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)

Apoptosis is regulated by specific intracellular signaling pathways. The development of cardiomyopathy involves the apoptosis of cardiomyocytes; however, the details of their apoptotic signaling are not yet known. Insulin-like growth factor I (IGF I) is an important survival growth factor for myocardium and other tissues, but the effects of IGF I on apoptotic signaling remain largely unknown. To study apoptotic signaling pathways in cardiomyocytes and to understand IGF I actions on the apoptotic signaling of cardiac muscle cells, we have defined the effects of IGF I on Bcl-2, Bax, caspase 3, DNA fragmentation, and cell survival in primary cardiomyocytes. Compared with Bax levels, the levels of Bcl-2 were found to be quite low in these cells. Serum withdrawal and doxorubicin reduced cell viability, increased fragmentation of DNA, increased cellular contents of Bax, and activated caspase 3. IGF I enhanced cell viability, suppressed DNA fragmentation, attenuated Bax induction, and suppressed caspase 3 activation. The levels of Bcl-2-associated Bax were increased after serum withdrawal and incubation with doxorubicin and were reduced by IGF I. Thus, cardiomyocyte apoptosis induced by serum withdrawal and doxorubicin likely results, in part, from the induction of Bax and activation of caspase 3, but IGF I may inhibit cardiomyocyte apoptosis by attenuating Bax induction and caspase 3 activation. These findings provide new insight into the mechanisms of cardiomyocytes apoptosis and may help elucidate how IGF I modulates apoptotic signaling in cardiac muscle.
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PMID:Regulation of cardiomyocyte apoptotic signaling by insulin-like growth factor I. 973 74

Apoptosis has been shown to contribute to loss of cardiomyocytes in cardiomyopathy, progressive decline in left ventricular function, and congestive heart failure. Because the molecular mechanisms involved in apoptosis of cardiocytes are not completely understood, we studied the biochemical and ultrastructural characteristics of upstream regulators of apoptosis in hearts explanted from patients undergoing transplantation. Sixteen explanted hearts from patients undergoing heart transplantation were studied by electron microscopy or immunoblotting to detect release of mitochondrial cytochrome c and activation of caspase-3. The hearts explanted from five victims of motor vehicle accidents or myocardial ventricular tissues from three donor hearts were used as controls. Evidence of apoptosis was observed only in endstage cardiomyopathy. There was significant accumulation of cytochrome c in the cytosol, over myofibrils, and near intercalated discs of cardiomyocytes in failing hearts. The release of mitochondrial cytochrome c was associated with activation of caspase-3 and cleavage of its substrate protein kinase C delta but not poly(ADP-ribose) polymerase. By contrast, there was no apparent accumulation of cytosolic cytochrome c or caspase-3 activation in the hearts used as controls. The present study provides in vivo evidence of cytochrome c-dependent activation of cysteine proteases in human cardiomyopathy. Activation of proteases supports the phenomenon of apoptosis in myopathic process. Because loss of myocytes contributes to myocardial dysfunction and is a predictor of adverse outcomes in the patients with congestive heart failure, the present demonstration of an activated apoptotic cascade in cardiomyopathy could provide the basis for novel interventional strategies.
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PMID:Apoptosis in heart failure: release of cytochrome c from mitochondria and activation of caspase-3 in human cardiomyopathy. 1039 65

