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: UNIPROT:P42574 (caspase-3)
45,978 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The caspase-3 (CPP32, apopain, YAMA) family of cysteinyl proteases has been implicated as key mediators of apoptosis in mammalian cells. Gelsolin was identified as a substrate for caspase-3 by screening the translation products of small complementary DNA pools for sensitivity to cleavage by caspase-3. Gelsolin was cleaved in vivo in a caspase-dependent manner in cells stimulated by Fas. Caspase-cleaved gelsolin severed actin filaments in vitro in a Ca2+-independent manner. Expression of the gelsolin cleavage product in multiple cell types caused the cells to round up, detach from the plate, and undergo nuclear fragmentation. Neutrophils isolated from mice lacking gelsolin had delayed onset of both blebbing and DNA fragmentation, following apoptosis induction, compared with wild-type neutrophils. Thus, cleaved gelsolin may be one physiological effector of morphologic change during apoptosis.
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PMID:Caspase-3-generated fragment of gelsolin: effector of morphological change in apoptosis. 932 9

Gelsolin, an 80 kDa actin-severing protein, has been recently identified as a substrate for the cell death-promoting cysteinyl protease caspase-3 (CPP32/apopain/YAMA). We investigated the role of gelsolin and its cleavage product in apoptosis of vascular smooth muscle cells (SMC) induced by the proinflammatory cytokines interferon-gamma (IFN-gamma) and tumor necrosis factor-alpha (TNF-alpha). Treatment with a combination of IFN-gamma and TNF-alpha reduced viability of SMC in a time- and concentration-dependent manner. Immunoblotting revealed that SMC treated with the cytokines generated a 41 kDa gelsolin fragment. The gelsolin fragmentation required activation of caspase-3, as the caspase-3 inhibitor diminished cytokine-induced cell death as well as the fragmentation. Gelsolin cleavage was accompanied by a reduction in F-actin content and by a marked disruption of cell structure. Adenovirus-mediated transfection of this N-terminal gelsolin fragment into SMC altered cell morphology, reduced cell viability, increased the number of TUNEL-positive cells, and promoted internucleosomal DNA fragmentation. Compared to wild-type cells, gelsolin-deficient SMC showed resistance to apoptosis induced by the inflammatory cytokines. These results suggest a mechanistic role for gelsolin cleavage during SMC apoptosis, a process implicated in vessel development as well as stability of atherosclerotic plaque.
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PMID:Caspase-3-induced gelsolin fragmentation contributes to actin cytoskeletal collapse, nucleolysis, and apoptosis of vascular smooth muscle cells exposed to proinflammatory cytokines. 993 Jun 54

Apoptotic cell death, characterized by chromatin condensation, nuclear fragmentation, cell membrane blebbing, and apoptotic body formation, is also accompanied by typical mitochondrial changes. The latter includes enhanced membrane permeability, fall in mitochondrial membrane potential (Deltapsi(m)) and release of cytochrome c into the cytosol. Gelsolin, an actin regulatory protein, has been shown to inhibit apoptosis, but when cleaved by caspase-3, a fragment that is implicated as an effector of apoptosis is generated. The mechanism by which the full-length form of gelsolin inhibits apoptosis is unclear. Here we show that the overexpression of gelsolin inhibits the loss of Deltapsi(m) and cytochrome c release from mitochondria resulting in the lack of activation of caspase-3, -8, and -9 in Jurkat cells treated with staurosporine, thapsigargin, and protoporphyrin IX. These effects were corroborated in vitro using recombinant gelsolin protein on isolated rat mitochondria stimulated with Ca(2+), atractyloside, or Bax. This protective function of gelsolin, which was not due to simple Ca(2+) sequestration, was inhibited by polyphosphoinositide binding. In addition we confirmed that gelsolin, besides its localization in the cytosol, is also present in the mitochondrial fraction of cells. Gelsolin thus acts on an early step in the apoptotic signaling at the level of mitochondria.
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PMID:Gelsolin inhibits apoptosis by blocking mitochondrial membrane potential loss and cytochrome c release. 1080 69

