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)

In patients with heart failure there are distinct functional abnormalities in the myocytes themselves. This review deals with the deteriorations in the myocardial energy metabolism and the recently found alterations in the neurohumoral and hormonal signal transduction and signal realization within the cardiac cells. Beside the reduction in the volume of mitochondria in the overloaded myocardium the energy starvation is also reflected by a decrease in the content of high energy phosphates. Studies on nonfailing and failing human ventricular myocardium identified significant alterations in the neurohumoral regulation of the heart including the fluxes and the transport processes of Ca2+ as well as the beta-adrenoceptors, G-proteins, cAMP levels and cAMP-mediated processes. Recent data on the existence of auto-antibodies against the ADP/ATP translocator of the mitochondrial membrane and of stimulatory acting autoantibodies against i) the L-type calcium channel and ii) the beta 1-adrenoceptor, respectively, in patients with dilated cardiomyopathy, may open a new view in the etiology of heart failure and for consequences in the therapeutic concept of these diseases.
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PMID:[Cellular and molecular mechanisms in heart failure]. 172 87

Despite the marked vasodilator and antiischemic actions of existing calcium channel blockers, their use in the treatment of patients with chronic heart failure (HF) remains highly controversial. We compared the short-term hemodynamic effects of i.v. mibefradil, a predominant T-type calcium channel blocker with only partial L-type calcium channel antagonism, and diltiazem, a selective L-type calcium channel antagonist in dogs with chronic HF. Each of three drugs namely, mibefradil, diltiazem and normal saline (as placebo control), were studied in random order (6 days between each drug intervention), in each of 8 dogs with chronic HF produced by multiple intracoronary microembolizations. Intravenous mibefradil and diltiazem were administered as a 100 micrograms/kg bolus followed by a continuous infusion of 6 and 4 micrograms/kg/min, respectively, for 15 min. Equal volumes of normal saline were administered in an identical fashion. In all instances, hemodynamics were obtained at base line and at 5, 10, 15, 30 and 60 min after bolus drug administration. Left ventriculograms were obtained at baseline, and at 15 and 60 min after bolus drug administration. Saline infusion had no effects on hemodynamic or angiographic indexes of left ventricular (LV) function. At 15 min, mibefradil caused significant increases of LV stroke volume and LV ejection fraction compared to baseline (40 +/- 5 vs. 31 +/- 3 ml, P < .05 and 41 +/- 1 vs. 28 +/- 1%, P < .05, respectively). In contrast, at 15 min, diltiazem produced no significant changes of LV stroke volume or ejection fraction compared to baseline despite reducing mean aortic pressure to the same extent as mibefradil. Short-term i.v. mibefradil improves LV function in dogs with chronic HF. The beneficial effects of mibefradil compared to diltiazem may be a consequence of T-type calcium channel selectivity resulting in a vasodilatory response that is free of negative inotropy.
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PMID:Short-term hemodynamic effects of mibefradil in dogs with chronic heart failure: comparison with diltiazem. 958 Jun 22

1. The 1,4-dihydropyridine nifedipine is frequently used in the therapy of hypertension and heart failure. In addition, nifedipine has been shown to exert distinct anti-arteriosclerotic effects both in experimental animal models and in patients. In the present study we have investigated the hypothesis that the latter effect of this class of drugs is mediated by an interference with the expression of pro-arteriosclerotic gene products in the vessel wall. Moreover, to elucidate as to whether nifedipine acts via L-type calcium channel blockade, its effects were compared to those of another dihydropyridine, Bay w 9798, which has no calcium-antagonistic properties in concentrations up to 10 microM as verified by superfusion bioassay. 2. Both, nifedipine and Bay w 9798, in concentrations ranging from 0.01 to 1 microM, augmented the interleukin-1beta/tumour necrosis factor-alpha (IL-1beta/TNF-alpha)-induced expression of the inducible isoform of nitric oxide synthase (iNOS) in rat aortic cultured smooth muscle cells (raSMC) 2 - 3 fold, as judged by RT - PCR and Western blot analyses. 3. In contrast, cytokine-induced mRNA expression of monocyte chemoattractant protein 1 (MCP-1) in these cells was down-regulated by more than 60% in the presence of both dihydropyridines, as judged by RT - PCR and Northern blot analyses. 4. Nuclear run-on assays and incubation with the transcription-terminating drug actinomycin D revealed that both drugs acted at the level of mRNA synthesis rather than stability. 5. These findings suggest that 1,4-dihydropyridines such as nifedipine affect the expression of both potentially pro-arteriosclerotic (MCP-1) and anti-arteriosclerotic (iNOS) gene products in the vessel wall at the level of transcription, and that these effects are unrelated to their calcium channel-blocking properties.
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PMID:Modulation by dihydropyridine-type calcium channel antagonists of cytokine-inducible gene expression in vascular smooth muscle cells. 1072 64

