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)

Staphylococcal enterotoxin B (SEB) is a toxic shock-inducing agent produced by Staphylococcus aureus. The hallmark of SEB-induced lethal shock is acute vasodilation leading to severe hypotension. Animal studies reveal that approximately 70% of intravenously administered toxin localizes to renal proximal tubule epithelial cells (RPTEC). This evidence, together with the well-documented role of the kidney in regulation of vascular tone, suggests that molecular events induced in RPTEC by SEB may contribute to the blood pressure dysregulation seen in enterotoxic shock. In an attempt to elucidate these molecular mechanisms, differential display was performed on SEB-treated and untreated RPTEC, and 32 differentially expressed transcripts (DETs) were identified. One of the down-regulated DETs matched the sequence for Rnd3, which normally inhibits Rho protein function. Consistent with Rnd3 down-regulation, message for RhoA was shown to increase upon SEB exposure, and actin stress fiber formation was dramatically increased. Further, SEB-exposed cells showed both increased enzymatic activity of caspase-3 and an increase in the percentage of apoptotic cells. Taken together, these results support the hypothesis that RPTEC undergo apoptosis upon exposure to SEB. Furthermore, these data implicate the involvement of the Rho family proteins in the molecular signaling pathway induced by SEB in RPTEC.
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PMID:Staphylococcal enterotoxin B causes differential expression of Rnd3 and RhoA in renal proximal tubule epithelial cells while inducing actin stress fiber assembly and apoptosis. 1872 71

3-Hydroxy-3-methylglutaryl CoA reductase inhibitors (statins) are safe and well-tolerated therapeutic drugs. However, they occasionally induce myotoxicity such as myopathy and rhabdomyolysis. Here, we investigated the mechanism of statin-induced myotoxicity in L6 fibroblasts and in rats in vivo. L6 fibroblasts were differentiated and then treated with pravastatin, simvastatin, or fluvastatin for 72 h. Hydrophobic simvastatin and fluvastatin decreased cell viability in a dose-dependent manner via apoptosis characterized by typical nuclear fragmentation and condensation and caspase-3 activation. Both hydrophobic statins transferred RhoA localization from the cell membrane to the cytosol. These changes induced by both hydrophobic statins were completely abolished by the co-application of geranylgeranylpyrophosphate (GGPP). Y27632, a Rho-kinase inhibitor, mimicked the hydrophobic statin-induced apoptosis. Hydrophilic pravastatin did not affect the viability of the cells. Fluvastatin was continuously infused (2.08 mg/kg at an infusion rate of 0.5 mL/h) into the right internal jugular vein of the rats in vivo for 72 h. Fluvastatin infusion significantly elevated the plasma CPK level and transferred RhoA localization in the skeletal muscle from the cell membrane to the cytosol. In conclusion, RhoA dysfunction due to loss of lipid modification with GGPP is involved in the mechanisms of statin-induced skeletal muscle toxicity.
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PMID:Possible mechanisms underlying statin-induced skeletal muscle toxicity in L6 fibroblasts and in rats. 1912 82

