Functional Analysis of the Inhibitor of Apoptosis (iap) Gene Carried by the Entomopoxvirus of Amsacta moorei

ABSTRACT The entomopoxvirus from Amsacta moorei (AmEPV) contains none of the commonly recognized vertebrate poxvirus apoptotic suppressor genes. However, AmEPV carries a single inhibitor of apoptosis (iap) gene (AMViap) not present in vertebrate poxviruses. The AMViap gene was active when coexpressed with the Drosophila proapoptotic gene hid in Ld652 cells and can rescue cells from apoptosis as shown by increased number of surviving cells and reduced levels of caspase-3-like activity. We also showed that expression of the AMViap gene rescued polyhedron production in Autographa californica M nucleopolyhedrovirus (AcMNPV)Δp35-infected Sf9 cells during an otherwise abortive infection induced by apoptosis. Surprisingly, deletion of the AMViap gene from the AmEPV genome led to only a modest (10-fold) loss of virion production in infected Ld652 cells, indicating that the AMViap gene is nonessential for virus replication under these conditions. However, infection of Ld652 cells by AmEPV lacking a functional iap gene led to a more rapid induction of cytotoxicity and increased levels of caspase-3-like activity. Similar results were observed and were more pronounced in infected Sf9 and S2 cells. The purified AMVIAP protein also inhibits the enzymatic activities of human caspase-9 and caspase-3 in vitro. Our results indicate that while the AMViap gene was active in controlling apoptosis through the intrinsic pathway, the virus likely encodes additional proteins that also regulate apoptosis.

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Direct Effect of Septic Plasma in Human Cell Lines Viability

Blood Purification ◽

10.1159/000494597 ◽

2018 ◽

Vol 47 (1-3) ◽

pp. 270-276

Author(s):

Grazia Maria Virzì ◽

Chiara Borga ◽

Chiara Pasqualin ◽

Silvia Pastori ◽

Alessandra Brocca ◽

...

Keyword(s):

Cytochrome C ◽

Cell Viability ◽

Cell Lines ◽

Caspase 3 ◽

Test Group ◽

Organ Injury ◽

Enzyme Linked Immunosorbent Assay ◽

Caspase 9 ◽

Renal Tubular Cells

Background: Sepsis is a life-threatening condition often associated with a high incidence of multiple organs injury. Several papers suggested the immune response by itself, with the production of humoral inflammatory mediators, is crucial in determining organ injury. However, little is known of how sepsis directly induces organ injury at the cellular levels. To assess this point, we set up an in vitro study to investigate the response of renal tubular cells (RTCs), monocytes (U937) and hepatocytes (HepG2) after 24 h-incubation with septic patients’ plasma. Methods: We enrolled 26 septic patients (“test” group). We evaluated cell viability, apoptosis and necrosis by flow cytometer. Caspase-3,-8,-9 and cytochrome-c concentrations have been analyzed using the Human enzyme-linked immunosorbent assay kit. Results: We found that a decrease of cell viability in all cell lines tested was associated to the increase of apoptosis in RTCs and U937 (p < 0.0001) and increase of necrosis in HepG2 (p < 0.5). The increase of apoptosis in RTCs and U937 cells was confirmed by higher levels of caspase-3 (p < 0.0001). We showed that apoptosis in both RTCs and U937 was triggered by the activation of the intrinsic pathway, as caspase-9 and cytochrome-c levels significantly increased (p < 0.0001), while caspase-8 did not change. This assumption was strengthened by the significant correlation of caspase-9 with both cytochrome-c (r = 0.73 for RTCs and r = 0.69 for U937) and caspase-3 (r = 0.69 for RTCs and r = 0.63 for U937). Conclusion: Humoral mediators in septic patients’ plasma induce apoptosis. This fact suggests that apoptosis inhibitors should be investigated as future strategy to reduce sepsis-induced organ damages.