The actin regulatory protein gelsolin cleaves actin filaments in a calcium- and polyphosphoinositide-dependent manner. Gelsolin has recently been described as a novel substrate of the cysteinyl protease caspase-3, an effector protease activated during apoptosis. Cleavage by caspase-3 generates an amino-terminal fragment of gelsolin that can sever actin filaments independently of calcium regulation. The disruption of the actin cytoskeleton by cleaved gelsolin is hypothesized to mediate many of the downstream morphological changes associated with apoptosis. In contrast, overexpression of full-length gelsolin has also been reported to inhibit apoptotic cell death upstream of the activation of caspase-3, suggesting that gelsolin may also act prior to commitment to cell death. The authors previously observed that actin stabilization by the cell permeant agent jasplakinolide enhanced cell death upon interleukin (IL)-2 or IL-3 withdrawal from growth-factor-dependent lymphocyte cell lines, and hypothesized that actin polymerization could alter the activity of gelsolin, thus enhancing apoptosis. Here the authors show that constitutive overexpression of gelsolin did not, however, inhibit or dramatically enhance apoptotic cell death upon growth-factor withdrawal, nor did it modify sensitivity to jasplakinolide. In contrast to previous reports, overexpression of gelsolin in Jurkat T cells did not prevent or delay apoptosis induced by Fas ligation or ceramide treatment. Overexpressed gelsolin protein was cleaved during apoptosis, as seen previously in this and other cell types. In these model systems, therefore, the level of gelsolin expression was not a rate-limiting determinant in commitment to or time to the morphological changes of apoptosis.
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PMID:Failure of gelsolin overexpression to regulate lymphocyte apoptosis. 1082 33

Cholangiocarcinoma (CCA), a malignant tumor derived from bile duct epithelium, occurs with a higher incidence in tropical countires especially in some areas of Southeast Asian countries such as Thailand. This tumor is relatively resistant to chemotherapy. In this study, molecular mechanism of killing of this tumor by TNF-alpha was investigated. Human cholangiocarcinoma cell line (HuCCA-1) was developed and used as a model for treatment. Activation of HuCCA-1 with TNF-alpha in the present of actinomycin D (1 microg/ml) caused death of the tumor cells. Western blotting analysis of the cells extracted demonstrated the cleavage of poly (ADP-ribose) polymerase (PARP) within 6-8 hours following TNF-alpha treatment indicating apoptotic death. The cleavage of PARP was inhibited when the cell line was pretreated with peptide inhibitor, Ac-DEVD-CHO, suggesting that apoptosis induced by TNF-alpha of this cell line involves activation of caspase II subfamily. The procaspase 3 (proCPP-32), one of the caspase group II subfamily was degraded after the HuCCA- I cell line was treated with TNF-alpha. Furthermore, Gelsolin, an 83 kDa protein which is identified as caspase 3 substrate, was cleaved to 43 kDa fragments after the cells were treated with TNF-alpha. These results indicate that apoptosis of human cholangiocarcinoma cell line as induced by TNF-alpha treatment is mediated through caspase 3.
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PMID:TNF-alpha induces caspase 3 (CPP 32) dependent apoptosis in human cholangiocarcinoma cell line. 1141 50

Gelsolin (gsn), an actin-severing protein, protects neurons from excitotoxic cell death via inactivation of membranous Ca(2+) channels. Its role during apoptotic cell death, however, has remained unclear. Using several models of neuronal cell death, we demonstrate that endogenous gelsolin has anti-apoptotic properties that correlate to its dynamic actions on the cytoskeleton. We show that neurons lacking gelsolin (gsn(-/-)) have enhanced apoptosis following exposure to staurosporine, thapsigargin, or the cholinergic toxin ethylcholine aziridinium (AF64A). AF64A-induced loss of mitochondrial membrane potential and activation of caspase-3 was specifically enhanced in gsn(-/-) neurons and could be reversed by pharmacological inhibition of mitochondrial permeability transition. Moreover, increased caspase-3 activation and cell death in AF64A-treated gsn(-/-) neurons were completely reversed by pharmacological depolymerization of actin filaments and further enhanced by their stabilization. In conclusion, actin remodeling by endogenous gelsolin or analogues protects neurons from apoptosis mediated by mitochondria and caspase-3.
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PMID:Neuronal gelsolin prevents apoptosis by enhancing actin depolymerization. 1496 41

Apoptosis is a key mechanism underlying fulminant hepatic failure. The role of gelsolin in such apoptotic pathways is not well understood because both pro-apoptotic and anti-apoptotic effects have been reported in vitro, depending on the cell type and in vitro expression model used. Therefore, we studied an in vivo model of hepatic failure by analyzing expression of gelsolin; intrahepatic activation of caspase-3, -8, and -9; and the extent of apoptosis in gelsolin knockout (gsn(-/-)) versus wild-type mice (gsn(+/+)) after exposure to stimulatory Fas antibody Jo-2. Gelsolin was expressed exclusively in sinusoidal lining cells, including sinusoidal endothelial cells and Kupffer cells, of gsn(+/+) mice. Compared with wild-type mice, Jo2-exposed gsn(-/-) mice showed significantly higher numbers of apoptotic cells in the liver (22 +/- 9 versus 5 +/- 4% terminal deoxynucleotidyl transferase-mediated dUTP nick end labeling-positive cells, P = 0.002); shorter survival (P = 0.037); and enhanced activation of caspase-3 (P = 0.009), -8 (P = 0.004), and -9 (P = 0.004). Furthermore, inhibition of caspase-3 with z-DEVD-fmk blocked Jo2-induced liver failure in all mice. Thus, our data on Jo2-induced hepatic failure suggest that gelsolin exerts an overall anti-apoptotic effect in vivo. Moreover, selective expression of gelsolin in sinusoidal endothelial cells indicates a pivotal role for interactions between sinusoidal endothelial cells and liver parenchymal cells in Fas ligand-mediated liver failure.
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PMID:Anti-apoptotic function of gelsolin in fas antibody-induced liver failure in vivo. 1650 93