Apoptosis of cardiac muscle cells contributes to the development of cardiomyopathy. Recent studies showed that insulin-like growth factor I (IGF-I) inhibits apoptosis of cardiac muscle cells and improves myocardial function in experimental heart failure. This study was carried out to elucidate the role of phosphatidylinositol 3-kinase (PI 3-kinase) in the anti-apoptotic actions of IGF-I in cardiomyocytes and to explore whether expression of constitutively active PI 3-kinase can inhibit apoptosis in cardiomyocytes. Apoptosis of primary cardiomyocytes was induced by doxorubicin treatment and serum withdrawal. Transduction of cardiomyocytes with constitutively active PI 3-kinase specifically lead to serine phosphorylation of Akt, whereas phosphorylation of IGF-I receptor, IRS1/2 and p44/42 mitogen-activated protein kinase were not increased. In the cardiomyocytes transduced with constitutively active PI 3-kinase, activation of the pro-apoptotic caspase 3 was attenuated and fragmentation of DNA was reduced. Preincubating cells with PI 3-kinase inhibitor LY294002 was associated with loss of anti-apoptotic actions of IGF-I and PI 3-kinase. Neither IGF-I nor constitutively active PI 3-kinase lead to serine phosphorylation of Bad, suggesting that the anti-apoptotic effects of PI 3-kinase are not mediated through Bad phosphorylation in cardiac muscle cells. To determine whether activation of caspase 3 is sufficient to induce apoptosis in cardiomyocytes, an engineered TAT-caspase 3 protein was introduced to cardiomyocytes. Significant reduction of cell viability occurred in the cardiomyocytes transduced with active caspase 3, indicating that activation of caspase 3 is sufficient to cause cardiomyocyte death. These findings indicate the existence of an IGF-I receptor-PI 3-kinase-caspase 3 pathway in cardiomyocytes that plays an important role in the anti-apoptotic actions of IGF-I in heart. Moreover, these data suggest that modulation of PI 3-kinase activities may represent a potential therapeutic strategy to counteract the occurrence of apoptosis in cardiomyopathy.
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PMID:Expression of constitutively active phosphatidylinositol 3-kinase inhibits activation of caspase 3 and apoptosis of cardiac muscle cells. 1100 72

The dose-dependent cardiomyopathy and heart failure due to adriamycin have been shown to be due to increased oxidative stress and loss of myocytes. We examined the incidence of myocardial apoptosis as well as changes in the expression of apoptotic regulatory gene products in an established animal model of adriamycin cardiomyopathy. Rats were treated with adriamycin (cumulative dose, 15 mg/kg), and the hearts were examined for apoptosis as well as expression of Bax, caspase 3, and Bcl-2 at 0, 4, 10, 16, and 21 days after the treatment. A significant increase in the incidence of apoptosis was seen at 4 days, followed by a decline at 10 and 16 days of posttreatment. At 21 days, the number of apoptotic cells increased again and included cells of the conducting system. Expression of Bax corresponded to these biphasic changes, whereas the converse was true for the expression of Bcl-2. The latter peaked at 10 days followed by a decline at 16 and 21 days. The Bax/Bcl-2 ratio also correlated with the incidence of apoptosis. Expression of caspase 3 correlated with increased apoptosis, but only at early time points. Probucol (cumulative dose, 120 mg/kg), a known antioxidant as well as promoter of endogenous antioxidants, significantly reduced the incidence of apoptosis as well as expression of Bax. Adriamycin-induced hemodynamic changes were also prevented by probucol. These data suggest that adriamycin-induced apoptosis is mediated by oxidative stress and may play a role in the development of heart failure.
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PMID:Apoptosis in adriamycin cardiomyopathy and its modulation by probucol. 1129 92

Chronic congestive heart failure (CHF) causes structural remodeling of the liver, generally leading to nutmeg liver. Male UM-X7.1 hamsters, a strain developing cardiomyopathy, had no CHF and decompensated CHF (n = 6 each) at the age of 10 and 30 weeks, respectively. We used age-matched, male Syrian hamsters without CHF (n = 6 each) as controls. All the 30-week-old UM-X7.1 hamsters had a typical nutmeg liver in which the population of hepatocytes was decreased. Positive in situ nick end labeling (TUNEL) was found in 2.2 +/- 0.74% of hepatocytes in congestive livers, being significantly higher compared with the other groups without CHF (< 0.5%). DNA ladder pattern was also evident in the congestive livers. Electron microscopy revealed a typical apoptotic ultrastructure in the hepatocytes of the 30-week-old UM-X7.1 hamsters. However, many showed secondary necrotic changes. Although hepatocytes undergoing oncosis (primary necrosis) are rare, they were also found. The level of soluble Fas ligand in the plasma was increased, and Fas receptor in the liver was overexpressed in the CHF animals. In addition, both the Bax/Bcl-2 ratio and the Bad/Bcl-xL ratio were increased, and caspase-3 was activated in them. Our findings suggest that hepatocyte apoptosis contributes to hepatic remodeling under conditions of CHF.
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PMID:Abundant apoptosis in nutmeg liver of cardiomyopathic hamsters. Apoptotic cell death as a possible mechanism of hepatic remodeling by congestion. 1204 38