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Implication of caspases during maedi–visna virus-induced apoptosis

Journal of General Virology ◽

10.1099/0022-1317-83-12-3153 ◽

2002 ◽

Vol 83 (12) ◽

pp. 3153-3161 ◽

Cited By ~ 20

Author(s):

R. Duval ◽

V. Bellet ◽

S. Delebassée ◽

C. Bosgiraud

Keyword(s):

Cell Death ◽

Caspase 3 ◽

Specific Cell ◽

Caspase 9 ◽

Virus Growth ◽

Caspase Inhibitors ◽

Visna Virus ◽

Maedi Visna Virus ◽

Cellular Lysis

Maedi–visna virus (MVV) causes encephalitis, pneumonia and arthritis in sheep. In vitro, MVV infection and replication lead to strong cytopathic effects characterized by syncytia formation and subsequent cellular lysis. It was demonstrated previously that MVV infection in vitro induces cell death of sheep choroid plexus cells (SCPC) by a mechanism that can be associated with apoptotic cell death. Here, the relative implication of several caspases during acute infection with MVV is investigated by employing diverse in vitro and in situ strategies. It was demonstrated using specific pairs of caspase substrates and inhibitors that, during in vitro infection of SCPC by MVV, the two major pathways of caspase activation (i.e. intrinsic and extrinsic pathways) were stimulated: significant caspase-9 and -8 activities, as well as caspase-3 activity, were detected. To study the role of caspases during MVV infection in vitro, specific, cell-permeable, caspase inhibitors were used. First, these results showed that both z-DEVD-FMK (a potent inhibitor of caspase-3-like activities) and z-VAD-FMK (a broad spectrum caspase inhibitor) inhibit caspase-9, -8 and -3 activities. Second, both irreversible caspase inhibitors, z-DEVD-FMK and z-VAD-FMK, delayed MVV-induced cellular lysis as well as virus growth. Third, during SCPC in vitro infection by MVV, cells were positively stained with FITC-VAD-FMK, a probe that specifically stains cells containing active caspases. In conclusion, these data suggest that MVV infection in vitro induces SCPC cell death by a mechanism that is strongly dependent on active caspases.

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Silica nanoparticles inducing the apoptosis of spermatocyte cell through microRNA-450b-3p targeting MTCH2-mediating mitochondrial signaling pathway

10.21203/rs.3.rs-24673/v1 ◽

2020 ◽

Author(s):

Guiqing Zhou ◽

Jianhui Liu ◽

Xiangyang Li ◽

Yujian Sang ◽

Yue Zhang ◽

...

Keyword(s):

Cytochrome C ◽

Silica Nanoparticles ◽

Caspase 3 ◽

Reproductive Toxicity ◽

Control Group ◽

Caspase 9 ◽

Protein Expressions ◽

Underlying Mechanisms

Abstract Background: Silica nanoparticles (SiNPs) are found in environmental particulate matter and are proven to have adverse effects on fertility. The relationship and underlying mechanisms between miRNAs and apoptosis induced by SiNPs during spermatogenesis is currently ambiguous. Experimental design: The present study was designed to investigate the role of miRNA-450b-3p in the reproductive toxicity caused by SiNPs. In vivo, 40 male mice were randomly divided into control and SiNPs groups, 20 per group. The mice in the SiNPs group were administrated 20 mg/kg SiNPs by tracheal perfusion once every 5 days, for 35 days, and the control group were given the equivalent of a normal luminal saline. In vitro, spermatocyte cells were divided into 0 and 5 μg/mL SiNPs groups, after passaged for 30 generations, the GC-2spd cells in 5 μg/mL SiNPs groups were transfected with miRNA-450b-3p and its mimic and inhibitor. Results: In vivo, the results showed that SiNPs damaged tissue structures of testis, decreased the quantity and quality of the sperm, reduced the expression of miR-450b-3p, and increased the protein expressions of the MTCH2, BID, BAX, Cytochrome C, Caspase-9, and Caspase-3 in the testis. In vitro, SiNPs obviously repressed the viability and increased the LDH level and apoptosis rate, decreased the levels of the miR-450b-3p, significantly enhanced the protein expressions of the MTCH2, BID, BAX, Cytochrome C, Caspase-9, Caspase-3; while the mimic of miR-450b-3p reversed the changes induced by SiNPs, but inhibitor further promoted the effects induced by SiNPs.Conclusion: The result suggested that SiNPs could induce the spermatocyte apoptosis by inhibiting the miR-450b-3p expression to target promoting the MTCH2 resulting in activating mitochondrial apoptotic signaling pathways in the spermatocyte cells.