The antiproliferative immunosuppressive drug mycophenolic acid (MPA) is an uncompetitive inhibitor of inosine monophosphate dehydrogenase, a key enzyme in de novo synthesis of purine nucleotides. The latter are not only required for synthesis of DNA and RNA but also are essential for the regulation of numerous cellular signaling pathways modulated by guanine nucleotide binding proteins (G proteins). We undertook an analysis of the influence of MPA on protein expression in a T-lymphoblast cell line (CCRF-CEM), which displays concentration-dependent inhibition of proliferation by MPA to obtain insight into the influence of MPA on the cellular proteome. Cells were stimulated with phorbol myristate acetate/ionomycin and incubated in the presence or absence of MPA. Two-dimensional electrophoresis and densitometric imaging revealed 11 differentially expressed protein spots (P < 0.05) on MPA treatment, 6 with increased and 5 with decreased abundance. After in-gel tryptic digestion, proteins were identified by quadrupole time-of-flight mass spectrometry. Proteins displaying increased abundance after MPA treatment included splicing factor arginine/serine-rich 2, prostaglandin E synthase 3, peptidyl-prolyl cis-trans isomerase A, and deoxyuridine 5'-triphosphate nucleotidohydrolase. Endoplasmin, proliferating cell nuclear antigen, acidic leucine-rich nuclear phosphoprotein 32 family member A, and cofilin 1 showed decreased abundance after MPA treatment. Three separate spots (1 decreased and 2 increased abundance) were identified as Rho guanosine diphosphate dissociation inhibitor 2 (Rho GDI 2) proteins. Western blotting with a monoclonal antibody directed against the Rho GDI 2 site cleaved by caspase 3 demonstrated 1 spot with increased abundance to be the caspase 3-cleaved product of Rho GDI 2 lacking the first 19 amino acids. Rho GDI 2 plays a central regulatory role in the activation of Rho guanosine triphosphatases that function as molecular switches in cell signaling pathways affecting cell cytoskeletal dynamics and motility. Our data suggest that MPA can modulate Rho GDI 2 levels in T lymphocytes, thereby potentially disrupting cell signaling pathways important for T-cell function.
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PMID:Differential proteomic analysis of lymphocytes treated with mycophenolic acid reveals caspase 3-induced cleavage of rho GDP dissociation inhibitor 2. 1921 48

Ginseng is a well known herbal medicine in Asia, and ginsenoside Rg3 has anti-cancer and various pharmacological effects. In particular, 20S-ginsenoside Rg3 may increase the anti-proliferative effects of chemotherapy. The authors investigated the mechanism of the anti-proliferative effect of 20S-Rg3 at the protein level in HT29 colon cancer cells. MTT, caspase-3 assays, and flow cytometry analysis were performed to determine cytotoxicity and apoptosis, and proteomic analysis was performed by two-dimensional gel electrophoresis and MALDI-TOF/TOF MS, and a database was used to identify protein changes in 20S-Rg3 treated HT29 cells. The proteins identified included down-regulated Rho GDP dissociation inhibitor, up-regulated tropomyosin1, and annexin5 and glutathione s-transferase p1, which are apoptosis associated proteins. The anti-proliferative mechanism of 20S-Rg3 was found to be involved in mitotic inhibition, DNA replication, and repair and growth factor signaling. The findings of this study suggest that the cytotoxicity of 20S-Rg3 in colon cancer is dependent on several mechanisms, including apoptosis.
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PMID:Proteomic analysis of the anti-cancer effect of 20S-ginsenoside Rg3 in human colon cancer cell lines. 1935 32

Benzyl isothiocyanate can exert anti-tumor effect by arrest of cell cycle progression and induction of apoptosis in human pancreatic cancer cells. Among them, the dissection of the molecular mechanism of induction of apoptosis is important because the knowledge may be exploited for both cancer prevention and treatment. Our studies reported here indicate that BITC-mediated apoptosis involves the disappearance of intact 21-kDa Bid protein, cytochrome c release and predominant procaspase-3 cleavage. Using adenocarcinoma and metastatic pancreatic cancer cells, we investigated whether this dietary isothiocyanate induces apoptosis by converging two major pathways: the death receptor-mediated extrinsic and the mitochondrial intrinsic pathway. Indeed, cell surface receptor analysis by flow cytometry demonstrates the up-regulation of DR4, a member of death receptor family in BITC exposed pancreatic cancer cells. Since BITC is able to trigger death receptor signaling, we were interested in examining the effects of BITC and death receptor ligand TRAIL together on pancreatic cancer cell death. Interestingly, BITC augments TRAIL-induced apoptosis in both metastatic and adenocarcinoma cells. Moreover, we report for the first time that the sensitivity of metastatic pancreatic cancer cells to this isothiocyanate might be due to down-modulation of the proangiogenic molecule small GTPase Rac1 and caspase-3 substrate RasGAP, a regulator of Rho GTPase family.
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PMID:Anti-proliferative and proapoptotic effects of benzyl isothiocyanate on human pancreatic cancer cells is linked to death receptor activation and RasGAP/Rac1 down-modulation. 1963 79

