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)

Energostim is a combined drug comprising a mixture of nicotinamide adenine dinucleotide (0.5 mg), cytochrome C (10 mg), and inosine (80 mg), representing antihypoxant and antioxidant of direct action in one ampule. After pretreatment and subsequent 3-day energostim therapy of animals with 3-day toxico-allergic myocarditis (3d-TAM), the ECG was free of any rhythm disorders and showed evidence of improved conduction, restoration of the normal form of T-wave and the position of ST segment, while the content of myofibrillar fraction of creatine phosphokinase and toxic products of disturbed metabolism (degree of endotoxemia) decreased to the upper normal level. Under the action of energostim, neither pressure nor the maximum rate of pressure buildup in the left ventricle are reduced (as they do upon 3d-TAM); neither systolic and diastolic functions are disturbed, nor their coordination (r = 0.79 between dP/dtmin and dP/dtmax, p < 0.01). The restoration of contractile activity and maximum rate of relaxation of myocardial microfibrils during 3d-TAM is accompanied by an increase in the content of adenyl nucleotides, in the ATP/ADP, ADP/AMP, NAD/NADH, and NADP/NADPH ratios, and in the cytosol phosphorylation potential. The energostim-induced improvement in the energy supply system are accompanied by restoration of the ability of sarcoplasmic reticulum to efflux Ca2+. Thus, it is demonstrated that the effect of energostim is related to its ability to actively participate in intracell metabolic processes in myocardium, abolish necrotic changes and endotoxicosis, and restore homeostasis in the systems responsible for the contraction--relaxation process (thus preventing from the development of dysfunction of the left ventricle and the heart failure).
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PMID:[Cardioprotective effect of energostim in toxic allergic myocarditis]. 1518 54

Refracterin therapy of patients with chronic heart failure caused by coronary heart disease and postinfarction cardiosclerosis markedly promoted improvement in the pulmonary and systemic circulation in comparison with patients receiving traditional therapy. The mean functional class of chronic cardiac failure decreased by 43% under the effect of refracterin vs. 27% decrease in the group receiving traditional therapy. After 1-month refracterin course the end-systolic and end-diastolic sizes of the left ventricle decreased by 12 and 7%, respectively, ejection fraction increased by 7.2% in comparison with the initial level, total oxidant activity and MDA content in the plasma decreased significantly, while total antioxidant activity, catalase and SOD activities, cytochrome C, NADH, and NADPH levels increased. The prooxidant-antioxidant system was shifted towards antioxidants, which attests to activation of the defense and adaptive mechanisms after administration of refracterin, which is especially important in elderly patients with initially decreased reserve potentialities of the antioxidant defense system.
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PMID:Efficiency and mechanisms of the antioxidant effect of standard therapy and refracterin in the treatment of chronic heart failure in elderly patients with postinfarction cardiosclerosis. 1566 59

Treatment with monocrotaline causes pulmonary hypertension in rats. This results in severe pressure overload-induced hypertrophy of the right ventricles, whilst the normally loaded left ventricles do not hypertrophy. Both ventricles are affected by enhanced neuroendocrine stimulation in this model. We analyzed in this model load-induced and catecholamine-induced changes of right and left ventricular proteome by two-dimensional gel electrophoresis, tryptic in-gel digest, and matrix-assisted laser desorption/ionization-time of flight mass spectrometry. All analyzed animals showed right ventricular hypertrophy without signs of heart failure. Changes of 27 proteins in the right and 21 proteins in the left ventricular myocardium were found. Given the hemodynamic features of this animal model, proteome changes restricted to the right ventricle are caused by pressure overload. We describe for the first time a potentially novel pathway (BRAP2/BRCA1) that is involved in myocardial hypertrophy. Furthermore, we demonstrate that increased afterload-induced hypertrophy leads to striking changes in the energy metabolism with down-regulation of pyruvate dehydrogenase (subunit beta E1), isocitrate dehydrogenase, succinyl coenzyme A ligase, NADH dehydrogenase, ubiquinol-cytochrome C reductase, and propionyl coenzyme A carboxylase. These changes go in parallel with alterations of the thin filament proteome (troponin T, tropomyosin), probably associated with Ca(2+) sensitization of the myofilaments. In contrast, neurohumoral stimulation of the left ventricle increases the abundance of proteins relevant for energy metabolism. This study represents the first in-depth analysis of global proteome alterations in a controlled animal model of pressure overload-induced myocardial hypertrophy.
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PMID:Pressure overload and neurohumoral activation differentially affect the myocardial proteome. 1573 35