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PD-1-Mediated PI3K/Akt/mTOR, Caspase 9/Caspase 3 and ERK Pathways Are Involved in Regulating the Apoptosis and Proliferation of CD4+ and CD8+ T Cells During BVDV Infection in vitro

Frontiers in Immunology ◽

10.3389/fimmu.2020.00467 ◽

2020 ◽

Vol 11 ◽

Author(s):

Yu Liu ◽

Shanshan Liu ◽

Chenhua Wu ◽

Wenjing Huang ◽

Bin Xu ◽

...

Keyword(s):

T Cells ◽

Cd8 T Cells ◽

Caspase 3 ◽

Caspase 9

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Ginsenoside Rb1 Protects Neonatal Rat Cardiomyocytes from Hypoxia/Ischemia Induced Apoptosis and Inhibits Activation of the Mitochondrial Apoptotic Pathway

Evidence-based Complementary and Alternative Medicine ◽

10.1155/2014/149195 ◽

2014 ◽

Vol 2014 ◽

pp. 1-10 ◽

Cited By ~ 16

Author(s):

Xu Yan ◽

Jinwen Tian ◽

Hongjin Wu ◽

Yuna Liu ◽

Jianxun Ren ◽

...

Keyword(s):

Caspase 3 ◽

Neonatal Rat ◽

Ginsenoside Rb1 ◽

Caspase 9 ◽

Apoptotic Pathway ◽

Rat Cardiomyocytes ◽

Mitochondrial Apoptotic Pathway ◽

Neonatal Rat Cardiomyocytes ◽

Hypoxia Ischemia

Aim. To investigate the effect of Ginsenoside Rb1 (GS-Rb1) on hypoxia/ischemia (H/I) injury in cardiomyocytesin vitroand the mitochondrial apoptotic pathway mediated mechanism.Methods. Neonatal rat cardiomyocytes (NRCMs) for the H/I groups were kept in DMEM without glucose and serum, and were placed into a hypoxic jar for 24 h. GS-Rb1 at concentrations from 2.5 to 40 µM was given during hypoxic period for 24 h. NRCMs injury was determined by MTT and lactate dehydrogenase (LDH) leakage assay. Cell apoptosis, ROS accumulation, and mitochondrial membrane potential (MMP) were assessed by flow cytometry. Cytosolic translocation of mitochondrial cytochrome c and Bcl-2 family proteins were determined by Western blot. Caspase-3 and caspase-9 activities were determined by the assay kit.Results. GS-Rb1 significantly reduced cell death and LDH leakage induced by H/I. It also reduced H/I induced NRCMs apoptosis induced by H/I, in accordance with a minimal reactive oxygen species (ROS) burst. Moreover, GS-Rb1 markedly decreased the translocation of cytochrome c from the mitochondria to the cytosol, increased the Bcl-2/ Bax ratio, and preserved mitochondrial transmembrane potential (ΔΨm). Its administration also inhibited activities of caspase-9 and caspase-3.Conclusion. Administration of GS-Rb1 during H/Iin vitrois involved in cardioprotection by inhibiting apoptosis, which may be due to inhibition of the mitochondrial apoptotic pathway.

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Caspase-2L, caspase-9, and caspase-3 during in vitro maturation and fragmentation of the mouse oocyte

Developmental Dynamics ◽

10.1002/dvdy.21793 ◽

2008 ◽

Vol 237 (12) ◽

pp. 3892-3903 ◽

Cited By ~ 6

Author(s):

Emilie Arnault ◽

Lucie Tosca ◽

Anne-Marie Courtot ◽

Mireille Doussau ◽

Arlette Pesty ◽

...

