UNIPROT:P08758 - FACTA Search

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

Astrocytes are highly coupled by gap junction channels, which allow transfer of intracellular signalling molecules and metabolites between connected cells. Astrocytic gap junctions remain open during ischemic conditions as previously demonstrated in vitro and in situ. In this study, we investigated the effect of gap junction blockage on iodoacetate-induced ATP depression and cell death progression in astrocytes in primary rat hippocampal cultures. We demonstrated that blockage of gap junctions during iodoacetate-induced inhibition of the glycolysis induced an earlier onset of the ATP depression. Moreover, initiation of apoptotic processes, demonstrated by binding of Annexin V, was critically dependent on the ATP levels. The apoptotic event was also shown to spread and involve neighbouring cells, a process that was inhibited by blockage of gap junction communication. Chelating intracellular calcium using BAPTA-AM decelerated the iodoacetate-induced ATP depression. The chelation also decelerated the spreading of apoptotic processes. Inhibition of caspases did not alter the expansion of cell groups being Annexin V positive. However, the proportion of Annexin V positive cells also being propidium iodide positive was increased after caspase inhibition. The results show that inhibition of gap junctions during cellular metabolic depression interferes with the metabolic status and cell death progression in astrocytes.
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PMID:Gap junction blockage limits intercellular spreading of astrocytic apoptosis induced by metabolic depression. 1609 48

The cytotoxic effect of adenylate cyclase (AC) toxin from Bordetella pertussis on host cells has been attributed to the production of supraphysiologic levels of cyclic AMP by the toxin. We have tested this hypothesis and show that at least two different mechanisms, cAMP accumulation/ATP depletion and oligomerization/pore formation, contribute, perhaps synergistically, to AC toxin-induced cytotoxicity. Wild-type (WT) AC toxin causes cell death associated with an increase in cAMP, a reduction in ATP, activation of caspases 3/7, and increased annexin V and TUNEL staining. In contrast, a non-acylated, enzymatically active, non-haemolytic form of AC toxin is able to increase cAMP, reduce ATP and elicit annexin V staining, but the decrease in ATP and the annexin staining are transient and there is minimal caspase activation, TUNEL staining and cell death. Mutant AC toxins defective in either enzymatic activity or the ability to deliver their enzymatic domain are able to kill J774 cells, without cAMP production, and with minimal caspase activation and TUNEL staining. Comparison of the potencies of WT toxin and those of mutants that only increase cAMP or only create transmembrane pores establishes that at least two mechanisms are contributory and that simply the production of cAMP is not enough to account for the cytotoxicity produced by AC toxin.
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PMID:Macrophage cytotoxicity produced by adenylate cyclase toxin from Bordetella pertussis: more than just making cyclic AMP! 1639 Apr 41

Apoptosis and necrosis are considered as conceptually distinct forms of cell death. Nevertheless, there is increasing evidence that classical apoptosis and necrosis represent only the extreme ends of a wide range of possible morphological and biochemical deaths. The two classical types of demise can occur simultaneously in tissues or cell cultures exposed to the same stimulus, and often the intensity of the same initial insult decides the prevalence of either apoptosis or necrosis. This suggests that, while some early events may be common to both types of cell death, a downstream controller may be required to direct cells towards the organised execution of apoptosis. We have recently shown that intracellular energy levels and mitochondrial function are rapidly compromised in necrosis, but not in apoptosis of neuronal cells. Then, we went on to show that pre-emptying human T cells of ATP switches the type of demise caused by two classic apoptotic triggers (staurosporin and CD95 stimulation) from apoptosis to necrosis. Conditions of controlled intracellular ATP depletion, which was obtained by blocking mitochondrial and/or glycolytic ATP generation, were used in combination with repletion of the cytosolic ATP pool with glucose to redirect the death program towards apoptosis or necrosis. At least two distinct steps, the typical nuclear degradation, and the expression of annexin V-recognisable determinants on the cell surface require sufficient ATP generation. This suggests that some upstream regulators of cell death may be common to both types of cell demise, whereas yet unknown downstream processes decide its shape and the implications for the neighbouring tissue.
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PMID:Energy supply and the shape of death in neurons and lymphoid cells. 1646 62

