Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0018799 (heart disease)
 34,133 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Intracellular calcium is a powerful secondary messenger that affects a number of calcium sensors, including calpain, a Ca2+-dependent cysteine protease, and calcineurin, a Ca2+/calmodulin-dependent protein phosphatase. Maintenance of low basal levels of intracellular calcium allows for the tightly regulated physiological activation of these proteins, which is crucial to a wide variety of cellular processes, such as fertilization, proliferation, development, learning, and memory. Deregulation of calpain and calcineurin has been implicated in the pathogenesis of several disorders, including hypertension, heart disease, diabetes, cerebral ischemia, and Alzheimer's disease. Recent studies have demonstrated an interplay between calpain and calcineurin, in which calpain can directly regulate calcineurin activity through proteolysis in glutamate-stimulated neurons in culture and in vivo. The calpain-mediated proteolytic cleavage of calcineurin increases phosphatase activity, which promotes caspase-mediated neuronal cell death. Thus, the activation of the calpain-calcineurin pathway could contribute to calcium-dependent disorders, especially those associated with Alzheimer's disease and myocardial hypertrophy. Here, we focus briefly on recent advances in revealing the structural and functional properties of these 2 calcium-activated proteins, as well as on the interplay between the 2, in an effort to understand how calpain-calcineurin signaling may relate to the pathogenesis of calcium- dependent disorders.
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PMID:Calpain-calcineurin signaling in the pathogenesis of calcium-dependent disorder. 1759 48

Cardiac hypertrophy is a known risk factor for heart disease, and at the cellular level is caused by a complex interaction of signal transduction pathways. The IP3-calcineurin pathway plays an important role in stimulating the transcription factor NFAT which binds to DNA cooperatively with other hypertrophic transcription factors. Using available kinetic data, we construct a mathematical model of the IP3 signal production system after stimulation by a hypertrophic alpha-adrenergic agonist (endothelin-1) in the mouse atrial cardiac myocyte. We use a global sensitivity analysis to identify key controlling parameters with respect to the resultant IP3 transient, including the phosphorylation of cell-membrane receptors, the ligand strength and binding kinetics to precoupled (with G(alpha)GDP) receptor, and the kinetics associated with precoupling the receptors. We show that the kinetics associated with the receptor system contribute to the behavior of the system to a great extent, with precoupled receptors driving the response to extracellular ligand. Finally, by reparameterizing for a second hypertrophic alpha-adrenergic agonist, angiotensin-II, we show that differences in key receptor kinetic and membrane density parameters are sufficient to explain different observed IP3 transients in essentially the same pathway.
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PMID:Modeling hypertrophic IP3 transients in the cardiac myocyte. 1769 63

Cardiac transplantation has become an established intervention for end-stage heart disease. Clinical outcomes in older cardiac transplant patients have improved over the last decade and are almost similar to those in younger patients. Nevertheless, morbidity and mortality due to infections, cancer and chronic allograft vasculopathy remain problematic. On the other hand, older transplant patients seem to have lower incidences of acute rejection episodes than younger patients. Conventional immunosuppression with calcineurin-inhibiting drugs, azathioprine and corticosteroids is responsible for a number of adverse effects. Although these adverse effects can also be seen in younger patients, tolerance to these agents seems to decrease with increasing age. In particular, diabetes mellitus, osteoporosis and chronic renal insufficiency are associated with higher morbidity and mortality in older cardiac transplant patients. As the elderly become an ever-increasing segment of the cardiac transplant population, new and innovative immunosuppressive strategies will have to be developed and applied.Currently, the availability of new immunosuppressive drugs means more individualised immunosuppressive protocols can be used. New antibodies for induction therapy, a choice between ciclosporin and tacrolimus, and the advent of mycophenolate mofetil as well as proliferation signal inhibitors (everolimus, sirolimus) have changed immunosuppressive protocols dramatically. Therefore, a generalised protocol for all patients has been replaced by individualised immunosuppression depending on the patient group. Moreover, protocols can be modified during follow-up depending on the individual patient's requirements and problems. Hypertension and hyperlipidaemia could be influenced by the selection of tacrolimus over ciclosporin, and weaning of corticosteroids might have a positive impact on osteoporosis or diabetes. There is also no clear evidence that tacrolimus is associated with a higher risk for new onset of diabetes. Chronic renal insufficiency can be managed with calcineurin inhibitor-free immunosuppression consisting of mycophenolate mofetil and proliferation signal inhibitors. Both everolimus and sirolimus also seem to have a protective effect against the onset of graft vasculopathy and some sorts of cancer after cardiac transplantation. As a general rule, however, older cardiac transplant patients should be treated with lower doses and fewer immunosuppressive drugs to avoid over-immunosuppression.
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PMID:Immunosuppressive therapy in older cardiac transplant patients. 1795 59

