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)

Many viruses interfere with apoptosis of infected cells, presumably preventing cellular apoptosis as a direct response to viral infection. Since cytotoxic T lymphocytes (CTL) induce apoptosis of infected cells as part of the "lethal hit," inhibition of apoptosis could represent an effective immune evasion strategy. We report here herpes simplex virus type 1 (HSV-1) interference with CTL-induced apoptosis of infected cells and show that HSV-1 inhibits the nuclear manifestations of apoptosis but not the membrane changes. The HL-60 cell line (human promyelocytic leukemia) undergoes apoptosis in response to many stimuli, including incubation with ethanol. After HSV-1 infection (strains E115 and 17+), ethanol-treated cells did not produce oligonucleosomal DNA fragments characteristic of apoptosis, as assayed by gel electrophoresis and enzyme-linked immunosorbent assay. Inhibition was detected 2 h after infection and increased over time. Importantly, HSV-1-infected cells were resistant to apoptosis induced by antigen-specific CD4+ CTL, despite the fact that CTL recognition and degranulation in response to infected targets remained intact. Unlike HSV-1, HSV-2 (strains 333 and HG52) did not inhibit DNA fragmentation. In contrast to the inhibition of DNA fragmentation by HSV-1, none of the HSV-1 or -2 strains interfered with the ethanol-induced exposure of surface phosphatidylserine characteristic of apoptosis, as determined by annexin V binding. These results demonstrate that genes of HSV-1 inhibit the nuclear manifestations of apoptosis but not the membrane manifestations, suggesting that these may be mediated via separate pathways. They also suggest that HSV-1 inhibition of CTL-induced apoptosis may be an important mechanism of immune evasion.
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PMID:Herpes simplex virus type 1 renders infected cells resistant to cytotoxic T-lymphocyte-induced apoptosis. 942 Feb 43

The current view of infectious pancreatic necrosis virus (IPNV) infection includes a necrotic process that relies primarily on the histological appearance of tissue after the degenerative process. We tested this view by examining the possibility that apoptosis is a component of double-stranded RNA virus (IPNV) that induces fish embryonic cell death. Four kinds of assays for apoptosis were used in analyzing IPNV-infected CHSE-214 cells: (1) assay with terminal deoxynucleotidyl transferase (TdT)-mediated end-labeling of DNA in nuclei of intact cells during virus infection, (2) assay for procoagulant activity, (3) assay for DNA ladders, and (4) electron microscopic assays for the ultrastructural changes in characteristic apoptotic cells. In all p.i. samples, both low and high m.o.i. groups contained apoptotic nuclei, according to TdT-mediated dUTP labeling of intact cells, but in control CHSE-214 cells, apoptotic nuclei were rare at all levels of incubation sampled by TdT-mediated dUTP labeling. Prenecrotic or postnecrotic cells were found to express phosphatidylserine on the surface by annexin V-FITC labeling, but normal cells did not. DNAs from both 4 h p.i. of high m.o.i. and 8 h p.i. of low m.o.i. were found to be cleaved into fragments indicative of preferential cleavage at internucleosomal sites. The IPNV-infected CHSE-214 cells were analyzed with an electron microscope and showed a pattern of ultrastructural change, indicating that apoptosis appears before pathological changes of necrosis, including condensed chromatin, fragmented nuclei, nuclei with chromatin marginations, and secondary necrosis from prenecrotic cells in IPNV-infected CHSE-214 cells. Together, these findings show that apoptosis precedes any detectable necrotic change in CHSE-214 cells that is currently viewed as necrosis. Thus, apoptosis characterizes the onset of pathology in host cells and is followed by necrotic processes.
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PMID:Apoptosis precedes necrosis of fish cell line with infectious pancreatic necrosis virus infection. 977 Apr 22

Therapeutic intervention with antiretroviral therapy (ART) enables the modulation of HIV virus load and hence provides a unique opportunity to study the consequences of varying antigen load on the phenotype of virus-specific CD8(+) T lymphocytes in a persistent human viral infection. The recent advent of tetrameric peptide / HLA class I complexes has enabled the direct phenotypic characterization of antigen-specific T cell populations ex vivo. Here, we use this technology to examine directly ex vivo the consequences of therapeutic manipulation of HIV virus load on the phenotype of HIV-specific CTL. Our observations show that: (1) distinct sequential activation patterns of CD8(+) T cells are associated with increasing virus load; (2) T cell receptor (TCR) down-regulation without apoptosis represents an early event during the generation of a T cell response in a natural infection and precedes the emergence of two distinct antigen-specific CD8(+) T cell populations which differ in TCR and CD8 expression levels. Clear differences in surface Annexin V staining were observed between these populations. The observation that CTL activation, demonstrated by TCR and CD8 down-regulation, in response to rising levels of virus load, co-segregates with apoptosis only during later stages of the response indicates that antigen-associated cell death is restricted to distinct subpopulations of CTL.
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PMID:Direct ex vivo analysis reveals distinct phenotypic patterns of HIV-specific CD8(+) T lymphocyte activation in response to therapeutic manipulation of virus load. 1129 36