The mitochondrial pathway of swine influenza virus (SIV)-induced apoptosis was investigated using porcine kidney (PK-15) cells, swine testicle (ST) cells, and HeLa cervical carcinoma cells which are known not to support viral replication. As judged by cell morphology, annexin V staining, and DNA fragmentation, PK-15 and ST cells infected with three different subtypes of SIV (H1N1, H3N2, and H1N2) were obviously killed by apoptosis, not necrosis. SIV infection in PK-15 and HeLa cells was shown to decrease the cellular levels of Bcl-2 protein compared to that of mock-infected control cells at 24 h post-infection, whereas expression levels of Bax protein increased in the PK-15 cells, but did not increase in HeLa cells by SIV infection. Cytochrome c upregulation was also observed in cytosolic fractions of the PK-15 and HeLa cells infected with SIV. Apoptosome (a multi-protein complex consisting of cytochrome c, Apaf-1, caspase-9, and ATP) formation was confirmed by immunoprecipitation using cytochrome c antibody. Furthermore, SIV infection increased the cellular levels of TAJ, an activator of the JNK- stressing pathway, and the c-Jun protein in the PK-15 and HeLa cells. Taken together, these results suggest that the mitochondrial pathway should be implicated in the apoptosis of PK-15 cells induced by SIV infection.
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PMID:Activation of the intrinsic mitochondrial apoptotic pathway in swine influenza virus-mediated cell death. 1652 May 48

Folliculogenesis modulation via distinct neurotransmitters is a well-documented phenomenon. Intraovarian purinergic signaling mechanisms have been identified previously in different species. However, the molecular elements involved and the physiological role of this purinergic signaling remain to be elucidated. Here, studies using RT-PCR amplification, immunoblotting, and immunofluorescence microscopy showed that murine and porcine ovaries express the P2X7 subtype receptor, a cationic receptor-channel operated by ATP. Using immunofluorescence it was demonstrated that P2X7 protein expression, in both mouse and pig, occurs specifically in the theca cells from antral follicles. Isolated porcine theca cells maintained in primary cultures and tested with 1 mM ATP or 250 microM Bz-ATP, a specific agonist of P2X7, responded with an increase in intracellular calcium concentration, as demonstrated in cells loaded with fluo-4 as calcium indicator. This strongly suggested that P2X7 receptors in theca cells are functional. Moreover, application for 24 hr of 1 mM ATP or 250 microM Bz-ATP induced apoptotic cell death as indicated by the DNA fragmentation pattern, positive TUNEL test, and annexin V binding. This ATP effect was antagonized by 300 microM PPADS and 200 microM oxidized ATP. Also, addition of 5 mM EGTA in the external medium to chelate free Ca++ decreased death cell to 24% of that produced by 200 microM Bz-ATP, suggesting that Ca++ influx participates in the phenomenon. The highly specific and functional expression of P2X7 receptors in theca cells suggest a role for ATP in modulating follicular physiology.
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PMID:ATP-induced apoptotic cell death in porcine ovarian theca cells through P2X7 receptor activation. 1654 51

Type 1 diabetes results from islet beta-cell death and dysfunction induced by an autoimmune mechanism. Proinflammatory cytokines such as interleukin-1beta and gamma-interferon are mediators of this beta-cell cytotoxicity, but the mechanism by which damage occurs is not well understood. In the current study, we present multiple lines of evidence supporting the conclusion that cytokine-induced killing of rat beta-cells occurs predominantly by a nonapoptotic mechanism, including the following: 1) A rat beta-cell line selected for resistance to cytokine-induced cytotoxicity (833/15) is equally sensitive to killing by the apoptosis-inducing agents camptothecin and etoposide as a cytokine-sensitive cell line (832/13). 2) Overexpression of a constitutively active form of the antiapoptotic protein kinase Akt1 in 832/13 cells provides significant protection against cell killing induced by camptothecin and etoposide but no protection against cytokine-mediated damage. 3) Small interfering RNA-mediated suppression of the proapoptotic protein Bax enhances viability of 832/13 cells upon exposure to the known apoptosis-inducing drugs but not the inflammatory cytokines. 4) Exposure of primary rat islets or 832/13 cells to the inflammatory cytokines causes cell death as evidenced by the release of adenylate kinase activity into the cell medium, with no attendant increase in caspase 3 activation or annexin V staining. In contrast, camptothecin- and etoposide-induced killing is associated with robust increases in caspase 3 activation and annexin V staining. 5) Camptothecin increases cellular ATP levels, whereas inflammatory cytokines lower ATP levels in both beta-cell lines and primary islets. We conclude that proinflammatory cytokines cause beta-cell cytotoxicity primarily through a nonapoptotic mechanism linked to a decline in ATP levels.
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PMID:Pro- and antiapoptotic proteins regulate apoptosis but do not protect against cytokine-mediated cytotoxicity in rat islets and beta-cell lines. 1664 97

