Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.10.1 (ERK)
 95,504 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

(1) Imatinib, a tyrosine kinase inhibitor, was first marketed for the treatment of chronic myeloid leukaemia and some gastrointestinal stromal tumours. Its indications have gradually expanded over the years. (2) There is no consensus treatment for adults with Philadelphia chromosome-positive acute lymphoblastic leukaemia. In a trial comparing imatinib versus chemotherapy as initial treatment for 55 patients, the haematological response rate was higher with imatinib. Non-comparative trials provided haematological response rates of about 90%, but it is not known whether or not this translates into a survival advantage. In three non-comparative trials including patients with relapsed or refractory disease after chemotherapy, 50% of patients showed a survival time of at least 7 months. In the absence of any direct comparisons, we do not know if this represents an improvement over the results obtained with the best palliative care. (3) The only potential cure for myelodysplastic syndromes is allogeneic haematopoietic stem cell transplantation but this is not always feasible. Some myelodysplastic syndromes are associated with myeloproliferation and PDGFR gene rearrangements; imatinib is the first drug available for these patients. The manufacturer has compiled data on 55 patients treated with imatinib. Most patients had a favourable haematological response, but no survival data were published. (4) The severity of the hypereosinophilic syndrome is highly variable. Forms associated with FIP1L1-PDGFRalpha gene rearrangements have a poor prognosis. Clinical evaluation of imatinib in this setting is based on a compilation of data concerning 176 treated patients. The haematological response rate was high in patients with the mutant gene, but it is not known whether this translated into increased survival. (5) Dermatofibrosarcoma protuberans is a rare form of mainly localised skin cancer. Treatment is based on surgical excision but relapses are frequent. In one series, 9 out of 12 patients treated with imatinib had at least a partial tumour response, making surgical excision possible in 3 cases. (6) Imatinib has diverse and frequent adverse effects; nausea and vomiting, oedema, fluid retention, cutaneous disorders and heart failure. There is some evidence pointing to a risk of urologic cancers and altered bone metabolism.
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PMID:Imatinib: new indication. New indications, but not robust evidence. 1862 99

Oxidative stress is associated with several cardiovascular pathologies, including hypertension, cardiac hypertrophy and heart failure. Although oxidative stress is also increased after ischaemia-reperfusion (I/R), little is known about the role and the activation mechanisms, in cardiac myocytes under these conditions, of NADPH oxidase, a superoxide-producing enzyme. We found that rat cardiac muscle cells (H9c2) subjected to an in vitro simulated ischaemia (substrate-free medium plus hypoxia) followed by 'reperfusion', displayed increased reactive oxygen species (ROS) production attributable to a parallel increase of NADPH oxidase activity. Our investigation on mechanisms responsible for NADPH oxidase activation showed a contribution of both the increase of NOX2 expression and p47(phox) translocation to the membrane. We also found that the increase of NADPH oxidase activity was associated with higher levels of lipid peroxidation, the activation of redox-sensitive kinases, in particular ERK and JNK, and with cell death. Diphenyleneiodonium (DPI), a flavoprotein inhibitor used as NADPH oxidase inhibitor, prevented I/R-induced ROS formation in treated cells, together with the related lipoperoxidative damage, and JNK phosphorylation without affecting ERK activation, resulting in protection against cell death. Our results provide evidence that NADPH oxidase is a key enzyme involved in I/R-induced oxidant generation and suggest it can be a possible target in cardioprotective strategies against I/R injury, a condition of great importance in human pathology.
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PMID:Role of NADPH oxidase in H9c2 cardiac muscle cells exposed to simulated ischaemia-reperfusion. 1875 15

