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

Doxorubicin is known to cause cardiomyopathy and congestive heart failure (CHF) upon chronic administration. A major obstacle to doxorubicin-containing multiagent therapies pertains to the possible development of cardiomyopathy and CHF at lower than expected cumulative doses of doxorubicin. For example, the cardiac toxicity of doxorubicin is aggravated by the anti-HER2 antibody Trastuzumab or by the tubulin-active taxane paclitaxel; however, the mechanisms by which Trastuzumab and paclitaxel aggravate doxorubicin-induced cardiotoxicity are mechanistically distinct: Trastuzumab interferes with cardiac-specific survival factors that help the heart to withstand stressor agents like anthracyclines, while paclitaxel acts by stimulating the formation of anthracycline metabolites that play a key role in the mechanism of cardiac failure. Here, we briefly review the molecular mechanisms of the cardiotoxic synergism of Trastuzumab or paclitaxel with doxorubicin, and we attempt to briefly outline how the mechanistic know-how translates into the clinical strategies for improving the safety of anthracycline-based multiagent therapies.
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PMID:Anthracycline cardiotoxicity in breast cancer patients: synergism with trastuzumab and taxanes. 1765 6

Adriamycin (doxorubicin) is a potent and broad-spectrum antineoplastic agent, the clinical utility of which is limited by the development of a cumulative and irreversible cardiomyopathy. Although the drug affects numerous structures in different cell types, the mitochondrion appears to a principal subcellular target for the development of cardiomyopathy. This review describes evidence demonstrating that adriamycin redox cycles on complex I of the mitochondrial electron transport chain to liberate highly reactive free radical species of molecular oxygen. The primary effect of adriamycin on mitochondrial performance is the interference with oxidative phosphorylation and inhibition of ATP synthesis. Free radicals liberated from adriamycin redox cycling are thought to be responsible for many of the secondary effects of adriamycin, including lipid peroxidation, the oxidation of both proteins and DNA, and the depletion of glutathione and pyridine nucleotide reducing equivalents in the cell. It is this altered redox status that is believed to cause assorted changes in intracellular regulation, including the induction of the mitochondrial permeability transition and complete loss of mitochondrial integrity and function. Associated with this is the interference with mitochondrial-mediated cell calcium signaling, which is implicated as essential to the capacity of mitochondria to participate in bioenergetic regulation in response to external signals reflecting changes in metabolic demand. If taken to an extreme, this loss of mitochondrial plasticity may manifest in the liberation of signals mediating either oncotic or necrotic cell death, further perpetuating the cardiac failure associated with adriamycin-induced mitochondrial cardiomyopathy.
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PMID:Adriamycin-induced interference with cardiac mitochondrial calcium homeostasis. 1765 13

Doxorubicin is one of the most effective chemotherapeutic agents; however, it causes dose-dependent cardiomyopathy that may lead to heart failure. Conventional measures of ventricular function, such as fractional shortening, are insensitive in detecting early doxorubicin cardiomyopathy. We tested whether novel two-dimensional radial strain echocardiography (2DSE) can detect early doxorubicin injury following chronic administration in a rat model. 14 male Sprague Dawley rats (240 to 260 g) received doxorubicin 2.5 mg/k i.v. per wk for 10 (n=4) or 12 wk (n=10); 17 controls received saline (10 wk, n=7 and 12 wk, n=10). Serial 2DSE from 0 to 12 wk was done at the mid left ventricle using Vivid 7 echo (General Electric, Waukesha, WI, USA). With Q analysis software, radial strain was obtained. From the two-dimensional (2D) image, anatomical M-mode through the anterior/inferior walls was used to measure fractional shortening. Fibrosis (Masson's trichrome) and caspase-3 activity were measured from excised hearts. Radial strain was lower in the doxorubicin group (12 wk: 26.7+/-3 versus 38.3+/-2.6%, p=0.006), with significant difference by 8 wk whereas fractional shortening was lower with doxorubicin only after 12 wk (30.2+/-1.7 versus 37.6+/-1.4%, p=0.02). Doxorubicin group had lower cardiac mass (0.85+/-0.09 versus 1.14+/-0.04 g, p=0.001), higher caspase-3 activity (1.95+/-0.2 fold increase over control, p<0.0001) and fibrosis (3.9 +/- 0.7 versus 0.7+/-0.1%, p=0.005). Radial strain was related directly to cardiac mass (r=0.61, p=0.0007) and inversely to caspase-3 activity (r= -0.5, p=0.005). 2-dimensional radial strain echocardiography is useful in the early detection of doxorubicin cardiac injury and the reduction in radial strain is associated with histologic markers of doxorubicin cardiomyopathy.
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PMID:Early detection of doxorubicin cardiomyopathy using two-dimensional strain echocardiography. 1793 67