Benidipine hydrochloride has been developed as an antagonist for the L-type calcium channel and is used as an anti-hypertensive drug. But recent studies have reported that benidipine exerts not only antihypertensive actions but also anti-hypertrophic actions on cardiac muscles. Endothelin-1 (ET-1), one of the endogenous pathological humoral factors of cardiovascular diseases such as hypertension and heart failure, has a strong vasoconstrictive action and could induce hypertension and cardiac hypertrophy. So, it is a matter of great interest whether or not calcium antagonists can decrease cardiac hypertrophy induced by the pathological vasoactive substances such as ET-1. Thus, the present study was designed to elucidate the effects of benidipine on cardiac hypertrophy, and particularly on the interaction with ET-1, using neonatal rat cardiac myocytes (MCs) and cardiac non-myocytes (NMCs) culture systems. Cells were cultured with or without ET-1, benidipine, and nifedipine and the effects of calcium antagonists on cardiac hypertrophy were evaluated by incorporations of [3H]-leucine and [3H]-thymidine into MCs and/or NMCs. Benidipine significantly decreased the ET-1-induced increase of [3H]-leucine and [3H]-thymidine uptake into cardiac MCs and NMCs, whereas no significant effects of nifedipine were observed. Furthermore, benidipine (10(-8)M) attenuated ET-1 secretions from NMCs. In summary, benidipine at least partially decreased the cardiac hypertrophy induced by paracrine mechanisms through its attenuation of ET-1 secretions from NMCs. Benidipine could thus be a useful tool for preventing cardiac hypertrophy due to hypertension.
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PMID:Possible involvement of endothelin-1 in cardioprotective effects of benidipine. 1101 4

Treatment with calcium channel blocker (CCB)s, dihydropyridines and others, is frequently complicated by dependent oedema in the absence of sodium retention or cardiac failure, a bothersome side effect of unclear aetiology. The present paper reviews our own and other work dealing with the antagonism exerted by such drugs on postural vasoconstriction, a mechanism triggered by limb venous congestion during orthostasis and controlled through a local sympathetic axo-axonic reflex and increased myogenic tone in response to changes in transmural pressure. By stabilising capillary pressure, postural vasoconstriction counteracts fluid hyperfiltration consequent to gravitational stimuli, and consistent evidence shows attenuation of this response by L-type calcium channel blockers. Interference with the postural reflex control of skin blood flow may therefore contribute to dependent oedema, although cannot entirely explain its development. Attenuation of postural vasoconstriction may amplify the fluid hyperfiltration induced by CCBs through other mechanisms, such as imbalanced intracapillary pressure or enhanced vascular permeability, which are the main factors determining net fluid filtration into the interstitial compartment.
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PMID:Calcium channel blockers, postural vasoconstriction and dependent oedema in essential hypertension. 1146 54

Abnormalities of T-type calcium channel function reported to occur in the transition phase to heart failure in the hamster cardiomyopathy may contribute to progression of the disease. We tested the hypothesis that chronic exposure to mibefradil, a selective T-type calcium channel blocker, improves the deleterious cardiac remodeling observed in this condition. In the present study, 40 normal (N) and 40 UM-X7.1 cardiomyopathic hamsters (CMH), aged 180 days, were treated daily by gavage for 21 days with mibefradil (30 mg/Kg). Eight to 10 animals from each group were sacrificed at the end of the treatment period while the remainder were followed for an additional 30 days without treatment (washout period). Hearts were harvested, fixed with 10%-buffered paraformaldehyde and then cut in half down the middle. Several slices were dehydrated, embedded in paraffin and stained with Masson Trichrome. Wall thickness and dilatation index of the left ventricle were estimated by planimetry. Myocardial capillary density was also computed. The greater heart weight/body weight ratio seen in untreated CMH (7.7 +/- 0.4 vs 5.5 +/- 0.2 in N, p < 0.05) was improved with mibefradil. The dilatation index averaged 0.504 +/- 0.04 in N was increased in untreated CMH (0.566 +/- 0.03) and ameliorated in mibefradil-treated CMH. The 1-month washout period led to further deterioration of the dilatation index in untreated and mibefradil-treated CMH. Capillary density averaged 10,000 +/- 781 per mm2 in hearts from untreated N hamsters and 8,830 +/- 795 per mm2 in untreated CMH (p = NS). Chronic exposure to mibefradil resulted in a significant reduction of capillary density in both N and CMH hearts. Following the 1-month washout period, the change in myocardial capillary density associated with mibefradil was no longer detectable. In conclusion, chronic exposure to mibefradil, a T- and L-type calcium channel blocker, exerts opposite effects during the transition phase to heart failure in CMH, improving the deleterious left ventricular remodeling in UM-X7.1 hamsters and reducting myocardial capillary density independently of the disease process.
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PMID:Effects of mibefradil, a T- and L-type calcium channel blocker, on cardiac remodeling in the UM-X7.1 cardiomyopathic hamster. 1150 62