Protein kinase C (PKC) plays a critical role in diseases such as cancer, stroke, and cardiac ischemia, and participates in a variety of signal transduction pathways such as apoptosis, cell proliferation, and tumor suppression. Though much is known about PKC downstream signaling events, the mechanisms of regulation of PKC activation and subsequent translocation have not been elucidated. Protein-protein interactions regulate and determine the specificity of many cellular signaling events. Such a specific protein-protein interaction is described here between deltaPKC and annexin V. We demonstrate, at physiologically relevant conditions, that a transient interaction between annexin V and deltaPKC occurs in cells after deltaPKC stimulation, but before deltaPKC translocates to the particulate fraction. Evidence of deltaPKC-annexin V binding is provided also by FRET and by in vitro binding studies. Dissociation of the deltaPKC-annexin V complex requires ATP and microtubule integrity. Furthermore, depletion of endogenous annexin V, but not annexin IV, with siRNA inhibits deltaPKC translocation following PKC stimulation. A rationally designed eight amino acid peptide, corresponding to the interaction site for deltaPKC on annexin V, inhibits deltaPKC translocation and deltaPKC-mediated function as evidenced by its protective effect in a model of myocardial infarction. Our data indicate that translocation of deltaPKC is not simply a diffusion-driven process, but is instead a multi-step event regulated by protein-protein interactions. We show that following cell activation, deltaPKC-annexin V binding is a transient and an essential step in the function of deltaPKC, thus identifying a new role for annexin V in PKC signaling and a new step in PKC activation.
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PMID:Protein kinase C delta (deltaPKC)-annexin V interaction: a required step in deltaPKC translocation and function. 1678 26

Activating mitochondrial ATP-sensitive potassium (mitoK(ATP)) channels is a critical event of pharmacological preconditioning, which can enhance neuronal ability against various insults. mitoK(ATP) channels are abundant in neurons and can be selectively opened by diazoxide (DZ). The aim of this study was to determine whether DZ could restrain neuronal apoptosis induced by anoxia-reoxygenation and to reveal the effect of DZ preconditioning on the expressions of Bcl-2 and Bax proteins in cultured hippocampal neurons. Cultured for 9~10 d in vitro, the hippocampal neurons of Sprague-Dawley rats were assigned to the following 5 groups randomly: Control, DZ 0 mumol/L, DZ 30 mumol/L, DZ 100 mumol/L, DZ 100 mumol/L+5-hydroxydecanoate (5-HD, a selective mitoK(ATP) channel blocker) 100 mumol/L. Prior to oxygen deprivation, the hippocampal neurons except those in the control group were treated with DZ or DZ+5-HD for 1 h per day and this treatment persisted for 3 d. Thereafter, neurons were subjected to anoxia for 4 h and followed by reoxygenation. At 24 h of reoxygenation the neuronal survival rates were measured by MTT method, while the apoptotic rates were assayed by annexin V-FITC staining. The expressions of Bcl-2 and Bax proteins were detected with immunocytochemistry and evaluated by Western blot. Anoxia-reoxygenation injury reduced the survival rates and increased apoptotic rates significantly. In comparison with those in other groups, the survival rate in DZ 100 mumol/L group was increased by about 15%, whereas the apoptotic rate was decreased by almost 12% simultaneously. 5-HD could abolish the neuroprotection afforded by 100 mumol/L DZ. Bcl-2 and Bax proteins in the control normoxic neurons were both expressed slightly, while anoxia-reoxygenation led to high expression of Bax protein. The administration of 100 mumol/L DZ enhanced the expression of Bcl-2 protein by nearly 60%, whereas Bax protein was reduced by approximately 30%. Lower concentrations of DZ had no detectable effects on the expressions of Bcl-2 and Bax proteins. However, beneficial effects of DZ on the expressions of Bcl-2 and Bax proteins were reversed after the co-treatment with 5-HD. In conclusion, 100 mumol/L DZ prevented cultured hippocampal neurons from apoptosis induced by anoxia-reoxygenation possibly through up-regulating the expression of Bcl-2 protein and down-regulating the expression of Bax protein.
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PMID:Diazoxide preconditioning alleviates apoptosis of hippocampal neurons induced by anoxia-reoxygenation in vitro through up-regulation of Bcl-2/Bax protein ratio. 1690 35