Keyword(s):

In Vitro Maturation ◽

Caspase 3 ◽

Mouse Oocyte ◽

Caspase 9

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Diablo Promotes Apoptosis by Removing Miha/Xiap from Processed Caspase 9

The Journal of Cell Biology ◽

10.1083/jcb.152.3.483 ◽

2001 ◽

Vol 152 (3) ◽

pp. 483-490 ◽

Cited By ~ 128

Author(s):

Paul G. Ekert ◽

John Silke ◽

Christine J. Hawkins ◽

Anne M. Verhagen ◽

David L. Vaux

Keyword(s):

Cell Death ◽

Cytochrome C ◽

Caspase 3 ◽

Direct Interaction ◽

Inhibitor Of Apoptosis ◽

Caspase 9 ◽

Inhibitor Of Apoptosis Protein ◽

Grim Reaper ◽

Apoptosis Protein ◽

Mammalian Protein

MIHA is an inhibitor of apoptosis protein (IAP) that can inhibit cell death by direct interaction with caspases, the effector proteases of apoptosis. DIABLO is a mammalian protein that can bind to IAPs and antagonize their antiapoptotic effect, a function analogous to that of the proapoptotic Drosophila molecules, Grim, Reaper, and HID. Here, we show that after UV radiation, MIHA prevented apoptosis by inhibiting caspase 9 and caspase 3 activation. Unlike Bcl-2, MIHA functioned after release of cytochrome c and DIABLO from the mitochondria and was able to bind to both processed caspase 9 and processed caspase 3 to prevent feedback activation of their zymogen forms. Once released into the cytosol, DIABLO bound to MIHA and disrupted its association with processed caspase 9, thereby allowing caspase 9 to activate caspase 3, resulting in apoptosis.

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Simian Varicella Virus Induces Apoptosis in Monkey Kidney Cells by the Intrinsic Pathway and Involves Downregulation of Bcl-2 Expression

Journal of Virology ◽

10.1128/jvi.00768-09 ◽

2009 ◽

Vol 83 (18) ◽

pp. 9273-9282 ◽

Cited By ~ 9

Author(s):

Subbiah Pugazhenthi ◽

Donald H. Gilden ◽

Sreekala Nair ◽

Anne McAdoo ◽

Mary Wellish ◽

...

Keyword(s):

Caspase 3 ◽

Active Form ◽

Vero Cells ◽

Monkey Kidney ◽

Kidney Cells ◽

Intrinsic Pathway ◽

Caspase 9 ◽

Simian Varicella Virus ◽

Varicella Virus ◽

Infected Cells

ABSTRACT Simian varicella virus (SVV) causes varicella in primates, becomes latent in ganglionic neurons, and reactivates to produce zoster. SVV produces a cytopathic effect in monkey kidney cells in tissue culture. To study the mechanism by which SVV-infected cells die, we examined markers of apoptosis 24 to 64 h postinfection (hpi). Western blot analysis of virus-infected cell lysates revealed a significant increase in the levels of the cleaved active form of caspase-3, accompanied by a parallel increase in caspase-3 activity at 40 to 64 hpi. Caspase-9, a marker for the intrinsic pathway, was activated significantly in SVV-infected cells at all time points, whereas trace levels of the active form of caspase-8, an extrinsic pathway marker, was detected only at 64 hpi. Bcl-2 expression at the mRNA and protein levels was decreased by 50 to 70% throughout the course of virus infection. Release of cytochrome c, an activator of caspase-9, from mitochondria into the cytoplasm was increased by 200% at 64 hpi. Analysis of Vero cells infected with SVV expressing green fluorescent protein (SVV-GFP) at 64 hpi revealed colocalization of the active forms of caspase-3 and caspase-9 and terminal deoxynucleotidyltransferase-mediated dUTP-biotin nick end labeling (TUNEL) staining with GFP. A significant decrease in the bcl-2 mRNA levels along with an abundance of mRNA specific for SVV genes 63, 40, and 21 was seen in the fraction of Vero cells that were infected with SVV-GFP. Together, these findings indicate that SVV induces apoptosis in cultured Vero cells through the intrinsic pathway in which Bcl-2 is downregulated.

