UMLS:C0018801 - FACTA Search

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Query: UMLS:C0018801 (heart failure)
72,216 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Apoptosis of cardiomyocytes has been proposed as a factor contributing to severe heart failure. Since the trigger for apoptotic cellular suicide in nonischemic myocardium is unknown, we analyzed in human myocardial tissue the expression of the apoptosis-inducing membrane receptor Fas/APO-1 and of its alternatively spliced soluble isoforms which antagonize Fas by binding of the Fas ligand. Using reverse transcription polymerase chain reaction (RT-PCR) we found mRNA for Fas and 5 isoforms in nonfailing left ventricles, whereas Fas and only one isoform (FasExo6Del) were detectable in failing left ventricles. Standard calibrated, competitive RT-PCR revealed no significant increase of Fas mRNA in failing compared to nonfailing ventricles. However, the mRNA for FasExo6Del, expressed nearly on the same level as Fas in nonfailing ventricles, was decreased about 3-fold in failing ventricles. We propose that this altered expression of the Fas system renders the myocardium more susceptible for Fas-mediated apoptosis in end-stage heart failure.
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PMID:Alternative splicing of the primary Fas transcript generating soluble Fas antagonists is suppressed in the failing human ventricular myocardium. 936 48

Cytokines have been associated with the pathogenesis of acute coronary syndromes and chronic heart failure (CHF), which are both associated with cardiomyocyte loss. In CHF, increased serum concentrations of proinflammatory cytokines, including tumour necrosis factor alpha (TNF-alpha) and also soluble TNF receptor have been found. Both TNF and Fas-ligand have been able to induce programmed cell death (apoptosis) of cardiomyocytes in various experimental studies. In ischaemic conditions of the heart, increased serum levels of soluble Fas receptor have been found. The proinflammatory cytokines interleukin 1 (IL-1), IL-2 and interferon-gamma can induce TNF production from target cells, including myocytes. TNF and some other cytokines are able to induce nitric oxide production, which depresses cardiac function and can induce apoptosis. However, anti-inflammatory cytokines such as IL-10, IL-4 and IL-13, secreted by T-helper type 2 lymphocytes and other cells, inhibit the production of proinflammatory cytokines. Preliminary studies suggest that cardiotrophin-1, produced by cardiomyocytes, is able to inhibit cytokine-induced cardiomyocyte apoptosis in vitro. As growth hormone is able to inhibit the production of proinflammatory cytokines in many cell types, it may also play an important role in the regulation of apoptosis induced by these cytokines. When the cytokine-induced pathways leading to altered gene expression of cardiomyocytes are understood, this knowledge may aid in the development of drugs that prevent progressive cardiomyocyte loss, in particular by inhibiting cytokine-induced apoptosis.
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PMID:Cytokines and cardiomyocyte death. 937 93

Apoptosis, or programmed cell death, is a mechanism of cell death that plays a major role during development, homeostasis, and in many disease states. The interaction of the cell membrance protein, Fas, with its ligand, Fas ligand, induces apoptosis in Fas-bearing cells. Several factors induce apoptosis in mammalian cardiomyocytes, including reperfusion injury, hypoxia, mechanical stretch, myocardial infarction, rapid ventricular pacing, and hypertensive heart failure. Although studies in the transplanted hearts of rodents and humans have shown the presence of Fas, Fas ligand, and apoptosis in the myocardium, there is controversy regarding which cells in the myocardium are actually undergoing apoptosis after heart transplantation. It is even less clear what type of relationship, if any, apoptosis has to allograft rejection or post-transplant graft coronary vasculopathy. This review summarizes the current knowledge regarding apoptosis in the transplanted heart and discusses some of the controversies surrounding this new and rapidly expanding area of investigation.
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PMID:Apoptosis in heart transplantation. 945 43