In excitable cells such as skeletal and cardiac myocytes excitation-contraction coupling is an important intermediate step between initiation of the action potential and induction of contraction. This process is predominantly controlled by Ca(2+) release from the sarcoplasmic reticulum via the ryanodine receptor. This very large protein (MW 560 kDa) exists as a homotetramer (~2.2 MDa) and is expressed in three isoforms: RyR1, expressed in skeletal muscle; RyR2, expressed in cardiac muscle; and RyR3, expressed in various cells at lower levels than the other isoforms. Release of Ca(2+) via RyR2 is induced by Ca(2+) influx through L-type Ca(2+) channels and is modulated by multiple factors, including phosphorylation of RyR2 protein by protein kinase A, calmodulin kinase II and FKBP12.6, and stimulation via the beta-adrenergic receptor signaling pathway. Hyperphosphorylation of RyR2 induces Ca(2+) leak during diastole, which can cause fatal arrhythmias and lead to heart failure. This makes RyR2 an important therapeutic target. Although there are few commercially available drugs that inhibit Ca(2+) leak from RyR2, K201 (JTV-519), a benzothiazepine derivative, has emerged as a new ryanodine receptor-selective agent that prevents atrial fibrillation, ventricular arrhythmias, heart failure and exercise-induced sudden cardiac death. In this review, we discuss recent advances in our understanding of the basic structure and function of ryanodine receptors, their involvement in heart disease, and the development of drugs to prevent ryanodine receptor malfunction and recent patents.
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PMID:Ryanodine receptor: a novel therapeutic target in heart disease. 1822 Nov 9

Cardiac transplantation has become an established method for end-stage heart disease. A calcineurin-inhibitor (CNI)-based regimen is the cornerstone of immunosuppressive therapy after cardiac transplantation. CNIs have reduced acute rejection and infection and markedly increased survival of cardiac transplantation patients. However, the dose- and time-dependent nephrotoxic effects of CNIs can limit long-term survival, and chronic renal failure is a major cause of morbidity and mortality in long-term cardiac transplant patients. Early experience on withdrawal of CNIs (and maintenance of patients on azathioprine and steroids) in patients, who developed chronic renal dysfunction, resulted in rejection episodes with, sometimes, fatal outcome. The introduction of newer immunosuppressive drugs, like thymoglobulin, anti CD-25 monoclonal antibodies, mycophenolate mofetil, everolimus or sirolimus into clinical practice, has given transplant physicians new tools to adapt immunosuppression to patients' needs. Changes of immunosuppressive protocols by using new drugs early and late after transplantation and simultaneous reduction or weaning of CNIs have become attractive options. The aim of this article is to review strategies to delay, reduce or prevent CNIs after cardiac transplantation as means to improve short- and long-term outcome mainly by protecting renal function.
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PMID:Calcineurin-inhibitor minimization protocols in heart transplantation. 1895 66