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Intracellular NAD+ Depletion Enhances Bortezomib-Induced Myeloma Cytotoxicity

Blood ◽

10.1182/blood.v120.21.330.330 ◽

2012 ◽

Vol 120 (21) ◽

pp. 330-330

Author(s):

Antonia Cagnetta ◽

Michele Cea ◽

Chirag Acharya ◽

Teresa Calimeri ◽

Yu-Tzu Tai ◽

...

Keyword(s):

Cell Death ◽

Synergistic Effect ◽

Cell Lines ◽

Caspase 3 ◽

Statistical Significance ◽

Caspase 8 ◽

Caspase 9 ◽

Nicotinamide Phosphoribosyltransferase

Abstract Abstract 330 Background: Our previous study demonstrated that inhibition of nicotinamide phosphoribosyltransferase (Nampt) acts by severely depleting intracellular NAD+ content and thus eliciting mitochondrial dysfunction and autophagic MM cell death. The proteasome inhibitor Bortezomib induces anti-MM activity by affecting a variety of signaling pathways. However, as with other agents, dose-limiting toxicities and the development of resistance limit its long-term utility. Here, we demonstrate that combining Nampt inhibitor and bortezomb induces synergistic anti-MM cell death both in vitro using MM cell lines or patient CD138+ MM cells and in vivo in a human plasmacytoma xenograft mouse model. Material and Methods: We utilized MM.1S, MM.1R, RPMI-8226, and U266 human MM cell lines, as well as purified tumor cells from patients relapsing after prior therapies. Cell viability and apoptosis assays were performed using Annexin V/PI staining. Intracellular NAD+ level and proteasome activity were quantified after 12, 24, and 48h exposure to single/combination drugs by specific assays. In vitro angiogenesis was assessed by Matrigel capillary-like tube structure formation assay. Immunoblot analysis was performed using antibodies to caspase-8, caspase-9, caspase-3, PARP, Bcl-2, and tubulin. CB-17 SCID male mice (n = 28; 7 mice/EA group) were subcutaneously inoculated with 5.0 × 106 MM.1S cells in 100 microliters of serum free RPMI-1640 medium. When tumors were measurable (3 weeks after MM cell injection), mice were treated for three weeks with vehicle alone, FK866 (30mg/kg 4 days weekly), Bortezomib (0.5 mg/kg twice weekly), or FK866 (30 mg/kg) plus Bortezomib (0.5 mg/kg). Statistical significance of differences observed in FK866, Bortezomib or combination-treated mice was determined using a Student t test. Isobologram analysis was performed using “CalcuSyn” software program. A combination index < 1.0 indicates synergism. Results/Discussion: Combining FK866 and Bortezomib induces synergistic anti-MM activity in vitro against MM cell lines (P<0.005, CI < 1) or patient CD138-positive MM cells (P< 0.004). FK866 plus Bortezomib-induced synergistic effect is associated with: 1)activation of caspase-8, caspase-9, caspase-3, and PARP; 2) improved intracellular NAD+ dissipation; 3) suppression of chymotrypsin-like, caspase-like, and trypsin-like proteolytic activities; 4) inhibition of NF-kappa B signaling; and 5) inhibition of angiogenesis. Importantly, the ectopic overexpression of Nampt rescues this observed synergistic effect; conversely, Nampt knockdown by RNAi significantly enhances the anti-MM effect of bortezomib. In the murine xenograft MM model, low dose combination FK866 (30 mg/kg) and Bortezomib (0.5 mg/kg) is well tolerated, significantly inhibits tumor growth (P < 0.001), and prolongs host survival (2–2.5 months in mice receiving combined drugs, P = 0.001). These findings demonstrate that intracellular NAD+ levels represent a major determinant in the ability of bortezomib to induce apoptosis of MM cells, providing the rationale for clinical protocols evaluating FK866 together with Bortezomib to improve patient outcome in MM. Disclosures: Munshi: Celgene: Consultancy; Millenium: Consultancy; Merck: Consultancy; Onyx: Consultancy.

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