Doxorubicin is a frequently used anticancer drug, but its therapeutic benefit is limited by acute and chronic cardiotoxicity, often leading to heart failure. The mechanisms underlying doxorubicin-induced cardiotoxicity remain unclear. It was previously shown in men that doxorubicin leads to increased endothelin-1 plasma levels. In addition, cardiac-specific overexpression of endothelin-1 in mice resulted in a cardiomyopathy resembling the phenotype following doxorubicin administration. We therefore hypothesized that endothelin-1 is involved in the pathogenesis of doxorubicin cardiotoxicity. In mice (C57Bl/10), we found that doxorubicin (20 mg/kg body weight, i.p.) impaired cardiac function with decreased ejection fraction, diminished cardiac output, and decreased end-systolic pressure points recorded by a microconductance catheter. This impaired function was accompanied by the up-regulation of endothelin-1 expression on mRNA and protein level. In vitro investigations confirmed the regulation of endothelin-1 by doxorubicin and indicated that the doxorubicin-mediated increase of endothelin-1 expression involves epidermal growth factor receptor signaling via the MEK1/2-ERK1/2 cascade, which was further confirmed by immunoblotting studies in the left ventricle of treated animals. Pretreatment of mice with the endothelin receptor antagonist bosentan (100 mg/kg body weight, p.o.) strikingly inhibited doxorubicin-induced cardiotoxicity with preserved indices of contractility. Moreover, bosentan pretreatment resulted in reduced tumor necrosis factor-alpha content, lipid peroxidation, and Bax expression, as well as increased GATA-4 expression. Thus, endothelin-1 plays a key role in mediating the cardiotoxic effects of doxorubicin and its inhibition may be of therapeutic benefit for patients receiving doxorubicin.
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PMID:The endothelin receptor blocker bosentan inhibits doxorubicin-induced cardiomyopathy. 1797 86

Doxorubicin is one of the most active drugs in oncology, with cardiotoxicity as a serious side effect of its application. The aim of this study was to investigate dexrazoxane and amifostine impact on the evolution of myocardial changes induced by doxorubicin. BalbC female mice were treated with doxorubicin only (10 mg/kg, single intravenous push), or with dexrazoxane (200 mg/kg, intraperitoneal [ip]) or amifostine (200 mg/kg, ip) 60 mins or 30 mins prior to treatment with doxorubicin, respectively. Blood sampling for determination of conventional serum-marker activity was performed 48 hrs later. The grade of histopathology changes was evaluated by light microscopy 1.5 and 3 months after treatments using the Billingham scoring method. Control groups consisted of nontreated mice. After doxorubicin-only treatment, the grade of heart tissue damage was found to increase in the period between 1.5 and 3 months. A similar but less intense progression was also detected in amifostine-pretreated animals, with significant difference among median Billingham scores between the two time points. The pretreatment with dexrazoxane suspended expansion of tissue lesions in time. Changes in serum enzyme activity revealed two correlations: the greater reduction in alpha-hydroxybutyrate dehydrogenase (alpha-HBDH) leakage is associated with a lower percentage of damaged tissue, and the creatine kinase to alpha-HBDH percent of difference ratio being greater than one is correlated with limited spreading of pathological lesions. Our results indicate that the development of doxorubicin-induced heart failure is based on a slow and persistent expansion of pathological process even long after the completion of the treatment. Dexrazoxane has proved to be successful and superior over amifostine against such an evolution of doxorubicin cardiomyopathy.
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PMID:Effects of dexrazoxane and amifostine on evolution of Doxorubicin cardiomyopathy in vivo. 1804 65

Doxorubicin is a widely used antineoplastic agent that may cause irreversible dilated cardiomyopathy. Doxorubicin-induced cardiomyopathy (DIC) can occur several years after exposure and carries a poor prognosis. Although cardiac resynchronization therapy (CRT) is a useful intervention in end-stage heart failure unresponsive to optimal medical therapies, its efficacy in DIC remains unknown. Four consecutive patients receiving CRT for DIC were evaluated before and after CRT. CRT resulted in improvements in the mean left ventricular ejection fraction at 1 month from 21+/-4.7% to 34+/-5% (p=0.03) and at 6 months (to 46+/-7.5%, p=0.01). CRT-induced reverse remodeling was observed, with a mean reduction in left ventricular internal diameter at end-diastole from 54.75+/-3.7 to 52.5+/-1.9 mm at 1 month (p=0.06) and further to 47+/-2.3 mm at 6 months (p=0.03). All patients experienced reductions in heart failure symptoms and improvements in New York Heart Association functional class (p<0.05). The impact of CRT was sustained over a follow-up of 18.5+/-3.5 months. In conclusion, this study suggests that patients with DIC, refractory to optimal pharmacologic therapy and meeting criteria for resynchronization device implantation, may achieve sustained benefit from CRT.
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PMID:Usefulness of cardiac resynchronization therapy in the management of Doxorubicin-induced cardiomyopathy. 1843 75