Following the negative experience with thalidomide, women were excluded from participation in clinical trials with new pharmaceutical agents as far as possible, especially from phase I studies. However, in the early 1990s a body of evidence accumulated suggesting clinically relevant gender-related differences in the efficacy and safety of drugs. Gender-related differences have been shown for the metabolism and the effects of drugs. Gender differences have been described especially for the enzymes of the cytochrome P 450 family, but also for phase II reactions and most recently for P-glycoprotein. Most of these differences observed are only of minor clinical relevance, however may result in an increased rate of adverse drug reactions. Further differences may be based on different receptor/target sensitivities, e. g. the increased sensitivity for drug-induced torsade de pointes arrhythmia in women. In addition, in complex diseases such as heart failure, men and women may develop different mechanisms of counter- regulation requiring different therapeutic approaches. Population-based approaches demonstrate gender differences in the incidence of adverse drug reactions.
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PMID:[Gender-related differences in pharmacokinetics and pharmacodynamics]. 1588 63

Several inherited and acquired disorders of mitochondria lead to defects in cardiac function as reflected in exercise intolerance, arrhythmias and heart failure. Manifestations of mitochondrial dysfunction is reflected in the abnormal mitochondrial proliferation, structure and ultimately as cytochrome C-induced apoptosis. How these defects are associated with disordered cytosolic events including SR calcium release and transcription has suggested a cross talk of mitochondria and cytosolic events that drive cardiomyocytes dysfunction.
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PMID:Mitochondrial dysfunction and heart disease. 1612 Apr 19

In cardiovascular diseases e.g. heart failure and coronary artery disease gender differences are evident in etiology, pathophysiology, clinical presentation, prognosis and response to treatment. Diabetes and hypertension are the major risk factors in women. Mechanisms leading to apparent diabetes or its clinical pre-stage are different in women and men and according to this result in different therapeutic implications. Diastolic heart failure is more frequent in women and effects and side effects of important groups of active pharmaceutical substances are, at least to some extent, different. Atrial fibrillation and ventricular arrhythmia differ in frequency of occurrence; drug induced tachycardia with QT interval prolongation is particularly frequent in women. Underlying pathomechanisms responsible for gender differences in pharmacotherapy are on the one hand differences in pharmacokinetic mechanisms. Particularly drugs which are metabolised via cytochrome P 450 CYP 3A pathway show different kinetics in women and men. In addition, important differences are evident in pharmocodynamics caused by effects of sex steroid hormones or products of X-chromosomal genes. The evidence of estrogen and testosterone receptors in cardiomyocytes and the vascular system, interaction of sex steroid hormones with cellular pathways and the role of X-chromosomal genes are the focus of basic research. Interactions of sex steroid hormone receptors with other nuclear receptors e.g. PPARs ("peroxisome proliferator-activated receptors") are another important underlying mechanism. The knowledge of different pharmacokinetic mechanisms has to be taken into consideration in pharmacotherapy of cardiovascular diseases, for example by adjustment of drug dosages in women, necessary in different groups of pharmaceutical substances or in the long run, gender differences in effects and side effects of drugs. In drug development both aspects have to be considered. There is more than one good reason to intensify basic and clinical research and research on health care on gender differences in cardiovascular diseases.
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PMID:[Implications of gender-specific aspects in the therapy of cardiovascular diseases]. 1787 7

Following the disastrous experience with thalidomide women were largely excluded from clinical trials. A change in this paradigm can be observed most recently. For the pharmacokinetics and -dynamics of drugs a body of evidence does exist to prove the presence of significant sex-related differences. Especially fort he major drug metabolizing enzymes, the cytochrome P 450 family, but also for phase II reactions such as glucuronidation, sex-differences were observed. However, most of these differences are either clinically not relevant or were not just observed, because they result in slight increases in the frequency of adverse reactions. Major sex-specific differences were observed for the cardiac elektrophysiology, for opiate and benzodiazepine receptors. Women are significantly more likely to experience drug-induced QT-prolongation and torsade-de-pointes arrhythmia. It should also be considered that conditions such as depression, myocardial infarction and heart failure are characterized by gender-specific symptoms and therefore may deserve a gender-specific therapy. Different trials and epidemiological surveys have repeatedly shown that women experience more adverse drug effects than men.
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PMID:[Sex-specific differences in drug treatment]. 1787 9