Oxidative stress causes cardiomyocyte death and subsequent ventricular dysfunction and cardiac remodeling after myocardial infarction (MI), thus contributing to high mortality in chronic heart failure patients. We investigated the effects of kallistatin in cardiac remodeling in a chronic MI rat model and in primary cardiac cells. Human kallistatin gene was injected intramyocardially 20 min after ligation of the left coronary artery. At 4 weeks after MI, expression of human kallistatin in rat hearts was identified by reverse transcription-polymerase chain reaction, immunohistochemistry and ELISA. Kallistatin administration improved cardiac performance, increased mean arterial pressure, decreased myocardial infarct size and restored left ventricular wall thickness. Kallistatin treatment significantly attenuated cardiomyocyte size and atrial natriuretic peptide expression. Kallistatin also reduced collagen accumulation, collagen fraction volume and expression of collagen types I and III, transforming growth factor-beta1 (TGF-beta1) and plasminogen activator inhibitor-1 in the myocardium. Inhibition of cardiac hypertrophy and fibrosis by kallistatin was associated with increased cardiac nitric oxide (NO) levels and decreased superoxide formation, NADH oxidase activity and p22-phox expression. Moreover, in both primary cultured rat cardiomyocytes and myofibroblasts, recombinant kallistatin inhibited intracellular superoxide formation induced by H(2)O(2), and the antioxidant effect of kallistatin was abolished by Nomega-nitro-L-arginine methyl ester (L-NAME), indicating a NO-mediated event. Kallistatin promoted survival of cardiomyocytes subjected to H(2)O(2) treatment, and inhibited H(2)O(2)-induced Akt and ERK phosphorylation, as well as NF-kappaB activation. Furthermore, kallistatin abrogated TGF-beta-induced collagen synthesis and secretion in cultured myofibroblasts. This is the first study to demonstrate that kallistatin improves cardiac performance and prevents post-MI-induced cardiac hypertrophy and fibrosis through its antioxidant action.
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PMID:Role of kallistatin in prevention of cardiac remodeling after chronic myocardial infarction. 1876 77

We have isolated a cardiomyogenic cell line (CMG cell) from murine bone marrow mesenchymal stem cells. The cells showed a fibroblast-like morphology, but the morphology changed after 5-azacytidine exposure. They began spontaneous beating after 2 weeks, and expressed ANP and BNP. Electron microscopy revealed a cardiomyocyte-like ultrastructure. These cells had several types of action potentials; sinus node-like and ventricular cell-like action potentials. The isoform of contractile protein genes indicated that their muscle phenotype was similar to fetal ventricular cardiomyocytes. They expressed alpha(1A), alpha(1B), alpha(1D), beta(1), and beta(2) adrenergic and M(1) and M(2) muscarinic receptors. Stimulation with phenylephrine, isoproterenol and carbachol increased ERK phosphorylation and second messengers. Isoproterenol increased the beating rate, which was blocked with CGP20712A (beta(1)-selective blocker). These findings indicated that cell transplantation therapy for the patients with heart failure might possibly be achieved using the regenerated cardiomyocytes from autologous bone marrow cells in the near future.
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PMID:Regeneration of cardiomyocytes from bone marrow: Use of mesenchymal stem cell for cardiovascular tissue engineering. 1900 53

Myocardial stretch is a major determinant of ventricular hypertrophy, a physiological adaptational process that can be detrimental, leading to heart failure. Therapies aimed to limit the development of cardiac hypertrophy are thus currently evaluated. Among possible targets, the small G protein Ras and the epidermal growth factor receptor (EGFR) have been shown to be involved during stretch but their precise role in the activation of the major actors of hypertrophy, the mitogen activated protein kinases (MAPK) ERK and JNK is not well known. Our goal was thus was to evaluate precisely the activation pathways of ERK and JNK during stretch, with an emphasis on the role of the EGFR. For this purpose, neonatal rat cardiomyocytes in culture were stretched for different time durations. As measured by Western blot of their phosphorylated forms, ERK and JNK were activated by stretch. Ras inhibition decreased basal ERK phosphorylation but had no effect on stretch-induced ERK activation. Under basal conditions, EGFR activated ERK in a classical Ras-dependent manner. Upon stretch, EGFR transactivation activated ERK through both Ras-dependent and Ras-independent pathways. Interestingly, we also show that the Akt pathway participates in stretch-induced ERK activation with an involvement of EGFR. Unlike ERK, JNK activation is independent of either EGFR or PI3 kinase but dependent on other tyrosine kinases. In conclusion these data show different Ras-dependent and Ras-independent pathways in basal conditions and during stretch with a previously unrecognized role of Akt in the activation of ERK.
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PMID:The EGF receptor activates ERK but not JNK Ras-dependently in basal conditions but ERK and JNK activation pathways are predominantly Ras-independent during cardiomyocyte stretch. 1901 44