Mechanical ventilation, an essential life-support modality of patients with acute lung injury (ALI) or the acute respiratory distress syndrome (ARDS), exerts its detrimental effects through largely unknown mechanisms. Gelsolin (GSN), an actin-binding protein and a substrate of caspase-3, was recently shown to play a major role in bleomycin- or lipopolysaccharide-induced lung injury. To dissect a possible role of GSN in the pathogenesis of ventilator-induced lung injury (VILI), genetically modified mice lacking GSN expression and wild-type controls underwent mechanical ventilation with high tidal volumes. GSN was found up-regulated in the airways upon VILI, and its genetic ablation led to almost complete disease protection as manifested by reduced edema formation, reduced lung injury, attenuated epithelial apoptosis, diminished cytokine expression, and impaired neutrophil infiltration. GSN fragmentation was shown to be an effector mechanism in VILI-induced apoptosis, while GSN expression was shown to be necessary for efficient neutrophil infiltration, which was found to be a prerequisite for VILI induction in this model. Therefore, intracellular GSN and GSN-mediated responses were shown to be an important player in the pathogenesis of VILI.
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PMID:A critical role for gelsolin in ventilator-induced lung injury. 1920 7

Gelsolin, a multifunctional actin-binding protein, forms a complex with amyloid-beta protein and reduces the amyloid load in the transgenic mouse model of Alzheimer's disease (AD). Gelsolin consists of six homologous domains, which have specific affinities for phosphatidylinositol 4, 5-bisphosphate, calcium, and actin. During apoptosis, gelsolin is cleaved by the caspase-3 resulting in a 48 kDa carboxyl-terminal fragment (gelsolin-CTF). We report here that gelsolin is significantly cleaved in the frontal cortex of individuals with AD as compared to age-matched controls. A positive correlation was observed between the appearance of gelsolin-CTF in frontal cortex and severity of AD. Gelsolin-CTF was also observed in apoptotic SH-SY5Y cells induced by H2O2 or calcium ionophore A23187. In addition, lipid peroxidation was increased in the frontal cortex of AD suggesting that oxidative stress occurs in AD brain. Taken together, these results suggest that there may be a link among oxidative stress, neuronal apoptosis, and gelsolin cleavage in AD.
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PMID:Gelsolin is proteolytically cleaved in the brains of individuals with Alzheimer's disease. 1962 52

Activated hepatic stellate cells (HSCs) are the major source for alteration of extracellular matrix in fibrosis and cirrhosis. Conditioned medium (CM) collected from immortalized human hepatocytes (IHH) have earlier been shown to be responsible for apoptosis of HSCs. In this study, we have shown that antibodies raised against a peptide derived from a linear B-cell epitope in the N-terminal region of gelsolin identified a gelsolin fragment in IHH CM. Analysis of activated stellate cell death by CM collected from Huh7 cells transfected with plasmids encoding gelsolin deletion mutants suggested that the N-terminal half of gelsolin contained sequences which were responsible for stellate cell death. Further analysis determined that this activity was restricted to a region encompassing amino acids 1-70 in the gelsolin sequence; antibody directed to an epitope within this region was able to neutralize stellate cell death. Gelsolin modulation of cell death using this fragment involved upregulation of TRAIL-R1 and TRAIL-R2, and involved caspase 3 activation by extrinsic pathway. The apoptotic activity of N-terminal gelsolin fragments was restricted to activated but not quiescent stellate cells indicating its potential application in therapeutic use as an anti-fibrotic agent. Gelsolin fragments encompassing N-terminal regions in polypeptides of different molecular sizes were detected by N-terminal peptide specific antiserum in IHH CM immunoprecipitated with chronically HCV infected patient sera, suggesting the presence of autoantibodies generated against N-terminal gelsolin fragments in patients with chronic liver disease.
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PMID:N-terminal region of gelsolin induces apoptosis of activated hepatic stellate cells by a caspase-dependent mechanism. 2295 82


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