Annexin 6 is one of a widely expressed family of calcium-binding proteins found in most mammalian tissues, including the heart. Several studies have implicated annexin 6 in the regulation of intracellular Ca2+ signaling, and it has been shown in vitro to act as a modulator of the sarcoplasmic reticulum Ca2+-release channel, cardiac L-type calcium channel, and Na+/Ca2+ exchanger. To investigate the role of annexin 6 in intact cardiomyocytes, we used mice containing a targeted disruption of the annexin 6 gene. Compared with controls, the myocytes of annexin 6 null-mutant mice demonstrated a significant increase in the rates of shortening and relengthening. Intracellular Ca2+ transients in fura-2-loaded cardiomyocytes induced by caffeine showed a normal baseline and amplitude, whereas the rate of decay was doubled in annexin 6-/- myocytes compared with control mice. These results show that annexin 6 knockout in the mouse leads to an increase in myocyte contractility and faster diastolic Ca2+ removal from the cytoplasm. In light of published findings showing annexin 6 to be down-regulated in end-stage heart failure, these results are consistent with a role for annexin 6 as a negative inotropic factor in the regulation of cardiomyocyte mechanics.
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PMID:Altered mechanical properties and intracellular calcium signaling in cardiomyocytes from annexin 6 null-mutant mice. 1191 74

L-type calcium channels play an important role in excitation-contraction coupling. After cardiomyocyte depolarization L-type calcium channels open and Ca2+ ions enter the cell. These small Ca2+ inward currents trigger calcium release from the junctional sarcoplasmic reticulum, a process called calcium-induced calcium release. Subsequently, the cytosolic Ca2+ concentration rises rapidly to levels that initiate contraction. In heart failure calcium-induced calcium release is disturbed, and in this review we focus on the L-type calcium channel and its contribution to this defective excitation-contraction coupling.
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PMID:Expression of the L-type calcium channel in human heart failure. 1247 27

The small G protein Ras-mediated signaling pathway has been implicated in the development of hypertrophy and diastolic dysfunction in the heart. Earlier cellular studies have suggested that the Ras pathway is responsible for reduced L-type calcium channel current and sarcoplasmic reticulum (SR) calcium uptake associated with sarcomere disorganization in neonatal cardiomyocytes. In the present study, we investigated the in vivo effects of Ras activation on cellular calcium handling and sarcomere organization in adult ventricular myocytes using a newly established transgenic mouse model with targeted expression of the H-Ras-v12 mutant. The transgenic hearts expressing activated Ras developed significant hypertrophy and postnatal lethal heart failure. In adult ventricular myocytes isolated from the transgenic hearts, the calcium transient was significantly depressed but membrane L-type calcium current was unchanged compared with control littermates. The expressions of sarco(endo)plasmic reticulum Ca(2+)-ATPase (SERCA)2a and phospholamban (PLB) were significantly reduced at mRNA levels. The amount of SERCA2a protein was also modestly reduced. However, the expression of PLB protein and gross sarcomere organization remained unchanged in the hypertrophic Ras hearts, whereas Ser(16) phosphorylation of PLB was dramatically inhibited in the Ras transgenic hearts compared with controls. Hypophosphorylation of PLB was also associated with a significant induction of protein phosphatase 1 expression. Therefore, our results from this in vivo model system suggest that Ras-induced contractile defects do not involve decreased L-type calcium channel activities or disruption of sarcomere structure. Rather, suppressed SR calcium uptake due to reduced SERCA2a expression and hypophosphorylation of PLB due to changes in protein phosphatase expression may play important roles in the diastolic dysfunction of Ras-mediated hypertrophic cardiomyopathy.
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PMID:Sarcoplasmic reticulum calcium defect in Ras-induced hypertrophic cardiomyopathy heart. 1296 87

Calcium channel blockers (CCBs) were developed as vasodilators, and their use in cardiovascular disease treatment remains largely based on that mechanism of action. More recently, with the evolution of second- and third-generation CCBs, pleiotropic effects have been observed, and at least some of CCBs' benefit is attributable to these mechanisms. Understanding these effects has contributed greatly to elucidating disease mechanisms and the rationale for CCB use. Furthermore, this knowledge might clarify why drugs are useful in some disease states, such as atherosclerosis, but not in others, such as heart failure. Although numerous drugs used in the treatment of vascular disease, including statins and angiotensin-converting-enzyme inhibitors, have well-described pleiotropic effects universally accepted to contribute to their benefit, little attention has been paid to CCBs' potentially similar effects. Accumulating evidence that at least 1 CCB, amlodipine, has pharmacologic actions distinct from L-type calcium channel blockade prompted us to investigate the pleiotropic actions of amlodipine and CCBs in general. There are several areas of research; foci here are (1) the physicochemical properties of amlodipine and its interaction with cholesterol and oxidants; (2) the mechanism by which amlodipine regulates NO production and implications; and (3) amlodipine's role in controlling smooth muscle cell proliferation and matrix formation.
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PMID:Novel vascular biology of third-generation L-type calcium channel antagonists: ancillary actions of amlodipine. 1451 71


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