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

The proto-oncogene ErbB2 (also known as c-neu or HER2 in humans) encodes a receptor tyrosine kinase that is frequently overexpressed in human tumors. It is the target of a novel and effective antibody-based therapy for malignant mammary tumors (trastuzumab/Herceptin). Biochemical and genetic experiments have shown that ErbB2 acts as a coreceptor for other members of the ErbB family of receptor tyrosine kinases. In particular, signals are transduced by ErbB2/ErbB4, ErbB2/ErbB3, and ErbB2/EGF receptor heteromers. ErbB2/4 and ErbB2/ErbB3 heteromers transmit neuregulin-1 signals in the developing and adult heart, and in the peripheral nervous system, respectively. Of particular medical relevance are recent findings that relied on tissue-specific mutation of ErbB2 in cardiomyocytes, which revealed an essential function of ErbB2 in normal heart physiology and demonstrated that loss of cardiac ErbB2 can cause dilated cardiomyopathy in adult mice. Thus, ErbB2 is important not only in development, but also for the correct functioning of the differentiated myocardium. The conditional ErbB2 mutant mice provide a model for the principal side effects--cardiomyopathy and heart failure--that can be observed in patients undergoing chemotherapy with Trastuzumab.
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PMID:ErbB2 pathways in heart and neural diseases. 1258 44

Heparin-binding epidermal growth factor (HB-EGF) and betacellulin (BTC) are activating ligands for EGF receptor (EGFR/ErbB1) and ErbB4. To identify their physiological functions, we disrupted mouse HB-EGF and BTC alleles by homologous recombination. Most HB-EGF(-/-) mice died before weaning, and survivors had enlarged, dysfunctional hearts and reduced lifespans. Although BTC(-/-) mice were viable and fertile and displayed no overt defects, the lifespan of double null HB-EGF(-/-)/BTC(-/-) mice was further reduced, apparently due to accelerated heart failure. HB-EGF(-/-) newborns had enlarged and malformed semilunar and atrioventricular heart valves, and hypoplastic, poorly differentiated lungs. Defective cardiac valvulogenesis was the result of abnormal mesenchymal cell proliferation during remodeling, and was associated with dramatic increases in activated Smad1/5/8. Consistent with the phenotype, HB-EGF transcripts were localized to endocardial cells lining the margins of wild-type valves. Similarly defective valvulogenesis was observed in newborn mice lacking EGFR and tumor necrosis factor-alpha converting enzyme (TACE). These results suggest that cardiac valvulogenesis is dependent on EGFR activation by TACE-derived soluble HB-EGF, and that EGFR signaling is required to regulate bone morphogenetic protein signaling in this context.
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PMID:Defective valvulogenesis in HB-EGF and TACE-null mice is associated with aberrant BMP signaling. 1277 86

In hearts with chronic left ventricular (LV) systolic dysfunction secondary to hypertension or myocardial infarction, MAPK phosphorylation and/or activity are increased. Whether other settings of LV dysfunction not associated with ischemia-reperfusion are also characterized by increased MAPK phosphorylation or activity is unknown. After 3 wk of rapid LV pacing (400 beats/min), eight rabbits displayed clinical signs of heart failure (HF), and echocardiography revealed an increase in LV end-diastolic diameter from 15.6 +/- 0.7 (means +/- SE) to 18.8 +/- 0.7 mm and a reduced shortening fraction from 31 +/- 1to10 +/- 2% (both P < 0.05). Morphological alterations in HF included increased numbers of terminal deoxynucleotidyl transferase-mediated dUTP nick-end labeling (TUNEL)-positive cardiomyocytes, extent of fibrosis, and cross-sectional cardiomyocyte area. Total p38 MAPK did not differ between failing and normal hearts (n = 8). However, p38 MAPK phosphorylation [164,488 +/- 29,323 vs. 43,565 +/- 14,817 arbitrary units (AU), P < 0.05, densitometry] and the activities of p38 MAPK-alpha and -beta were increased in failing compared with normal hearts (149,441 +/- 38,381 and 170,430 +/- 32,952 vs. 68,815 +/- 28,984 and 81,788 +/- 22,774 AU, respectively, both P < 0.05). In failing compared with normal hearts, total and phosphorylated JNK46 and JNK54 MAPK were increased, whereas total and phosphorylated ERK MAPK remained unchanged. In pacing-induced HF, p38 and JNK MAPK phosphorylation as well as p38 MAPK activity was increased. Further studies will have to define whether or not chronic specific blockade of MAPK activity can interfere with apoptosis/fibrosis and thereby attenuate the progression of HF.
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PMID:Stress kinase phosphorylation is increased in pacing-induced heart failure in rabbits. 1284 18

