Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.4.22.36 (caspase-1)
6,285 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Employing a baculovirus expression system, human interleukin-1beta converting enzyme (ICE) has been expressed in Trichoplusia ni High-Five insect cells and purified. ICE was expressed with an N-terminal T7 epitope, thus allowing its purification using immobilized anti-T7 antibodies. The recombinant ICE was purified to >95% homogeneity, the one minor contaminant being the baculovirus anti-apoptotic protein (P35) which was copurified. The purified recombinant ICE was biologically active, cleaving both pIL-1beta and poly(ADP-ribose) polymerase substrates. The kinetic properties of the purified recombinant ICE compare favorably with native ICE purified from a THP-1 monocytic line.
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PMID:Expression and purification of human interleukin-1beta converting enzyme from Trichoplusia ni insect cells using a baculovirus expression system. 911 4

Members of the inhibitor of apoptosis (iap) gene family prevent programmed cell death induced by multiple signals in diverse organisms, suggesting that they act at a conserved step in the apoptotic pathway. To investigate the molecular mechanism of iap function, we expressed epitope-tagged Op-iap, the prototype viral iap from Orgyia pseudotsugata nuclear polyhedrosis virus, by using novel baculovirus recombinants and stably transfected insect cell lines. Epitope-tagged Op-iap blocked both virus- and UV radiation-induced apoptosis. With or without apoptotic stimuli, Op-IAP protein (31 kDa) cofractionated with cellular membranes and the cytosol, suggesting a cytoplasmic site of action. To identify the step(s) at which Op-iap blocks apoptosis, we monitored the effect of Op-iap expression on in vivo activation of the insect CED-3/ICE death proteases (caspases). Op-iap prevented in vivo caspase-mediated cleavage of the baculovirus substrate inhibitor P35 and blocked caspase activity upon viral infection or UV irradiation. However, unlike the stoichiometric inhibitor P35, Op-IAP failed to affect activated caspase as determined by in vitro protease assays. These findings provide the first biochemical evidence that Op-iap blocks activation of the host caspase or inhibits its activity by a mechanism distinct from P35. Moreover, as suggested by the capacity of Op-iap to block apoptosis induced by diverse signals, including virus infection and UV radiation, iap functions at a central point at or upstream from steps involving the death proteases.
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PMID:Baculovirus inhibitor of apoptosis functions at or upstream of the apoptotic suppressor P35 to prevent programmed cell death. 915 43

We have investigated the ability of Sf-caspase-1 and two mammalian caspases, caspase-1 and caspase-3, to induce apoptosis in Spodoptera frugiperda Sf-21 insect cells. While the transient expression of the pro-Sf-caspase-1 did not induce apoptosis, expression of the pro-domain deleted form, p31, or coexpression of the two subunits of mature Sf-caspase-1, p19 and p12, induced apoptosis in Sf-21 cells. The behavior of Sf-caspase-1 resembled that of the closely related mammalian caspase, caspase-3, and contrasted with that of the mammalian caspase-1, the pro-form of which was active in inducing apoptosis in Sf-21 cells. The baculovirus caspase inhibitor P35 blocked apoptosis induced by active forms of all three caspases. In contrast, members of the baculovirus inhibitor of apoptosis (IAP) family failed to block active caspase-induced apoptosis. However, during viral infection, expression of OpIAP or CpIAP blocked the activation of pro-Sf-caspase-1 and the associated induction of apoptosis. Thus, the mechanism by which baculovirus IAPs inhibit apoptosis is distinct from the mechanism by which P35 blocks apoptosis and involves inhibition of the activation of pro-caspases like Sf-caspase-1.
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PMID:Baculovirus inhibitors of apoptosis (IAPs) block activation of Sf-caspase-1. 939 Oct 73

Signal-induced activation of caspases, the critical protease effectors of apoptosis, requires proteolytic processing of their inactive proenzymes. Consequently, regulation of procaspase processing is critical to apoptotic execution. We report here that baculovirus pancaspase inhibitor P35 and inhibitor of apoptosis Op-IAP prevent caspase activation in vivo, but at different steps. By monitoring proteolytic processing of endogenous Sf-caspase-1, an insect group II effector caspase, we show that Op-IAP blocked the first activation cleavage at TETD downward arrowG between the large and small caspase subunits. In contrast, P35 failed to affect this cleavage, but functioned downstream to block maturation cleavages (DXXD downward arrow(G/A)) of the large subunit. Substitution of P35's reactive site residues with TETDG failed to increase its effectiveness for blocking TETD downward arrowG processing of pro-Sf-caspase-1, despite wild-type function for suppressing apoptosis. These data are consistent with the involvement of a novel initiator caspase that is resistant to P35, but directly or indirectly inhibitable by Op-IAP. The conservation of TETD downward arrowG processing sites among insect effector caspases, including Drosophila drICE and DCP-1, suggests that in vivo activation of these group II caspases involves a P35-insensitive caspase and supports a model wherein apical and effector caspases function through a proteolytic cascade to execute apoptosis in insects.
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PMID:Caspase inhibitor P35 and inhibitor of apoptosis Op-IAP block in vivo proteolytic activation of an effector caspase at different steps. 1074 56