Doxorubicin (DOX) is a potent antitumor agent. DOX can also induce cardiotoxicity, and high cumulative doses are associated with recalcitrant heart failure. Children are particularly sensitive to DOX-induced heart failure. The ability to genetically modify mice makes them an ideal experimental system to study the molecular basis of DOX-induced cardiotoxicity. However, most mouse DOX studies rely on acute drug administration in adult animals, which typically are analyzed within 1 wk. Here, we describe a juvenile mouse model of chronic DOX-induced cardiac dysfunction. DOX treatment was initiated at 2 wk of age and continued for a period of 5 wk (25 mg/kg cumulative dose). This resulted in a decline in cardiac systolic function, which was accompanied by marked atrophy of the heart, low levels of cardiomyocyte apoptosis, and decreased growth velocity. Other animals were allowed to recover for 13 wk after the final DOX injection. Cardiac systolic function improved during this recovery period but remained depressed compared with the saline injected controls, despite the reversal of cardiac atrophy. Interestingly, increased levels of cardiomyocyte apoptosis and concomitant myocardial fibrosis were observed after DOX withdrawal. These data suggest that different mechanisms contribute to cardiac dysfunction during the treatment and recovery phases.
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PMID:A mouse model for juvenile doxorubicin-induced cardiac dysfunction. 1861 63

Effectiveness and informativity of various experimental pharmacological models of the chronic heart failure (CCF) in rats have been evaluated by means of ultrasonic cardiography. It has been established that isoproterenol (INN isoprenaline) (80 mg/kg, s.c., twice with an interval of 24 h) produces compensated CCF. Monocrotaline (single dose 60 mg/kg, i.p.) caused the development of pulmonary hypertension, right ventricle hypertrophy, and pronounced right ventricle failure in a fraction of experimental rats. Doxorubicin administration (cumulative doze 15 mg/kg, i.p., divided into 6 injections within 14 days) resulted in decreased left ventricle contractility, eccentric heart remodeling, and CCF development in most cases. Thus, the doxorubicin-induced disorder in rats can be considered the most effective pharmacological model of CCF, leading to the development of pronounced and progressive CCF in the majority of experimental animals.
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PMID:[Comparative characteristics of some pharmacological models of chronic heart failure]. 1914 May 9

Doxorubicin (DOX) is one of the most effective chemotherapeutic drugs; however, its incidence of cardiotoxicity compromises its therapeutic index. DOX-induced heart failure is thought to be caused by reduction/oxidation cycling of DOX to generate oxidative stress and cardiomyocyte cell death. Resveratrol (RV), a stilbene found in red wine, has been reported to play a cardioprotective role in diseases associated with oxidative stress. The objective of this study was to test the ability of RV to protect against DOX-induced cardiomyocyte death. We hypothesized that RV protects cardiomyocytes from DOX-induced oxidative stress and subsequent cell death through changes in mitochondrial function. DOX induced a rapid increase in reactive oxygen species (ROS) production in cardiac cell mitochondria, which was inhibited by pretreatment with RV, most likely owing to an increase in MnSOD activity. This effect of RV caused additional polarization of the mitochondria in the absence and presence of DOX to increase mitochondrial function. RV pretreatment also prevented DOX-induced cardiomyocyte death. The protective ability of RV against DOX was abolished when Sirt1 was inhibited by nicotinamide. Our data suggest that RV protects against DOX-induced oxidative stress through changes in mitochondrial function, specifically the Sirt1 pathway leading to cardiac cell survival.
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PMID:Resveratrol prevents doxorubicin cardiotoxicity through mitochondrial stabilization and the Sirt1 pathway. 1930 34

Doxorubicin (DOX) is a highly effective antineoplastic drug. However, DOX-induced apoptosis in cardiomyocytes leads to irreversible degenerative cardiomyopathy and heart failure, which limits DOX clinical application. Leonurine is a special alkaloid for Herba leonuri, a traditional herb with cardioprotective effects. In current study, we investigated possible protective effects of Leonurine against DOX-induced cardiomyopathy in H9c2 cells. DOX-injured H9c2 cell model was made by application of 2 microM DOX. Leonurine was added to cells 2 h before DOX treatment. Pre-treated with Leonurine could attenuate DOX-induced apoptotic death of H9c2 cell, reduce MDA formation and intracellular Ca2+ overload. Leonurine also attenuated DOX-induced high expression of Bax, increased Bcl-2 expression in both protein and mRNA level. Myocardial mitochondrion is the target organelle of DOX-induced toxicity in cardiomyocytes. Leonurine moderated the dissipation of mitochondrial membrane potential (DeltaPsim) caused by DOX treatment. Our results indicated that Leonurine attenuated DOX-induced apoptosis in H9c2 cell by increasing anti-oxidant, anti-apoptotic ability and protecting mitochondrial function.
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PMID:Herba leonurine attenuates doxorubicin-induced apoptosis in H9c2 cardiac muscle cells. 1935 31


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