We had reported that increased levels of endogenous ghrelin during the progression of doxorubicin-induced cardiomyopathy and heart failure might provide a compensatory self-protective effect. We investigated which pathway(s) produced these protective effects in vitro. Primary cultured cardiomyocytes were induced with doxorubicin in the presence or absence of ghrelin or a tumor necrosis factor-alpha (TNF-alpha) antagonist (etanercept). Ghrelin up-regulated TNF-alpha in a time- and dose-dependent manner. It significantly reduced cell apoptosis and markers of oxidative stress, such as malondialdehyde (MDA) content and lactate dehydrogenase (LDH) activity; it also increased anti-oxidative enzyme activity such as superoxide dismutase (MnSOD) and catalase (CAT), retained mitochondrial membrane potential and energy metabolism compared with doxorubicin alone. Moreover, ghrelin increased mitochondrial anti-apoptosis related gene protein expression such as bcl-2 and MnSOD, reduced cytoplasmic cytochrome C (Cyt C) release and strengthened the activation of NF-kappaB. All these effects were abrogated by etanercept. This suggests ghrelin affects the TNF-alpha/NF-kappaB activation pathways, up-regulating TNF-alpha, to produce anti-oxidative and anti-apoptotic effects that protected cardiomyocytes from doxorubicin-induced cytotoxicity.
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PMID:Ghrelin prevents doxorubicin-induced cardiotoxicity through TNF-alpha/NF-kappaB pathways and mitochondrial protective mechanisms. 1840 Mar 55

Tolvaptan is a new agent in the treatment of normovolemic and hypervolemic hyponatremia. It is a V(2) receptor antagonist inducing free water diuresis. It has been recently approved in USA and Europe for the treatment of hyponatremia associated with SIADH, cirrhosis as well as heart failure, while in hypovolemic hyponatremia its use is contraindicated. The drug also appears to be effective in the acute exacerbations of heart failure that need hospitalization. In the short-term tolvaptan seems to relieve acute congestive symptoms and improves mortality. However, the long-term effects on mortality are still controversial. The favorable short-term effects are ascribed to the selective V(2) receptor blocking, while the unopposed stimulation of V(1A) may give an explanation for the lack of long-term benefit. The drug should be initiated in the hospital setting because careful monitoring of fluid balance is recommended. It is administered orally giving the advantage of continuation in the outpatient setting. Moreover tolvaptan may have a role in the treatment of autosomal dominant polycystic kidney disease (ADPKD). Its effectiveness has been shown in animal models and Phase 3 clinical trial as well as an open-label study is now active. Since tolvaptan is metabolized by the cytochrome CYP3A4 in the liver physicians should be aware of possible drug to drug interactions. Resulting from large studies tolvaptan appears well tolerated. Common side effects are thirst, dry mouth and polyuria. Tolvaptan opens a new page not only in the treatment of normovolemic and hypervolemic hyponatremia but also in the treatment of acute decompensated heart failure and probably in ADPKD.
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PMID:Tolvaptan: a new therapeutic agent. 2086 52

The majority of experimental and clinical studies indicates that the hypertrophied and failing myocardium are characterized by changes in energy and substrate metabolism that attributed to failing heart changes at the genomic level, in fact, heart failure is caused by various diseases, their energy metabolism and substrate are in different genetic variations, then the potential significance of the molecular mechanisms for the aetiology of heart failure is necessary to be evaluated. Persistent viral infection (especially coxsackievirus group B3) of the myocardium in viral myocarditis and viral dilated cardiomyopathy has never been neglected by experts. This study aimed to explore the role and regulatory mechanism of the altered gene expression for energy metabolism involved in mitochondrial oxidative phosphorylation, fatty acid metabolism in viral dilated cardiomyopathy. cDNA Microarray technology was used to evaluate the expression of >35,852 genes in a mice model of viral dilated cardiomyopathy. In total 1385 highly different genes expression, we analyzed 33 altered genes expression for energy metabolism involved in mitochondrial oxidative phosphorylation, fatty acid metabolism and further selected real-time-PCR for quantity one of regulatory mechanisms for energy including fatty acid metabolism-the UCP2 and assayed cytochrome C oxidase activity by Spectrophotometer to explore mitochondrial oxidative phosphorylation function. We found obviously different expression of 33 energy metabolism genes associated with mitochondria oxidative phosphorylation, fatty acid metabolism in cardiomyopathy mouse heart, the regulatory gene for energy metabolism: UCP2 was down-regulated and cytochrome C oxidase activity was decreased. Genes involved in both fatty acid metabolism and mitochondrial oxidative phosphorylation were down-regulated, mitochondrial uncoupling proteins (UCP2) expression did not increase but decrease which might be a kind of adaptive protection response to regulate energy metabolism for ATP produce.
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PMID:Down-regulated energy metabolism genes associated with mitochondria oxidative phosphorylation and fatty acid metabolism in viral cardiomyopathy mouse heart. 2112 95


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