Carvedilol, a new vasodilating beta-adrenoceptor antagonist and a potent antioxidant, produces a high degree of cardioprotection in a variety of experimental models of ischemic cardiac injury. Recent clinical studies in patients with heart failure have demonstrated that carvedilol reduces morbidity and mortality and inhibits cardiac remodeling. The present study was designed to explore whether the protective effects of carvedilol on the ischemic myocardium include inhibition of apoptosis of cardiomyocytes and, if so, to determine its mechanism of action. Anesthetized rabbits were subjected to 30 minutes of coronary artery occlusion followed by 4 hours of reperfusion. Detection of apoptosis of cardiomyocytes was based on the presence of nucleosomal DNA fragments on agarose gels (DNA ladder) and in situ nick end labeling. Carvedilol (1 mg/kg IV), administered 5 minutes before reperfusion, reduced the number of apoptotic myocytes in the ischemic area from 14.7 +/- 0.4% to 3.4 +/- 1.8% (77% reduction, P<.001). Propranolol, administered at equipotent beta-blocking dosage, reduced the number of apoptotic myocytes to 8.9 +/- 2.1% (39% reduction, P<.05). DNA ladders were observed in the hearts of all six vehicle-treated rabbits but only one of six carvedilol-treated rabbits (P<.01). Immunocytochemical analysis of rabbit hearts demonstrated an upregulation of Fas protein in ischemic cardiomyocytes, and treatment with carvedilol reduced both the intensity of staining as well as the area stained. Myocardial ischemia/reperfusion led to a rapid activation of stress-activated protein kinase (SAPK) in the ischemic area but not in nonischemic regions. SAPK activity was increased from 2.1 +/- 0.3 mU/mg (basal) to 8.9 +/- 0.8 mU/mg after 30 minutes of ischemia followed by 20 minutes of reperfusion. Carvedilol inhibited the activation of SAPK by 53.4 +/- 6.5% (P<.05). Under the same conditions, propranolol (1 mg/kg) had no effect on SAPK activation. Taken together, these results suggest that carvedilol prevents myocardial ischemia/reperfusion-induced apoptosis in cardiomyocytes possibly by downregulation of the SAPK signaling pathway, by inhibition of Fas receptor expression, and by beta-adrenergic blockade. The former two actions represent novel and important mechanisms that may contribute to the cardioprotective effects of carvedilol.
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PMID:Possible involvement of stress-activated protein kinase signaling pathway and Fas receptor expression in prevention of ischemia/reperfusion-induced cardiomyocyte apoptosis by carvedilol. 946 87

The inositol 1,4,5-trisphosphate receptor (IP3R) is an endoplasmic reticular calcium release channel found in most cell types. Calcium signaling mediated by IP3Rs regulates a wide variety of physiological processes, including smooth muscle contraction, immune function, and fertility. We have focused on the role of the IP3R in programmed cell death and the regulation of IP3R levels in heart failure, a condition shown to be associated with cardiomyocyte apoptosis. During end-stage human heart failure, we have demonstrated that type 1 IP3R (IP3R1) mRNA and protein levels are up-regulated, in contrast to other cardiac calcium regulatory proteins, such as the type 2 ryanodine receptor (RYR2) and type IIa sarcoplasmic reticulum calcium adenosine triphosphatase (SERCA2), which are down-regulated. These data suggest that altered calcium channel expression may contribute to the defects in calcium homeostasis during heart failure. Furthermore, regulation of the IP3R may have implications for the survival of cardiac myocytes. Data from our laboratory have linked IP3R expression with susceptibility to apoptosis. IP3R-deficient T cells are resistant to apoptosis induced by dexamethasone, T cell receptor stimulation, ionizing radiation, and Fas. These findings suggest that intracellular calcium release via IP3Rs is a critical mediator of apoptosis. Thus the IP3R, which is up-regulated during human heart failure, may play a role in cardiomyocyte apoptosis and therefore in the pathophysiology of heart failure.
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PMID:Role of inositol 1,4,5-trisphosphate receptors in regulating apoptotic signaling and heart failure. 947 44

FADD (also known as Mort-1) is a signal transducer downstream of cell death receptor CD95 (also called Fas). CD95, tumor necrosis factor receptor type 1 (TNFR-1), and death receptor 3 (DR3) did not induce apoptosis in FADD-deficient embryonic fibroblasts, whereas DR4, oncogenes E1A and c-myc, and chemotherapeutic agent adriamycin did. Mice with a deletion in the FADD gene did not survive beyond day 11.5 of embryogenesis; these mice showed signs of cardiac failure and abdominal hemorrhage. Chimeric embryos showing a high contribution of FADD null mutant cells to the heart reproduce the phenotype of FADD-deficient mutants. Thus, not only death receptors, but also receptors that couple to developmental programs, may use FADD for signaling.
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PMID:FADD: essential for embryo development and signaling from some, but not all, inducers of apoptosis. 950 48

The heart is a tumor necrosis factor (TNF)-producing organ. Both myocardial macrophages and cardiac myocytes themselves synthesize TNF. Accumulating evidence indicates that myocardial TNF is an autocrine contributor to myocardial dysfunction and cardiomyocyte death in ischemia-reperfusion injury, sepsis, chronic heart failure, viral myocarditis, and cardiac allograft rejection. Indeed, locally (vs. systemically) produced TNF contributes to postischemic myocardial dysfunction via direct depression of contractility and induction of myocyte apoptosis. Lipopolysaccharide or ischemia-reperfusion activates myocardial P38 mitogen-activated protein (MAP) kinase and nuclear factor kappa B, which lead to TNF production. TNF depresses myocardial function by nitric oxide (NO)-dependent and NO-independent (sphingosine dependent) mechanisms. TNF activation of TNF receptor 1 or Fas may induce cardiac myocyte apoptosis. MAP kinases and TNF transcription factors are feasible targets for anti-TNF (i.e., cardioprotective) strategies. Endogenous anti-inflammatory ligands, which trigger the gp130 signaling cascade, heat shock proteins, and TNF-binding proteins, also control TNF production and activity. Thus modulation of TNF in cardiovascular disease represents a realistic goal for clinical medicine.
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PMID:Tumor necrosis factor in the heart. 953 Feb 22