Activation of caspases by proteolytic processing is a critical step during apoptosis in metazoans. Here we use high resolution time lapse microscopy to show a tight link between caspase activation and the morphological events delineating apoptosis in cultured SF21 cells from the moth Spodoptera frugiperda, a model insect system. The principal effector caspase, Sf-caspase-1, is proteolytically activated during SF21 apoptosis. To define the potential role of initiator caspases in vivo, we tested the effect of cell-permeable peptide inhibitors on pro-Sf-caspase-1 processing. Anti-caspase peptide analogues prevented apoptosis induced by diverse signals, including UV radiation and baculovirus infection. IETD-fmk potently inhibited the initial processing of pro-Sf-caspase-1 at the junction (TETD-G) of the large and small subunit, a cleavage that is blocked by inhibitor of apoptosis Op-IAP but not pancaspase inhibitor P35. Because Sf-caspase-1 was inhibited poorly by IETD-CHO, our data indicated that the protease responsible for the first step in pro-Sf-caspase-1 activation is a distinct apical caspase. Thus, Sf-caspase-1 activation is mediated by a novel, P35-resistant caspase. These findings support the hypothesis that apoptosis in insects, like that in mammals, involves a cascade of caspase activations.
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PMID:Apoptosis in motion. An apical, P35-insensitive caspase mediates programmed cell death in insect cells. 1127 34

The aspartate-specific caspases play a pivotal role in the execution of programmed cell death and therefore constitute important targets for the control of apoptosis. Upon ectopic expression, baculovirus P35 inhibits apoptosis in phylogenetically diverse organisms by suppressing the proteolytic activity of the cellular caspases in a cleavage-dependent mechanism. After cleavage by caspase, the P35 fragments remain bound to the target caspase, forming an inhibitory complex that sequesters the caspase from further activity. Crystals of a complex between P35 and Sf-caspase-1, an insect effector-caspase, were grown. A 5.2 A resolution structure of this inhibitory complex was determined by molecular-replacement methods. The structure reveals few regions of interaction between the two proteins, much like that observed in the structure of the recently solved human initiator-caspase/P35 complex. In the effector-caspase/P35 complex structure presented here, the P35 molecule shifts towards a loop that is conserved in effector caspases but absent in initiator caspase. This shift could strengthen interactions between the two proteins and may explain the preference of P35 for inhibiting effector-caspases.
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PMID:Crystallization and low-resolution structure of an effector-caspase/P35 complex: similarities and differences to an initiator-caspase/P35 complex. 1180 56

We have investigated the effects of expression of the viral proteins CrmA, P35 and IAP, and the three mammalian IAP homologues (MIHA, MIHB and MIHC), on the regulation of apoptosis induced by either the overexpression of caspases (ICE, CPP32 and Nedd2), by serum-deprivation, or by gamma-irradiation in NIH3T3 fibroblasts. As previously shown, CrmA strongly inhibited ICE-induced apoptosis but was ineffective against Nedd2- or CPP32-mediated apoptosis. P35, IAP and MIHA protected cells from apoptosis induced by the three caspases to varying extents but MIHB and MIHC were largely ineffective. NIH3T3 cells expressing P35 and MIHA, but not IAP, CrmA, MIHB and MIHC, showed enhanced cell survival under serum-deprived conditions. In addition, P35, CrmA and MIHA could provide substantial protection against death induced by gamma-irradiation. These results suggest the presence of multiple apoptotic pathways with differential sensitivity to various naturally occurring apoptosis inhibitors.
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PMID:Differential inhibitory effects of CrmA, P35, IAP and three mammalian IAP homologues on apoptosis in NIH3T3 cells following various death stimuli. 1455 70