Accumulating data suggest a link between alterations/deficiencies in cytoskeletal proteins and the progression of cardiomyopathy and heart failure, although the molecular basis for this link remains unclear. Cypher/ZASP is a cytoskeletal protein localized in the sarcomeric Z-line. Mutations in its encoding gene have been identified in patients with isolated non-compaction of the left ventricular myocardium, dilated cardiomyopathy (DCM) and hypertrophic cardiomyopathy. To explore the role of Cypher in myocardium and to better understand molecular mechanisms by which mutations in cypher cause cardiomyopathy, we utilized a conditional approach to knockout Cypher, specially in either developing or adult myocardium. Cardiac-specific Cypher knockout (CKO) mice developed a severe form of DCM with disrupted cardiomyocyte ultrastructure and decreased cardiac function, which eventually led to death before 23 weeks of age. A similar phenotype was observed in inducible cardiac-specific CKO mice in which Cypher was specifically ablated in adult myocardium. In both cardiac-specific CKO models, ERK and Stat3 signaling pathways were augmented. Finally, we demonstrate the specific binding of Cypher's PDZ domain to the C-terminal region of both calsarcin-1 and myotilin within the Z-line. In conclusion, our studies suggest that (i) Cypher plays a pivotal role in maintaining adult cardiac structure and cardiac function through protein-protein interactions with other Z-line proteins, (ii) myocardial ablation of Cypher results in DCM with premature death and (iii) specific signaling pathways participate in Cypher mutant-mediated dysfunction of the heart, and may in concert facilitate the progression to heart failure.
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PMID:Cardiac-specific ablation of Cypher leads to a severe form of dilated cardiomyopathy with premature death. 1902 70

MicroRNAs comprise a broad class of small non-coding RNAs that control expression of complementary target messenger RNAs. Dysregulation of microRNAs by several mechanisms has been described in various disease states including cardiac disease. Whereas previous studies of cardiac disease have focused on microRNAs that are primarily expressed in cardiomyocytes, the role of microRNAs expressed in other cell types of the heart is unclear. Here we show that microRNA-21 (miR-21, also known as Mirn21) regulates the ERK-MAP kinase signalling pathway in cardiac fibroblasts, which has impacts on global cardiac structure and function. miR-21 levels are increased selectively in fibroblasts of the failing heart, augmenting ERK-MAP kinase activity through inhibition of sprouty homologue 1 (Spry1). This mechanism regulates fibroblast survival and growth factor secretion, apparently controlling the extent of interstitial fibrosis and cardiac hypertrophy. In vivo silencing of miR-21 by a specific antagomir in a mouse pressure-overload-induced disease model reduces cardiac ERK-MAP kinase activity, inhibits interstitial fibrosis and attenuates cardiac dysfunction. These findings reveal that microRNAs can contribute to myocardial disease by an effect in cardiac fibroblasts. Our results validate miR-21 as a disease target in heart failure and establish the therapeutic efficacy of microRNA therapeutic intervention in a cardiovascular disease setting.
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PMID:MicroRNA-21 contributes to myocardial disease by stimulating MAP kinase signalling in fibroblasts. 1904 5

Cardiac remodeling is thought to be the major cause of chronic heart dysfunction after myocardial infarction (MI). However, molecules involved in this process have not been thoroughly elucidated. In this study we investigated the long-term effects of the growth factor midkine (MK) in cardiac remodeling after MI. MI was produced by ligation of the left coronary artery. MK expression was progressively increased after MI in wild-type mice, and MK-deficient mice showed a higher mortality. Exogenous MK improved survival and ameliorated left ventricular dysfunction and fibrosis not only of MK-deficient mice but also of wild-type mice. Angiogenesis in the peri-infarct zone was also enhanced. These in vivo changes induced by exogenous MK were associated with the activation of phosphatidylinositol 3-kinase (PI3K)/Akt and MAPKs (ERK, p38) and the expression of syndecans in the left ventricular tissue. In vitro experiments using human umbilical vein endothelial cells confirmed the potent angiogenic action of MK via the PI3K/Akt pathway. These results suggest that MK prevents the cardiac remodeling after MI and improves the survival most likely through an enhancement of angiogenesis. MK application could be a new therapeutic strategy for the treatment of ischemic heart failure.
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PMID:Midkine prevents ventricular remodeling and improves long-term survival after myocardial infarction. 1906 Jan 26