Previously, we demonstrated a depression of cell-mediated immunity in mice by street rabies virus infection. In the present study, we investigated several events during the course of infection and looked for alterations in the host lymphoid cells for evidence of apoptosis. Total cellular RNA was extracted from muscle tissues at the inoculation site of peripherally infected mice at different intervals after infection. Rabies virus mRNA was monitored by reverse transcription-PCR. The length of virus localization at the site of exposure in the muscle was as long as 5 days post-inoculation before the virus entered the central nervous system. At this inoculation site, the virus disappeared transiently between days 7 and 9 after infection but then was restored thereafter until death. Annexin V-fluorescein isothiocyanate staining of splenocytes and thymocytes from mice revealed apoptotic changes in these cells with a marked increase after day 6 of infection. Rabies virus antigen in the brain became detectable 6 days after infection; this occurred parallel to the appearance of apoptosis in the lymphoid cells. There was atrophy of the spleen and thymus, with no evidence of infection. Our results suggest that the interaction between the rabies virus and infected neurons triggers the process of lymphoid cell apoptosis, which reflects the defective operation of the immune system.
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PMID:Immunosuppression in rabies virus infection mediated by lymphocyte apoptosis. 1168 83

The ability of frog virus 3 (FV3), the type species of the family Iridoviridae, to induce apoptosis was examined by monitoring DNA cleavage, chromatin condensation, and cell-surface expression of phosphotidylserine (PS) in fathead minnow (FHM) and baby hamster kidney (BHK) cells. In productively infected FHM cells, DNA fragmentation was first noted at 6-7 h postinfection and was clearly seen by 17 h postinfection, while chromatin condensation was detected at 8.5 h postinfection. As with some other viruses, FV3-induced apoptosis did not require de novo viral gene expression as both heat-inactivated and UV-inactivated virus readily triggered DNA fragmentation in FHM cells. Moreover, FV3-induced apoptosis was blocked in FHM cells by the pan-caspase inhibitor Z-VAD-FMK, suggesting that virus infection triggers programmed cell death through activation of the caspase cascade. FV3 infection also triggered apoptosis in BHK cells as monitored by TUNEL and annexin V binding assays. To determine whether FV3, similar to other large DNA viruses, encoded proteins that block or delay apoptosis, mock- and FV3-infected FHM cells were osmotically shocked and assayed for DNA fragmentation 3 hours later. DNA fragmentation was clearly seen whether or not shocked cells were previously infected with FV3, indicating that infection with FV3 did not block apoptosis induced by osmotic shock in FHM cells. The above results demonstrate that iridoviruses triggered apoptosis and that the induction of programmed cell death did not require viral gene expression. However, it remains to be determined if virion attachment to target cells is sufficient to induce cell death, or if apoptosis is triggered directly or indirectly by one or more virion-associated proteins.
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PMID:Induction of apoptosis in frog virus 3-infected cells. 1264 3

The reduction in apoptosis caused by short-term exposure of CEM x174 cells infected with SIVmac239 to morphine was investigated. Eeffects of morphine on the viability of normal and infected CEM x174 cells were determined by MTS assay. Apoptosis induced by SIVmac239 and the effects of morphine were analyzed by flow cytometry. cAMP levels, PKA activity, and the resulting histone H3 phosphorylation levels were measured. The results show a pronounced decrease in numbers of infected SIVmac239 cells compared to controls. Morphine elevated cell viability in the infected groups. Annexin V binding assays showed that 1 microM l(-1) morphine increased the percentage of viable cells and decreased apoptotic cells. Morphine also downregulated cAMP and PKA activity in both groups, but more markedly in the infected group. Histone H3 phosphorylation was elevated after virus infection and decreased in the presence of morphine. The results indicate that the cAMP-PKA signal transduction cascade is involved in morphine regulation of early SIVmac239-induced apoptosis.
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PMID:Morphine alleviates early stages of apoptosis in cultured CEM x174 cells infected with simian immunodeficiency virus. 1297 76