The most common genetic disorder Down syndrome (DS) displays various developmental defects including mental retardation, learning and memory deficit, the early onset of Alzheimer's disease (AD), congenital heart disease, and craniofacial abnormalities. Those characteristics result from the extra-genes located in the specific region called nDown syndrome critical region (DSCR)' in human chromosome 21. In this review, we summarized the recent findings of the DYRK1A and RCAN1 genes, which are located on DSCR and thought to be closely associated with the typical features of DS patients, and their implication to the pathogenesis of neural defects in DS. DYRK1A phosphorylates several transcriptional factors, such as CREB and NFAT, endocytic complex proteins, and AD-linked gene products. Meanwhile, RCAN1 is an endogenous inhibitor of calcineurin A, and its unbalanced activity is thought to cause major neuronal and/or non-neuronal malfunction in DS and AD. Interestingly, they both contribute to the learning and memory deficit, altered synaptic plasticity, impaired cell cycle regulation, and AD-like neuropathology in DS. By understanding their biochemical, functional and physiological roles, we hope to get important molecular basis of DS pathology, which would consequently lead to the basis to develop the possible therapeutic tools for the neural defects in DS. [BMB reports 2009; 42(1): 6-15].
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PMID:Two key genes closely implicated with the neuropathological characteristics in Down syndrome: DYRK1A and RCAN1. 1919 87

Cardiac transplantation is a time-honored therapy for end stage heart disease for a select group of patients. The advances in recent years have increased mean survival to 12 and 13 years. The probability of survival after heart transplantation at one, five and ten years are 80%, 70% and 60% respectively. Calcineurin-inhibitors (CNIs) based regimes have been the corner stone of medical therapy in these patient populations. They have reduced the amount of rejections but with considerably increased toxicities to therapies that decreases long-term patient survival. Proliferation Signal Inhibitors or mammalian target-of-rapamycin inhibitors (PSI/mTOR) are a new class of agents that have been extensively used recently to limit these toxicities. Sirolimus and Everolimus are two such drugs. PSI/mTOR work syngeristically with CNIs or have been as primary immunosuppressant's for patients who do not tolerate or have developed side effects to calcineurin inhibitors. This current article will discuss about sirolimus and its use in heart transplant patients along with outlining some recent patents.
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PMID:Sirolimus: a novel immunosuppressive drug in heart transplantation. 1992 39

Neurohumoral stimulation of Gq-coupled receptors has been proposed as a central mechanism in the pathogenesis of diabetic heart disease. The resulting contractile dysfunction is closely related to abnormal intracellular Ca(2+) handling with functional defects of the sarcoplasmic reticulum (SR). The present study was therefore designed to determine the role of G(q)-protein signaling via G(alpha)(11) and G(alpha)(q) in diabetes for the induction of functional and structural changes in the Ca(2+) release complex of the SR. An experimental type 1-diabetes was induced in wild type, G(alpha)(11) knockout, and G(alpha)(11/q)-knockout mice by injection of streptozotocin. Cardiac morphology and function was assessed in vivo by echocardiography. SR Ca(2+) leak was tested in vitro based on a (45)Ca(2+) assay and protein densities as well as gene expression of ryanodine receptor (RyR2), FKBP12.6, sorcin, and annexin A7 were analyzed by immunoblot and RT-PCR. In wild type animals 8 weeks of diabetes resulted in cardiac hypertrophy and SR Ca(2+) leak was increased. In addition, diabetic wild type animals showed reduced protein levels of FKBP12.6 and annexin A7. In G(alpha)(11)- and G(alpha)(11/q)-knockout animals, however, SR Ca(2+) release and cardiac phenotype remained unchanged upon induction of diabetes. Densities of the proteins that we presently analyzed were also unaltered in G(alpha)(11)-knockout mice. G(alpha)(11/q)-knockout animals even showed increased expression of sorcin and annexin A7. Thus, based on the present study we suggest a signaling pathway via the G(q)-proteins, G(alpha)(11) and G(alpha)(q), that could link increased neurohumoral stimulation in diabetes with defective RyR2 channel function by regulating protein expression of FKBP12.6, annexin A7, and sorcin.
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PMID:Diabetes-related defects in sarcoplasmic Ca2+ release are prevented by inactivation of G(alpha)11 and G(alpha)q in murine cardiomyocytes. 2037 81