15-Hydroxyeicosatetraenoic acid (15-HETE), a product of arachidonic acid (AA) catalyzed by 15-lipoxygenase (15-LO), plays an essential role in hypoxic pulmonary arterial hypertension. We have previously shown that 15-HETE inhibits apoptosis in pulmonary artery smooth muscle cells (PASMCs). To test the hypothesis that such an effect is attributable to the hypoxia-induced pulmonary vascular remodeling (PVR), we performed these studies. We found subtle thickening of proximal media/adventitia of the pulmonary arteries (PA) in rats that had been exposed to hypoxia. This was associated with an up-regulation of the anti-apoptotic Bcl-2 expression and down-regulation of pro-apoptotic caspase-3 and Bax expression in PA homogenates. Nordihydroguaiaretic acid (NDGA), which inhibits the generation of endogenous 15-HETE, reversed all the alterations following hypoxia. In situ hybridization histochemistry and immunocytochemistry showed that the 15-LO-1 mRNA and protein were localized in pulmonary artery endothelial cells (PAECs), while the 15-LO-2 mRNA and protein were localized in both PAECs and PASMCs. Furthermore, the Rho-kinase (ROCK) pathway was activated by both endogenous and exogenous 15-HETE, alleviating the serum deprivation (SD)-induced PASMC apoptosis. Thus, these findings indicate that 15-HETE protects PASMC from apoptosis, contributing to pulmonary vascular medial thickening, and the effect is, at least in part, mediated via the ROCK pathway.
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PMID:ROCK pathway participates in the processes that 15-hydroxyeicosatetraenoic acid (15-HETE) mediated the pulmonary vascular remodeling induced by hypoxia in rat. 1974 21

The two-way communication between the ECM (extracellular matrix) and the cytoplasm via the integrins has many functions in cancer cells, including the suppression of apoptosis. As cells in a 3D (three-dimensional) architecture resemble the in vivo situation more closely than do cells in more conventional 2D cultures, we have employed a substratum that prevents cell adhesion and induces cell aggregation to determine why highly metastatic B16F10 melanoma cells resist anoikis. We compared the behaviour of B16F10 cells in 2D [on tPS (tissue culture polystyrene)] and 3D culture {on polyHEMA [poly(2-hydroxyethylmethacrylate)]} configurations. For this, we analysed cell morphology, proliferation, apoptosis and the activation status of several proteins involved in cell proliferation and survival [RhoA, FAK (focal adhesion kinase), Akt, ERK1/2 (extracellular-signal-regulated kinase 1/2)]. B16F10 cells in 3D architecture were able to proliferate as cell aggregates for 3 days, after which the number of cells decreased. The normal Swiss 3T3 cells used as an anoikis-sensitive control did not proliferate on the anti-adhesive substratum. Rho A was activated in B16F10 aggregates throughout their time in culture, whereas it was not in Swiss 3T3 aggregates. An absence of apoptotic activity was correlated with the proliferation of B16F10 cells in aggregates: caspase 3 was significantly activated only after 3 days in culture on polyHEMA. FAK and Akt were transiently activated, and their inactivation was correlated with the induction of apoptosis. ERK1/2 were activated throughout the 3D culture. No survival protein was activated in Swiss 3T3 aggregates. Data obtained from cells in 3D culture suggest that B16F10 cells are resistant to anoikis through the activation of the FAK and Akt signalling pathways.
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PMID:Growth and survival signalling in B16F10 melanoma cells in 3D culture. 2001 52