To examine the prognostic role of the circulating soluble form of Fas (sFas), circulating sFas levels were measured in 33 patients with dilated cardiomyopathy (DCM) and 12 age-matched normal control subjects (NC) using an enzyme-linked immunosorbent assay (ELISA). Circulating sFas levels in DCM were significantly higher than those in NC (2.42+/-1.02 vs 1.66+/-0.20 ng/ml, p=0.015). Patients with DCM were stratified into 2 groups [group I (n=15): sFas > or =2.06 ng/ml; group II (n=18): sFas <2.06 ng/ml] on the basis of the mean value plus 2SD of circulating sFas level in NC. The circulating sFas level was significantly increased in relation to the severity of heart failure and correlated positively to left ventricular end-diastolic pressure in DCM. However, there were no significant differences in left ventricular dimension between the 2 groups. There were 5 deaths from worsening heart failure in group II, but there were no deaths in group I during the follow-up period. In conclusion, circulating sFas levels were increased in patients with DCM. Circulating sFas levels are increased in proportion to the severity of heart failure and may provide prognostic information independent of left ventricular geometry.
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PMID:Increased circulating soluble form of Fas in patients with dilated cardiomyopathy. 989 Jan 97

Direct and indirect evidence from a number of studies demonstrates that apoptosis is an important process in heart failure in humans. It is thought that a proapoptotic shift in conditions occurs during heart failure, involving the entire population of cardiac myocytes. A complex mechanism of programmed cell death has been postulated, involving such factors as Fas, Bax and Bcl-2; tumour necrosis may also play a role. Given the myriad apoptotic pathways, a number of opportunities for treatment have been identified.
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PMID:What is the relevance of apoptosis to the myocardium? 1035 Jun 75

Cell death can be induced by 2 different mechanisms: necrosis and apoptosis. Necrosis, on the one hand, is usually caused by unphysiological stress factors such as hyperthermia or hypoxia, apoptosis, on the other hand, is part of the normal organ development and controls for example immune responses. Morphologically, necrosis is characterized by swelling of cells and their organelles leading to the disruption of the cell membrane, which in turn causes an inflammatory reaction in the surrounding tissue. Morphological and biochemical criteria (Figure 1, Table 1) of apoptosis are the condensation of chromatin leading to the development of apoptotic bodies or membrane-enclosed vesicles containing oligonucleosomal DNA fragments. Important diagnostic tools of cell death (Table 2), such as the TUNEL test (Figure 2) or gel electrophoresis of extracted DNA (Figure 3) are based on the above mentioned biochemical characteristics, but a reliable differentiation of apoptotic versus necrotic processes is not always possible. Experimental studies in animals and studies in various diseases of the cardiovascular system were able to show that apoptosis in myocytes can be induced, an issue that has long been discussed controversially. Ischemia, reperfusion, and myocardial infarction were also shown to lead to apoptosis in cardiomyocytes, whereas cell destruction was caused mainly by necrosis. Several authors (Table 3) demonstrated apoptotic indices in cardiomyocytes of patients with dilatated cardiomyopathy, arrhythmogenic right ventricular cardiomyopathy and patients with acute infarction from 0.25 to 35% by the use of the TUNEL test. Others were able to demonstrate an elevated expression of Fas-receptor in cells of atheroslerotic plaques in patients with atherosclerosis and high indices of apoptotic cardiomyocytes in patients with chronic heart failure. We investigated endomyocardial biopsies of patients with inflammatory cardiomyopathy, DCM without inflammatory reaction but the presence of adenoviral or cytomegaloviral genome and idiopathic DCM using the TUNEL test. The percentage of apoptotic cardiomyocytes in biopsies of patients with DCMi was 1.03 and in biopsies of patients with adenoviral genome 0.25, whereas in all other groups no apoptosis was found. If apoptosis plays a major role in myocardial diseases such as heart failure, arrhythmia and others, blocking this mechanism will have to be considered as a therapeutical strategy. Therefore, studies on the extent of apoptotic processes in diseased versus healthy cardiac tissue are of great importance.
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PMID:[Cell death in inflammatory heart muscle diseases--apoptosis or necrosis?]. 1041 44

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