We have demonstrated that Cre-loxP-mediated gene-switch transgenesis is an effective approach to achieve targeted and temporally regulated gene manipulation in the heart. Using this approach, we have established animal models with targeted activation of different MAPK pathways. From these animal models, we identified distinct features of cardiac pathology associated with individual MAPK branches (summarized in Fig. 8). Specifically, Ras activation appears to promote cardiac hypertrophy, whereas p38 and JNK activation does not. Whereas Ras activation leads to depressed diastolic function associated with suppressed calcium transients and SR calcium uptake, p38 activity seems to modulate cellular contractility without affecting intracellular calcium cycling. Although all three models displayed extensive remodeling in the myocardium, the extent and the composition of interstitial fibrosis are different among them, with Ras- and p38-activated hearts promoting collagen-based fibrosis, and JNK activation leading to induction in fibronectin-based reticular fiber. In addition, JNK activation leads to loss of Cx43 expression and abnormal cell-cell communication. Therefore, ERK, p38, and JNK are three distinct intracellular signaling pathways that contribute to different aspects of cardiac pathology during heart failure. Combining sophisticated genetic manipulation with comprehensive analysis at physiological, molecular, and genomic levels, the transgenic animals established in these studies should serve as valuable model systems to identify and dissect the underlying mechanisms for different aspects of cardiac pathology such as hypertrophy, contractile dysfunction, and abnormal cell-cell communication. The insights learned from these investigations may help to develop novel therapeutic approaches to confront this devastating disease.
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PMID:Using a gene-switch transgenic approach to dissect distinct roles of MAP kinases in heart failure. 1285 68

Cardiac hypertrophy is an adaptive response to a number of heart diseases including myocardial infarction. Although it can be compensatory at first, sustained hypertrophy is often a transition to heart failure. We have found that cardiomyocytes in culture can survive mild doses of H2O2 but develop hypertrophy involving activation of p70 S6 kinase 1 (p70S6K1). Here, the role of p42/p44(ERK) and p38 MAPK in oxidant-induced hypertrophy is tested. H2O2- induced phosphorylation (activation) of p42/p44(ERK) and p38 within 10 min of 200 microM H2O2 exposure. Although p42/p44(ERK) remained highly phosphorylated from 60 to 120 min, the level of p38 phosphorylation reached highest at 60 min and started to decline at 90 min. Inhibiting ERKs with PD98059 attenuated H2O2-induced AP-1 activation but did not affect H2O2-induced p70S6K1 activation or cardiomyocyte enlargement as measured by increases in cell volume and protein content. In contrast, the p38 inhibitor SB202190 has no inhibitory effect on AP-1 activation but partially prevented H2O2 from inducing p70S6K1 activation and cell enlargement. These data suggest that while p42/p44(ERK) participates in gene expression associated with hypertrophy, p38 may regulate cell size increase by p70S6K1 activation.
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PMID:Distinct roles of p42/p44(ERK) and p38 MAPK in oxidant-induced AP-1 activation and cardiomyocyte hypertrophy. 1450 Oct 30

Data on the functional status of the cardiorespiratory system are required to identify patients at risk for postoperative complication in the presence of lung diseases. Very many factors influence the course of an operation and the postoperative period so there is no golden standard or the only parameter for predicting how the postoperative period runs. Patients with normal spirographic values (FEV1, more than 80%??) and without cardiovascular comorbidity are at a slight risk for postoperative complications. These patients do not need to be additionally examined. A less than one-month history of myocardial infarction, instable angina pectoris, decompensated heart failure, severe valvular disease are contraindications to planned surgery. The risk of cardiovascular events is high when the signs of myocardial ischemia occur with low exercise (less than 4 MET). Stress echocardiography, loading tests, and radioisotopic study are used as auxiliary techniques, FEV1, under 60%; ppo-FEV1, and ppo-DC, under 40%; VO2max, under 15 ml/kg/min are the values of a high risk for respiratory complications.
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PMID:[Functional studies in the prediction of postoperative complications in the presence of lung diseases]. 1452 92