The aim of the present study was to assess whether EPC (endothelial progenitor cell) number/function might be an explanatory factor for the observed relationship between Type D personality (a joint tendency towards negative affectivity and social inhibition) and poor cardiovascular prognosis. We also assessed whether the effect of a single exercise bout on EPC number/function was affected by Type D personality. A total of 35 sedentary men with CHF (chronic heart failure; left ventricular ejection fraction <or=45%) underwent CPET (cardiopulmonary exercise testing) and personality assessment with the 14-item Type D scale. CD34+/KDR (kinase insert domain-containing receptor)+ cells were quantified by flow cytometry before and immediately after CPET. Migration of early EPC towards VEGF (vascular endothelial growth factor) and SDF-1alpha (stromal-cell-derived factor-1alpha) was investigated. Type D (n=10) and non-Type D (n=25) patients were comparable with regards to demographics, disease severity and Framingham risk factor score. Circulating EPC numbers were reduced by 54% in Type D compared with non-Type D patients (0.084+/-0.055 and 0.183+/-0.029% of lymphocytes respectively; P=0.006). Exercise led to a 60% increase in EPC in Type D patients, whereas the EPC number remained unchanged in the non-Type D group (P=0.049). Baseline migratory capacity was related to disease severity, but was not different between Type D and non-Type D patients. Exercise induced a highly significant enhancement of migratory capacity in both groups. In conclusion, reduced EPC numbers might explain the impaired cardiovascular outcome in Type D patients. The larger increase in circulating EPCs observed in these patients suggests that acute exercise elicits a more pronounced stimulus for endothelial repair.
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PMID:Circulating CD34+/KDR+ endothelial progenitor cells are reduced in chronic heart failure patients as a function of Type D personality. 1917 75

Aldosterone produces a multitude of effects in vivo, including promotion of postmyocardial infarction adverse cardiac remodeling and heart failure progression. It is produced and secreted by the adrenocortical zona glomerulosa (AZG) cells after angiotensin II (AngII) activation of AngII type 1 receptors (AT(1)Rs). Until now, the general consensus for AngII signaling to aldosterone production has been that it proceeds via activation of G(q/11)-proteins, to which the AT(1)R normally couples. Here, we describe a novel signaling pathway underlying this AT(1)R-dependent aldosterone production mediated by beta-arrestin-1 (betaarr1), a universal heptahelical receptor adapter/scaffolding protein. This pathway results in sustained ERK activation and subsequent up-regulation of steroidogenic acute regulatory protein, a steroid transport protein regulating aldosterone biosynthesis in AZG cells. Also, this betaarr1-mediated pathway appears capable of promoting aldosterone turnover independently of G protein activation, because treatment of AZG cells with SII, an AngII analog that induces betaarr, but not G protein coupling to the AT(1)R, recapitulates the effects of AngII on aldosterone production and secretion. In vivo, increased adrenal betaarr1 activity, by means of adrenal-targeted adenoviral-mediated gene delivery of a betaarr1 transgene, resulted in a marked elevation of circulating aldosterone levels in otherwise normal animals, suggesting that this adrenocortical betaarr1-mediated signaling pathway is operative, and promotes aldosterone production and secretion in vivo, as well. Thus, inhibition of adrenal betaarr1 activity on AT(1)Rs might be of therapeutic value in pathological conditions characterized and aggravated by hyperaldosteronism.
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PMID:An adrenal beta-arrestin 1-mediated signaling pathway underlies angiotensin II-induced aldosterone production in vitro and in vivo. 1928 25


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