Methionine enkephalin, the endogenous opioid peptide, has a diversity of effects on the immune system. Although the biological effects of the pentapeptide have been well documented, little is known about the intracellular events involved in the effects of opioids on human immunodeficiency virus (HIV) infected immune cells. In the present investigation, the possible mechanism of apoptosis alleviated by exposure of methionine enkephalin at 1 micromol/l to CEM x 174 cells, the hybrid lymphocytes, infected with simian immunodeficiency virus (SIV) in vitro is elucidated. Apoptosis and cell cycle analysis is carried out by flow cytometry, the phosphorylation of mitogen-activated protein kinases (MAPK) ERK1 and ERK2 is detected by Western blotting assay, and changes of calcium concentration were analyzed using the calcium-sensitive dye Fluo-3 AM. The results exhibit that methionine enkephalin at the concentrations of 1 micromol/l increase remarkably the proportion of vital cells and decrease the apoptotic cells based on annexin V binding assay. In response to the treatment with methionine enkephalin, SIV-infected cells display a prolonged survival and are accumulated in G1 phase. Methionine enkephalin increase obviously the content of intracellular calcium in normal cells within 1-2 min and maintains a high level within monitoring time. However, the intracellular calcium reaches the highest level at 1 min and subsequently decline to background in SIV infected group. In addition, methionine enkephalin also elevates the levels of protein kinase C (PKC) activity and phosphorylated extracellular signal-regulated kinase (ERK) 1/2. It is proposed that calcium-PKC-MAPK cascade is involved in methionine enkephalin-prolonged survival of SIV-infected cells in the early stages of virus infection. The results provide a further evidence for potential use of methionine enkephalin on the therapy of Acquired Immunodeficiency Syndrome (AIDS).
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PMID:Signaling pathway involved in methionine enkephalin-promoted survival of lymphocytes infected by simian immunodeficiency virus in the early stage in vitro. 1497 62

The megakaryocyte and platelet lineage may be one of the major sites of human cytomegalovirus (HCMV) infection. However, whether HCMV aggravates apoptosis in normal megakaryocytes was not well investigated. Megakaryocytic cell line CHRF-288-11 and HCMV AD 169 strain were co-cultured in this study. PCR was used to detect the direct infection of the cells by HCMV IEA expression. The apoptotic cells were analyzed by morphologic observation, DNA ladder formation, annexin V/PI and PI assay with flow cytometry. The results showed that HCMV significantly inhibited the growth of CHRF cells in three different concentrations of viral infection groups (10(-3), 10(-2), 10(-1)). The viability levels in each infection groups were 77%, 73% and 68% respectively after incubation for 7 days, compared with 98% in the control group. Using annexin V/PI with flow cytometry, it was shown that the percentages of apoptotic cells viral infection in groups (10(-3), 10(-2), 10(-1)) were (21.3 +/- 2.49)%, (25.8 +/- 3.65)% and (31.4 +/- 3.91)% at 7 days after infection, while the control was (3.68 +/- 1.47)%. The apoptotic cells were further confirmed by morphologic observation and DNA ladder formation. Furthermore, PCR detection also showed the direct infection by identification of HCMV IEA expression in CHRF cells. This study suggested that HCMV could directly infect megakaryocytes and aggravated apoptosis in HCMV-infected megakaryocytes.
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PMID:[Human cytomegalovirus aggravates apoptosis of human megakaryocytes via direct infection in vitro]. 1498 73

p53 plays an important role in tumour suppression in cells exposed to some genotoxic stresses. We found that the p53 protein level was increased in a variety of cell lines infected with human herpesvirus 6 (HHV-6). Because the elevation in p53 began very soon after infection (4 h) and did not occur with UV-inactivated virus infection, it appeared to require the expression of one or more viral immediate-early (IE) genes. To elucidate the mechanism of p53 induction, we investigated its regulation at the protein level. Pulse-chase analysis showed that the stability of p53 increased in HHV-6-infected cells. In addition, the ubiquitination of p53 decreased after infection, indicating that the stability of p53 was increased through deubiquitination. We showed by confocal microscopy that the additional p53 mainly localized to the cytoplasm and that p53 was retained in the cytoplasm even after UV irradiation, but that it translocated into the nucleus in mock-infected cells. Furthermore, DNA fragmentation analysis, a terminal deoxynucleotidyl transferase-mediated dUTP nick end-labelling (TUNEL) assay and annexin V staining showed that infected cells were resistant to UV-induced apoptosis. These results lead us to propose that HHV-6 has a mechanism for retaining p53 within the cytoplasm and protects the infected cells from apoptosis.
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PMID:Productive human herpesvirus 6 infection causes aberrant accumulation of p53 and prevents apoptosis. 1503 30

Parvovirus B19 (B19 virus) can persist in multiple tissues and has been implicated in a variety of diseases, including acute fulminant liver failure. The mechanism by which B19 virus induces liver failure remains unknown. Hepatocytes are nonpermissive for B19 virus replication. We previously reported that acute fulminant liver failure associated with B19 virus infection was characterized by hepatocellular dropout. We inoculated both primary hepatocytes and the hepatocellular carcinoma cell line Hep G2 with B19 virus and assayed for apoptosis by using annexin V staining. Reverse transcriptase PCR analysis and immunofluorescence demonstrated that B19 virus was able to infect the cells and produce its nonstructural protein but little or no structural capsid protein. Infection with B19 virus induced means of 28% of Hep G2 cells and 10% of primary hepatocytes to undergo apoptosis, which were four- and threefold increases, respectively, over background levels. Analysis of caspase involvement showed that B19 virus-inoculated cultures had a significant increase in the number of cells with active caspase 3. Inhibition studies demonstrated that caspases 3 and 9, but not caspase 8, are required for B19 virus-induced apoptosis.
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PMID:Parvovirus B19-induced apoptosis of hepatocytes. 1522 Apr 51

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