Loss of cardiomyocytes through programmed cell death is a key event in the development of heart failure, but the inciting molecular mechanisms are largely unknown. We used microarray analysis to identify a genetic program for myocardial apoptosis in Gq-mediated and pressure-overload cardiac hypertrophy. A critical component of this apoptotic program was Nix/Bnip3L. Nix localized to mitochondria and caused release of cytochrome c, activation of caspase-3 and apoptotic cell death, when expressed in HEK293 fibroblasts. A previously undescribed truncated Nix isoform, termed sNix, was not targeted to mitochondria but heterodimerized with Nix and protected against Nix-mediated apoptosis. Forced in vivo myocardial expression of Nix resulted in apoptotic cardiomyopathy and rapid death. Conversely, sNix protected against apoptotic peripartum cardiomyopathy in G(alpha)q-overexpressors. Thus, Nix/Bnip3L is upregulated in myocardial hypertrophy, and is both necessary and sufficient for Gq-mediated apoptosis of cardiomyocytes and resulting hypertrophy decompensation.
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PMID:Mitochondrial death protein Nix is induced in cardiac hypertrophy and triggers apoptotic cardiomyopathy. 1205 74

Arsenic trioxide is highly effective in the treatment of acute promyelocytic leukemia (APL). In September 2000, the Trisenox brand of arsenic trioxide for the treatment of relapsed and refractory APL was approved in the United States. A recent clinical report has shown a serious ventricular tachycardia at the therapeutic doses of arsenic trioxide in APL patients. The present study was undertaken to investigate the cardiotoxic effect of arsenic trioxide using a mouse model. Animals were injected intraperitoneally with arsenic trioxide 5 mg/ kg/d for 30 d, a dose regiment that has been shown to produce plasma concentrations of arsenic within the range of those present in arsenic-treated APL patients. Analysis of myocardial function revealed that arsenic caused a significant decrease in the maximum rate of rise in intraventricular pressure during ventricular contraction (MAX dP/dt), and significant increases in the end diastolic pressure and ventricle minimum diastolic pressure. In response to B-adrenergic stimulation by isoproterenol, the arsenic-treated heart did not show increase in MAX dP/dt, which was observed as a stress response in the saline-treated controls. The functional alterations were accompanied by cardiomyopathy, as revealed by histopathological and ultrastructural examination. Furthermore, arsenic caused myocardial apoptosis, as determined by a terminal deoxynucleotidyl transferase-mediated dUTP nick-end labeling assay, which was confirmed by caspase-3 activation detected by enzymatic assay. Our study thus demonstrates that arsenic trioxide, in a dose that could produce clinically comparable serum concentrations to those observed in humans, causes cardiotoxicity.
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PMID:Myocardial toxicity of arsenic trioxide in a mouse model. 1218 81

Adriamycin is a potent, broad-spectrum chemotherapeutic agent effective against solid tumors and malignant hematological disease. The major limiting factor for adriamycin is its cardiotoxicity. Thus, the objective of this study was to investigate the role of cardiomyocyte and endothelial cell apoptosis in adriamycin-induced cardiomyopathy, in vivo and in vitro. For in vivo study, intraperitoneal injections of adriamycin were administered to nine adult male Wistar rats and normal saline to six rats as control. Eight of the nine rats in the adriamycin group, but none in the control group, developed marked ascites and DNA ladders in agarose gel electrophoresis of genomic DNA extracted from the rat hearts (P<0.001). The ratio of apoptotic nuclei in the cardiomyocytes was significantly higher for the adriamycin-treated rats (162+/-149/10(6) cells) than for the controls (4.2+/-1.3/10(6) cells; P<0.01) by TUNEL assay. Increased endothelial cell apoptosis was detected in the small coronary vessels of the myocardium of the adriamycin-treated rats. Increased immuno-reactive Caspase-3 expression was also noted for both cardiomyocytes and endothelial cells of adriamycin-treated rats. In vitro adriamycin treatment for cultured neonatal rat cardiomyocytes and human umbilical vein endothelial cells, respectively, showed a dose-related increase in apoptosis as determined by flowcytometry, DNA ladder analysis, TUNEL assay and/or electron-microscope examination. A dose-related increase in the expression of Fas antigen, Bax and Caspase-3, as well as a decrease in the expression of Bcl-2, were determined for the adriamycin-treated cardiomyocytes using Northern blot analysis, reverse transcriptase polymerase chain reaction (RT-PCR) and ribonuclease protection assay. RT-PCR also revealed increased Fas antigen expression, decreased Bcl-2 expression, and no change in Bax expression for the adriamycin-treated human umbilical vein cells. Further, pretreatment with broad caspase inhibitor, but not neutralizing FasL antibody, resulted in inhibition of adriamycin-induced endothelial cell apoptosis. In conclusion, these results indicate that both adriamycin-induced cardiomyocyte and endothelial cell death can occur via apoptosis which is dose-related, and can occur both in vitro and in vivo with changes in the expression of the apoptosis-related genes. Adriamycin-induced endothelial cell apoptosis is mediated by caspase activation but is Fas/FasL signal pathway independent. Our data provides evidence that both cardiomyocyte and endothelial cell apoptosis may play an important role in adriamycin-induced cardiomyopathy.
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PMID:Adriamycin-induced cardiomyocyte and endothelial cell apoptosis: in vitro and in vivo studies. 1250 58