Hypertrophic heart disease is a leading health problem in Western countries. Here we identified the small EF hand domain-containing protein Ca(2+) and integrin-binding protein-1 (CIB1) in a screen for previously unknown regulators of cardiomyocyte hypertrophy. Yeast two-hybrid screening for CIB1-interacting partners identified a related EF hand domain-containing protein, calcineurin B, the regulatory subunit of the prohypertrophic protein phosphatase calcineurin. CIB1 localizes primarily to the sarcolemma in mouse and human myocardium, where it anchors calcineurin to control its activation in coordination with the L-type Ca(2+) channel. CIB1 protein amounts and membrane association were enhanced in cardiac pathological hypertrophy, but not in physiological hypertrophy. Consistent with these observations, Cib1-deleted mice showed a marked reduction in myocardial hypertrophy, fibrosis, cardiac dysfunction and calcineurin-nuclear factor of activated T cells (NFAT) activity after pressure overload, whereas the degree of physiologic hypertrophy after swimming exercise was not altered. Transgenic mice with inducible and cardiac-specific overexpression of CIB1 showed enhanced cardiac hypertrophy in response to pressure overload or calcineurin signaling. Moreover, mice lacking Ppp3cb (encoding calcineurin A, beta isozyme) showed no enhancement in cardiac hypertrophy associated with CIB1 overexpression. Thus, CIB1 functions as a previously undescribed regulator of cardiac hypertrophy through its ability to regulate the association of calcineurin with the sarcolemma and its activation.
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PMID:CIB1 is a regulator of pathological cardiac hypertrophy. 2063 89

Semilunar valve malformations are common human congenital heart defects. Bicuspid aortic valves occur in 2-3% of the population, and pulmonic valve stenosis constitutes 10% of all congenital heart disease in adults (Brickner et al., 2000) [1]. Semilunar valve defects cause valve regurgitation, stenosis, or calcification, leading to endocarditis or congestive heart failure. These complications often require prolonged medical treatment or surgical intervention. Despite the medical importance of valve disease, the regulatory pathways governing semilunar valve development are not entirely clear. In this report we investigated the spatiotemporal role of calcineurin/Nfatc1 signaling in semilunar valve development. We generated conditional knockout mice with calcineurin gene disrupted in various tissues during semilunar valve development. Our studies showed that calcineurin/Nfatc1 pathway signals in the secondary heart field (SHF) but not in the outflow tract myocardium or neural crest cells to regulate semilunar valve morphogenesis. Without SHF calcineurin/Nfatc1 signaling, the conal endocardial cushions-the site of prospective semilunar valve formation--first develop and then regress due to apoptosis, resulting in a striking phenotype with complete absence of the aortic and pulmonic valves, severe valve regurgitation, and perinatal lethality. This role of calcineurin/Nfatc1 signaling in the SHF is different from the requirement of calcineurin/Nfatc1 in the endocardium for semilunar valve formation (Chang et al., 2004) [2], indicating that calcineurin/Nfatc1 signals in multiple tissues to organize semilunar valve development. Also, our studies suggest distinct mechanisms of calcineurin/Nfat signaling for semilunar and atrioventricular valve morphogenesis. Therefore, we demonstrate a novel developmental mechanism in which calcineurin signals through Nfatc1 in the secondary heart field to promote semilunar valve morphogenesis, revealing a new supportive role of the secondary heart field for semilunar valve formation.
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PMID:The secondary heart field is a new site of calcineurin/Nfatc1 signaling for semilunar valve development. 2230 Jul 32


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