Sf-caspase-1 is the most studied effector caspase of Lepidoptera. Its activation is believed to follow a two-step mechanism: The first step requires cleavage by an initiator caspase at D195 (between the large and small subunits) releasing the C-terminal small subunit. This is blocked by the baculovirus caspase inhibitor P49. The second step removes the N-terminal prodomain by cleavage at D28 to generate the large subunit that is blocked by the baculovirus caspase inhibitor P35. In this study, we identified an alternative mechanism of Sf-caspase-1 activation. This additional two-step mechanism involves first cleavage of pro-Sf-caspase-1 at D28 to remove the N-terminal prodomain and subsequently cleavage at D195 to generate the large and small subunits. Both mechanisms are triggered by apoptotic stimuli following a distinct pattern. We also showed that expression of Sf-caspase-1 was upregulated upon reception of apoptotic stimuli. Different from all published data, this upregulation occurred as a post-transcriptional event. Moreover, we proved that the stronger the stimuli, the higher the upregulation. And we demonstrated that P49 and P35 inhibited the cleavage at D28 and D195 respectively, independently of wether the first cleavage was at D195 or at D28.
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PMID:Activation pathways and signal-mediated upregulation of the insect Spodoptera frugiperda caspase-1. 1653 78

In most retinal degenerations in humans and in animal models, photoreceptor cells die by apoptosis. Although the biochemical features are similar in all apoptotic cells, different molecular events lead the cell to death. In the present study we used a rat model of inherited retinal degeneration, the RCS rats, to investigate the involvement of the proteases, caspases and/or calpains, in photoreceptor apoptosis. In the first experiments, rats were untreated or injected intravitreally at post natal day 27 (P27) with the large broad spectrum caspase inhibitor, ZVAD, the calpain inhibitor, MuhPhe, or with the vehicle, DMSO. Retinal status was evaluated at P35 and P42 by electroretinography, morphometry and apoptotic nuclei detection. DMSO and MuhPhe had no effect on RCS retinas as evidenced by equivalent loss of function and equivalent number of apoptotic cells than in untreated group. ZVAD transiently reduced apoptotic cells and preserved photoreceptor function at P35 but not at P42. These results suggest that caspases but not calpains are involved in retinal degeneration in the RCS. In the second experiments, RCS rats were injected twice at P27 and P35 with ZVAD or DMSO. Although ZVAD-treated retinas were preserved at P35 compared to the DMSO controls, the second injection of ZVAD did not extend the preserving effect to P42. Moreover, a single injection of ZVAD at P35 had no preserving effect at P42. All these data taken together suggest that caspases do not play a pivotal role after P35. In a fourth set of experiments, we used specific caspase inhibitors to elucidate which caspase was activated. The caspase-1/4 inhibitor (YVAD) or the caspase-3/7 inhibitor (DEVD) were injected intravitreally at P27 and retinal status was evaluated at P35 and P42. Electroretinograms and apoptotic nuclei detection demonstrated that YVAD and DEVD preserved photoreceptors at P35 but not at P42. These results suggest that both caspase-1/4 and caspase-3/7 play a major role in the apoptotic pathway between P27 and P35 in retinal degeneration of RCS rats. In this study, we show that 1/ the photoreceptor apoptotic process in the RCS rat involves caspases but not calpains, and 2/ the retinal degeneration seems to be composed of different phases involving different molecular players. Indeed, we have demonstrated that caspases are playing a major role at P35, but not at P42.
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PMID:Transient protective effect of caspase inhibitors in RCS rat. 1827 51

Baculovirus proteins P49 and P35 are potent suppressors of apoptosis in diverse organisms. Although related, P49 and P35 inhibit initiator and effector caspases, respectively, during infection of permissive insect cells. The molecular basis of this novel caspase specificity is unknown. To advance strategies for selective inhibition of the cell death caspases, we investigated biochemical differences between these baculovirus substrate inhibitors. We report here that P49 and P35 use similar mechanisms for stoichiometric inhibition that require caspase cleavage of their reactive site loops (RSL) and chemical contributions of a conserved N-terminal cysteine to stabilize the resulting inhibitory complex. Our data indicated that P49 functions as a homodimer that simultaneously binds two caspases. In contrast, P35 is a monomeric, monovalent inhibitor. P49 and P35 also differ in their RSL caspase recognition sequences. We tested the role of the P(4)-P(1) recognition motif for caspase specificity by monitoring virus-induced proteolytic processing of Sf-caspase-1, the principal effector caspase of the host insect Spodoptera frugiperda. When P49's TVTD recognition motif was replaced with P35's DQMD motif, P49 was impaired for inhibition of the initiator caspase that cleaves and activates pro-Sf-caspase-1 and instead formed a stable inhibitory complex with active Sf-caspase-1. In contrast, the effector caspase specificity of P35 was unaltered when P35's DQMD motif was replaced with TVTD. We concluded that the TVTD recognition motif is required but not sufficient for initiator caspase inhibition by P49. Our findings demonstrate a critical role for the P(4)-P(1) recognition site in caspase specificity by P49 and P35 and indicate that additional determinants are involved in target selection.
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PMID:Reactive-site cleavage residues confer target specificity to baculovirus P49, a dimeric member of the P35 family of caspase inhibitors. 1850 88


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