Clostridium difficile is a leading cause of nosocomial infections, causing a spectrum of diseases ranging from diarrhoea to pseudomembranous colitis triggered by a range of virulence factors including C. difficile toxins A (TcdA) and B (TcdB). TcdA and TcdB are monoglucosyltransferases that irreversibly glycosylate small Rho GTPases, inhibiting their ability to interact with their effectors, guanine nucleotide exchange factors, and membrane partners, leading to disruption of downstream signalling pathways and cell death. In addition, TcdB targets the mitochondria, inducing the intrinsic apoptotic pathway resulting in TcdB-mediated apoptosis. Modulation of apoptosis is a common strategy used by infectious agents. Recently, we have shown that the enteropathogenic Escherichia coli (EPEC) type III secretion system effector NleH has a broad-range anti-apoptotic activity. In this study we examined the effects of NleH on cells challenged with TcdB. During infection with wild-type EPEC, NleH inhibited TcdB-induced apoptosis at both low and high toxin concentrations. Transfected nleH1 alone was sufficient to block TcdB-induced cell rounding, nuclear condensation, mitochondrial swelling and lysis, and activation of caspase-3. These results show that NleH acts via a global anti-apoptotic pathway.
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PMID:The enteropathogenic Escherichia coli effector NleH inhibits apoptosis induced by Clostridium difficile toxin B. 2022 5

We and others have reported that Rho-kinase plays an important role in the pathogenesis of heart ischemia/reperfusion (I/R) injury. Studies have also demonstrated that the activation of Rho-kinase is reversed in ischemic preconditioning (IPC). However, the mechanisms by which Rho-kinase is increased in I/R and reversed in IPC are not thoroughly understood. In female Wistar rats, we created I/R by ligating the left anterior-descending branch of the coronary artery (LAD) for 30 min and releasing the ligature for 180 min. IPC rats underwent IPC (two cycles of 5-min ligation of the LAD and 5-min reflow) before I/R. IPC caused a significant increase in extracellular signal-regulated kinase (ERK)1/2 activity and reduced Rho-kinase activity and cardiomyocyte apoptosis (P<0.05 versus I/R). Administration of PD98059, an inhibitor of ERK-mitogen-activated protein kinase (MAPK), increased cardiomyocyte apoptosis, Caspase-3 activity and myocardial infarction size (P<0.05 versus IPC). Western-blot analysis showed that administration of PD98059 increased Rho-kinase activity. Treatment with fasudil, an inhibitor of Rho-kinase, reversed cell apoptosis caused by treatment with PD98059 in IPC. In addition, ROCK1 (Rho-kinase 1) may be the major Rho-kinase isoform that is opposed by ERK-MAPK signaling in IPC. These results indicate that ERK-MAPK signaling is required in IPC to oppose Rho-kinase activity in cardiomyocyte apoptosis in vivo.
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PMID:ERK-MAPK signaling opposes rho-kinase to reduce cardiomyocyte apoptosis in heart ischemic preconditioning. 2038 34

Epoxyeicosatrienoic acids (EETs), metabolites of arachidonic acid (AA) catalyzed by cytochrome P450 (CYP), have many essential biologic roles in the cardiovascular system including inhibition of apoptosis in cardiomyocytes. In the present study, we tested the potential of 8,9-EET and derivatives to protect pulmonary artery smooth muscle cells (PASMCs) from starvation induced apoptosis. We found 8,9-epoxy-eicos-11(Z)-enoic acid (8,9-EET analog (214)), but not 8,9-EET, increased cell viability, decreased activation of caspase-3 and caspase-9, and decreased TUNEL-positive cells or nuclear condensation induced by serum deprivation (SD) in PASMCs. These effects were reversed after blocking the Rho-kinase (ROCK) pathway with Y-27632 or HA-1077. Therefore, 8,9-EET analog (214) protects PASMC from serum deprivation-induced apoptosis, mediated at least in part via the ROCK pathway. Serum deprivation of PASMCs resulted in mitochondrial membrane depolarization, decreased expression of Bcl-2 and enhanced expression of Bax, all effects were reversed by 8,9-EET analog (214) in a ROCK dependent manner. Because 8,9-EET and not the 8,9-EET analog (214) protects pulmonary artery endothelial cells (PAECs), these observations suggest the potential to differentially promote apoptosis or survival with 8,9-EET or analogs in pulmonary arteries.
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PMID:8,9-Epoxyeicosatrienoic acid analog protects pulmonary artery smooth muscle cells from apoptosis via ROCK pathway. 2049 36


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