Side effects of cyclosporine treatment include anemia. Most recent studies have found that anemia may be caused by triggering of suicidal erythrocyte death (eryptosis), i.e. activation of an erythrocyte scramblase and phosphatidylserine exposure at the erythrocyte surface. Phosphatidylserine exposing cells are rapidly cleared from circulating blood by phagocytosis. Stimulators of erythrocyte membrane scrambling include cytosolic Ca(2+) and ceramide, which are increased by entry through Ca2+-permeable cation channels and by activation of a sphingomyelinase, respectively. The present study has been performed to test for an effect of cyclosporine on eryptosis. Erythrocytes from healthy volunteers were exposed to cyclosporine, and phosphatidylserine exposure (annexin V binding), cell volume (forward scatter), cytosolic Ca2+ activity (Fluo3-dependent fluorescence), ceramide formation (anti-ceramide-FITC antibody), and 45Ca2+ uptake were determined by flow cytometry and tracer flux measurements, respectively. Exposure of erythrocytes to cyclosporine triggered annexin V binding and significantly enhanced the increased annexin V binding both following glucose depletion and after hyperosmotic or isotonic cell shrinkage. However, cyclosporine significantly decreased cytosolic Ca2+ activity and did not stimulate 45Ca2+ uptake. Instead, cyclosporine transiently stimulated ceramide formation, decreased the cytosolic ATP concentration and potentiated the decline of cytosolic ATP concentration following glucose depletion. Elevated ceramide levels and ATP depletion, in turn, sensitize the erythrocytes for the eryptotic effects of Ca2+. The present observations may provide a mechanistic explanation for the anemia following treatment with this important immunosuppressive drug.
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PMID:Induction of eryptosis by cyclosporine. 1701 14

This study determined the roles of Ca2+-independent PLA2 (iPLA2) in phospholipid chemistry and oxidant-induced cell death in human astrocytes. A172 cells expressed both cytosolic Group VIA (iPLA2beta) and microsomal Group VIB (iPLA2gamma) PLA2 as determined by activity assays and immunoblot analysis. Inhibition of total iPLA2 activity using racemic bromoenol lactone (BEL, 2.5 microM) decreased the expression of 14:0-16:0 phosphatidylcholine (PtdCho) 15% and increased 18:0-18:1-PtdCho expression 15%. Treatment of cells with the iPLA2gamma specific inhibitor R-BEL decreased 14:0-16:0-PtdCho 35%, 16:0-16:0-PtdCho 15% and induced a 35% increase in 18:0-18:1-PtdCho. In contrast, treatment of cells with the iPLA2beta inhibitor S-BEL did not alter any phospholipid studied. To determine the roles of iPLA2 in oxidant-induced cell death, A172 cells were exposed to hydrogen peroxide (H2O2) or tert-butylhydroperoxide (TBHP); both induced time- and concentration-dependent increases in cell death as assessed by annexin V and propidium iodide staining. Treatment of cells with racemic-BEL alone did not induce cell death. However, pretreatment with BEL prior to H2O2 (500 microM) or TBHP (200 microM) significantly increased necrosis as determined by increases in propidium iodide staining. Treatment with BEL prior to exposure to oxidants accelerated the loss of ATP levels, but not the formation of reactive oxygen species. These data support the hypothesis that iPLA2 mediates oxidant-induced neural cell death and demonstrates differential roles of iPLA2 isoforms in physiological and pathological events.
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PMID:Involvement of Ca2+-independent phospholipase A2 isoforms in oxidant-induced neural cell death. 1704 62

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