Beta-adrenergic receptor (beta-AR) blockade is now widely utilized therapeutically for heart failure, but its cellular mechanism of action is not clear. Mice with cardiac-specific overexpressed Gs alpha develop cardiomyopathy with age, which can be prevented by beta-AR blockade, making this model potentially useful for addressing this question. Our hypothesis was that distal mechanisms in beta-AR signaling, i.e. mitogen-activated protein kinases, were a potential mechanism. At 6-9 months, when cardiomyopathy began to develop in Gs alpha mice, there were significant increases in phospho-kinase levels of p38 MAP kinase (p38 MAPK), and p70(S6K) compared to wild type. In contrast, phospho-kinase levels of ERK and Akt were increased at 9-10 months, but phospho-kinase levels of c-Jun N-terminal kinase (JNK) increased only at 15-20 months (when cardiomyopathy was fully manifest). Treatment of 9-10 months old Gs alpha mice with propranolol for 5 weeks reverted the phospho-kinase levels of these kinases known to be involved in the growth and death of cardiac myocytes. Another novel observation of this study was that there were also decreases in total protein levels of p38 MAPK, p70(S6K), JNK, and Akt following beta-AR blockade. Thus, chronically enhanced beta-AR signaling elicits a differential pattern of altered mitogen-activated protein kinases, which was reversed with beta-AR blockade, raising the possibility that the beneficial effects of beta-AR blockade therapy in heart failure may be due in part to the inhibition of these pathways.
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PMID:Propranolol prevents enhanced stress signaling in Gs alpha cardiomyopathy: potential mechanism for beta-blockade in heart failure. 1487 58

Brain natriuretic peptide (BNP) is a 32 amino acid cardiac natriuretic peptide hormone originally isolated from porcine brain tissue. The human BNP gene is located on chromosome 1 and encodes the prohormone proBNP. The biologically active BNP and the remaining part of the prohormone, NT-proBNP (76 amino acids) can be measured by immunoassay in human blood. Cardiac myocytes constitute the major source of BNP related peptides. The main stimulus for peptide synthesis and secretion is myocyte stretch. Recently, cardiac fibroblasts have also been shown to produce BNP. Other neurohormones may stimulate cardiac BNP production in different cardiac cell types. In contrast to atrial natriuretic peptides (ANP/NT-proANP), which originate mainly from atrial tissue, BNP related peptides are produced mainly from ventricular myocytes. Ventricular (NT-pro)BNP production is strongly upregulated in cardiac failure and locally in the area surrounding a myocardial infarction. In peripheral organs BNP binds to the natriuretic peptide receptor type A causing increased intracellular cGMP production. The biological effects include diuresis, vasodilatation, inhibition of renin and aldosterone production and of cardiac and vascular myocyte growth. In mice BNP gene knockout leads to cardiac fibrosis, gene over-expression to hypotension and bone malformations. BNP is cleared from plasma through binding to the natriuretic peptide clearance receptor type C, but it seems relatively resistant to proteolysis by neutral endopeptidase NEP 24.11. Clearance mechanisms for NT-proBNP await further study. While the plasma concentration of NT-proBNP and BNP is approximately equal in normal controls, NT-proBNP plasma concentration is 2-10 times higher than BNP in patients with heart failure. This relative change in peptide levels may be explained by shifts in cardiac secretion and/or clearance mechanisms.
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PMID:Essential biochemistry and physiology of (NT-pro)BNP. 1498 73

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 alpha1A, alpha1B, alpha1D, beta1, and beta2 adrenergic and M1 and M2 muscarinic receptors. Stimulation with phenylephrine, isoproterenol and carbachol increased ERK phosphorylation and second messengers. Isoproterenol increased the beating rate, which was blocked with CGP20712A (beta1-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:Application of mesenchymal stem cells for the regeneration of cardiomyocyte and its use for cell transplantation therapy. 1500 38

Three zinc metallopeptidases are implicated in the regulation of fluid homeostasis and vascular tone and represent interesting targets for the treatment of chronic heart failure. We have previously reported the synthesis of a triple inhibitor able to simultaneously inhibit neprilysin (NEP, EC 3.4.24.11), angiotensin-converting enzyme (ACE, EC 3.4.15.1) and endothelin-converting enzyme (ECE-1, EC 3.4.24.71) with nanomolar potency towards NEP and ACE and a lesser affinity for ECE. Here, we report the optimization and biological activities of analogs derived from lead compound 1 (2S)-2-[(2R)-2-((1S)-5-bromo-indan-1-yl)-3-mercapto-propionylamino]-3- (1H-indol-3-yl)-propionic acid by a structural approach. Among several inhibitors, compound 21, (2S)-2-[(2R)-2-((1S)-5-bromo-indan-1-yl)-3-mercapto-propionylamino]-3-(1H-pyrrolo[2,3-b]pyridin-3-yl)-propionic acid was selected by taking into account its good molecular adaptation with the recently published structures of the three vasopeptidases. This optimization procedure led to an improved pharmacologic activity when compared with 1.
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PMID:In vivo properties of thiol inhibitors of the three vasopeptidases NEP, ACE and ECE are improved by introduction of a 7-azatryptophan in P2' position. 1500 31


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