The clinical use of doxorubicin, one of the most effective antitumor drugs, is limited by its cardiotoxicity, which results in irreversible cardiomyopathy and congestive heart failure. This study aimed to evaluate a gene therapy approach using adenovirus-mediated expression of p35, a baculoviral antiapoptotic gene, for alleviating doxorubicin-induced cardiomyopathy. In cultured neonatal rat cardiomyocytes, transduction with a recombinant adenoviral vector expressing p35 (Ad2/CMVp35) but not a control adenoviral vector expressing no transgene (Ad2/CMVEV) significantly inhibited doxorubicin-induced increase in cellular reactive oxygen species (ROS), the activity of caspases 8 and 3, cytochrome c release, and apoptosis. Direct injection of Ad2/CMVp35 into the left ventricular wall inhibited myocardial caspase 3 activity and apoptosis and improved left ventricular performance in rats treated with doxorubicin, whereas the same dose of Ad2/CMV beta gal encoding beta-galactosidase had no effect. These results suggest that adenovirus-mediated expression of p35 protects cardiomyocytes against doxorubicin cardiotoxicity, possibly by inhibiting caspase activity and by reducing cellular ROS levels. Localized delivery of gene transfer vectors expressing an antiapoptotic protein such as p35 to the myocardium may represent a therapeutic approach to alleviate doxorubicin-induced cardiomyopathy.
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PMID:Myocardial expression of baculoviral p35 alleviates doxorubicin-induced cardiomyopathy in rats. 1286 13

Lipid accumulation is associated with cardiac dysfunction in diabetes and obesity. Transgenic mice expressing non-transferable lipoprotein lipase (LpL) with a glycosylated phosphatidyl-inositol (GPI) anchor in cardiomyocytes have dilated cardiomyopathy. However, the mechanisms responsible for lipid accumulation and cardiomyopathy are not clear. Hearts from 3-month-old mice expressing GPI-anchored human LpL (hLpLGPI) mice had increased fatty acid oxidation and heart failure genes and decreased glucose transporter genes. 6-month-old mice had increased mRNA expression and activation of the apoptosis marker caspase-3. Moreover, hLpLGPI hearts had significant cytochrome c release from mitochondria to cytosol. Low density lipoprotein uptake was greater in hLpLGPI hearts, and this was associated with more intracellular apolipoprotein B (apoB). To test whether lipid accumulation in the hLpLGPI heart is reduced by cardiac expression of apoB, hLpLGPI mice were bred with transgenic human apoB (HuB)-expressing mice. Hearts of HuB/hLpLGPI mice had less triglyceride (38%) and free fatty acids (19%), secreted more apoB, and expressed less atrial natriuretic factor (ANF) and brain natriuretic peptide (BNP) and more glucose transporter 4 (GLUT4). The increased mortality of the mice was abrogated by the transgenic expression of apoB. Therefore, we hypothesize that cardiac apoB expression improves cardiomyopathy by increasing lipid resecretion from the heart.
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PMID:Apolipoprotein B production reduces lipotoxic cardiomyopathy: studies in heart-specific lipoprotein lipase transgenic mouse. 1463 11


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