene bipyridino ditriflate (VDBPY), and vanadocene dithiocarbamate monotriflate (VDDTC)], and evaluated their spermicidal activity using computer-assisted sperm analysis (CASA; Hamilton-Thorne). All seven chelate complexes of vanadocene elicited potent spermicidal activity at micromolar concentrations (EC50 values: 3.9-106 microM) without affecting the sperm acrosome integrity. The catecholate and acetylacetonate complexes of vanadocene were the most active and the bipyridyl complex the least active with an order of efficacy VDCAT > VDacac > VDDTC > VDPH > VDH > VDHfacac > VDBPY. The spermicidal activity of chelate complexes of vanadocenes was rapid and irreversible since the treated spermatozoa underwent apoptosis, as determined by the flow cytometric analysis of mitochondrial membrane potential, surface annexin V binding assay, in-situ nick-end labelling of sperm nuclei, and confocal laser scanning microscopy. These results provide unprecedented evidence that chelate complexes of vanadocene with bidentate ligands have spermicidal and apoptosis inducing properties. These vanadocene complexes, especially VDacac, may be useful as contraceptive agents.
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PMID:Spermicidal activity of chelated complexes of bis(cyclopentadienyl)vanadium(IV). 970 91

The formation of reactive oxygen species has been associated with apoptosis. To assess the role of lipid peroxidation in apoptosis, we used 2,2'-azobis(2,4-dimethylisovaleronitrile) (AMVN) to generate peroxyl radicals within cellular membranes of HL-60 cells. cis-Parinaric acid (cis-PnA) metabolically integrated into phospholipids of HL-60 cells was used as a probe to assess the extent of lipid peroxidation within specific phospholipid classes. Within 2 h, AMVN (500 microM) randomly oxidized more than 85% of cis-PnA contained in all major classes of phospholipids. AMVN-induced lipid peroxidation was followed by apoptosis as determined by nuclear condensation, DNA fragmentation, and annexin V binding to externalized phosphatidylserine (PS). Fluorescamine derivatization of external aminophospholipids revealed that PS, but not phosphatidylethanolamine, was externalized. The vitamin E analogue, 6-hydroxy-2,2,5,7,8-pentamethylchromane (PMC), inhibited overall oxidation of cis-PnA in phospholipids by more than 85%. Not all phospholipids, however, were equally protected. Phosphatidylcholine, phosphatidylethanolamine, phosphatidylinositol, and sphingomyelin were nearly completely protected by PMC, while oxidation of PS was unaffected in whole living cells. The insensitivity of PS to PMC was not an intrinsic property because PMC protected all lipids equally during AMVN oxidation of liposomes prepared from cis-PnA-labeled cells. The potential role for PS oxidation in apoptosis was further suggested by the faithful execution of apoptosis following coexposure of cells to AMVN and PMC.
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PMID:Random versus selective membrane phospholipid oxidation in apoptosis: role of phosphatidylserine. 975 67

Glucose-dependent energy required for glioma metabolism depends on hexokinase, which is mainly bound to mitochondria. A decrease in intracellular pH leads to a release of hexokinase-binding, which in turn decreases glucose phosphorylation, ATP content, and cell proliferation. Thus, intracellular pH might be a target for therapy of gliomas, and a search for agents able to modulate intracellular pH was initiated. Hypericin, a natural photosensitizer, displays numerous biological activities when exposed to light. Its mechanism and site of action at the cellular level remain unclear, but it probably acts by a type II oxygen-dependent photosensitization mechanism producing singlet oxygen. Hypericin is also able to induce a photogenerated intracellular pH drop, which could constitute an alternative mechanism of hypericin action. In human glioma cells treated for 1 h with 2.5 microg/ml hypericin, light exposure induced a fall in intracellular pH. In these conditions, mitochondria-bound hexokinase was inhibited in a light- and dose-dependent manner, associated with a decreased ATP content, a decrease of mitochondrial transmembrane potential, and a depletion of intracellular glutathione. Hexokinase protein was effectively released from mitochondria, as measured by an ELISA using a specific anti-hexokinase antibody. In addition to decreased glutathione, a response to oxidative stress was confirmed by the concomitant increase in mRNA expression of gamma-glutamyl cysteine synthetase, which catalyzes the rate-limiting step in overall glutathione biosynthesis, and is subject to feedback regulation by glutathione. Hypericin also induced a dose- and light-dependent inhibition of [3H]thymidine uptake and induced apoptosis, as demonstrated by annexin V-FITC binding and cell morphology. This study confirmed the mitochondria as a primary target of photodynamic action. The multifaceted action of hypericin involves the alteration of mitochondria-bound hexokinase, initiating a cascade of events that converge to alter the energy metabolism of glioma cells and their survival. In view of the complex mechanism of action of hypericin, further exploration is warranted in a perspective of its clinical application as a potential phototoxic agent in the treatment of glioma tumors.
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PMID:Light-induced photoactivation of hypericin affects the energy metabolism of human glioma cells by inhibiting hexokinase bound to mitochondria. 986 36

The major objective of our study was to define the mechanism by which mercuric chloride (HgCl2) induces human T-cell death. Human peripheral blood T-cells were exposed to 0-40 microm HgCl2 and then analyzed for biochemical and molecular features of T-cell apoptosis. HgCl2-treated cells exhibited increased Hoechst 33258 fluorescence while maintaining their ability to exclude the vital stain 7-aminoactinomycin D. To further evaluate cell death and distinguish between apoptosis and necrosis, translocation of phosphatidylserine to the outer layer of the plasma membrane (annexin V binding), DNA fragmentation (TUNEL assay), and cleavage of poly (ADP-ribose) polymerase (PARP) were assessed. In the presence of 20-40 microm HgCl2, T-cells exhibited increased annexin V binding (28%) and DNA fragmentation (31%). HgCl2-dependent PARP cleavage was also observed by Western blot analysis. Because degradative changes associated with apoptosis are often preceded by disruption of mitochondrial function, HgCl2-treated cells were assessed for disruption of the mitochondrial transmembrane potential (DeltaPsim) and development of the mitochondrial permeability transition state. Using DiOC6(3), we demonstrated that HgCl2 exposure resulted in a decrease in the DeltaPsim. Because a decline in DeltaPsim can disturb the intracellular pH (pHi), we used the fluorescent probe, SNARF-1, to assess intracellular acidification. Treatment of T-cells with HgCl2 resulted in reduced pHi from 7.0 to 6.7. Concomitant with these observations, the fluorescent probe, hydroethidine, was utilized to demonstrate that uncoupled mitochondrial electron transport resulted in increased reactive oxygen species (ROS) generation. Interestingly, in spite of these alterations to mitochondrial function, translocation of cytochrome c to the cytosol was not detected; this correlated with enhanced bcl-2 levels in HgCl2-treated cells. In conclusion, HgCl2 exposure results in oxidative stress and activation of death signaling pathways leading to apoptosis. Collectively, our studies indicate that individual mercurial species are capable of inducing T-cell death by activating specific apoptotic cascades.
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PMID:Mercuric chloride induces apoptosis in human T lymphocytes: evidence of mitochondrial dysfunction. 987 95


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