Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.11.13 (protein kinase C)
 49,245 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Endothelin (ET)-1 stimulates the synthesis and release of renin and inhibits the expression of prolactin (PRL) from term human decidual cells. To examine the mechanisms by which ET-1 exerts its differential effects on renin and PRL expression, we have studied total renin and PRL release from term human decidual cells in response to pharmacological agents that affect calcium- and protein kinase C-dependent mechanisms. Calcium ionophore A-23187 stimulated basal renin release and potentiated ET-1-stimulated renin release but had no effect on basal or ET-inhibited PRL release. The calcium channel blocker nifedipine inhibited ET-1-stimulated renin release but had no effect on PRL release. The protein kinase C agonist phorbol 12-myristate 13-acetate (PMA) stimulated basal renin release and potentiated the effect of ET-1 on renin release. However, PMA inhibited basal PRL release and also enhanced the inhibitory effect of ET-1. The PKC inhibitor staurosporine increased basal PRL release and completely reversed the inhibitory effect of ET on PRL release. These results indicate that the effects of ET-1 on both decidual renin and PRL release are dependent on the activation of protein kinase C. However, the effect of ET-1 on renin release appears to be dependent on extracellular calcium, whereas the effect on PRL is not influenced by extracellular calcium.
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PMID:Endothelin-1 modulates renin and prolactin release from human decidua by different mechanisms. 781 Jun 25

Cardiac myocyte hypertrophy often occurs in response to both hemodynamic and neurohumoral factors. To study whether activation of the renin-angiotensin system by itself may induce a cardiac growth response, the acute effects of angiotensin II on cardiac protein synthesis were studied in isolated rat hearts. New protein synthesis in isolated buffer-perfused adult rat hearts was measured by incorporation of [3H]phenylalanine into cardiac proteins during a 3-hour perfusion protocol. Angiotensin II (1 x 10(-8) mol/L), administered alone or in combination with the alpha 1-blocker prazosin (1 x 10(-7) mol/L), stimulated protein synthesis in both ventricles. The rate of [3H]phenylalanine incorporation into cardiac proteins was 3.9-fold (P < .005) and 2.6-fold (P < .01) higher in angiotensin II-perfused (n = 6) than in vehicle-perfused (n = 6) left and right ventricles, respectively. The induction of new protein synthesis by angiotensin II was blocked by the angiotensin II type 1 (AT1) receptor antagonist losartan (1 x 10(-7) mol/L, n = 5). To study the pathways of angiotensin signal transduction, protein kinase C (PKC)-epsilon as well as cardiac c-fos and c-jun mRNA levels were analyzed. Angiotensin II (1 x 10(-8) mol/L, n = 20) resulted in a transient translocation of PKC-epsilon from the cytosol to the cellular membrane. However, compared with phorbol ester stimulation (phorbol 12-myristate 13-acetate [PMA], 1 x 10(-7) mol/L; n = 20), angiotensin II effects on PKC translocation were significantly less pronounced and required a more prolonged stimulation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Angiotensin II-induced growth responses in isolated adult rat hearts. Evidence for load-independent induction of cardiac protein synthesis by angiotensin II. 785 94

Basically the circulation must satisfy three requirements: 1) to provide an adequate blood flow to the tissues for maintaining their energetic needs, 2) to sustain renal function (glomerular pressure and renal blood flow) for the precise homeostasis of body fluids, and 3) to grant cutaneous circulation for controlling body temperature. Therefore, the arterial circulation can be separated in oxygen dependent, filtration dependent and thermic dependent sectors. The blood flow distribution through these regions depends on the myogenic tone of the resistance vessels. The oxygen dependent section receives 70% of the cardiac output and settles the equivalent resistance of the arterial tree; so, it is the main one responsible for setting the blood pressure level. The total resistance of this section should be adjusted to maintain the ATP/ADP relationship. The mechanisms involved in the regulation of the myogenic tone are local metabolic products (pO2, pCO2, pH, etc.), vasoactive substances present in the vascular wall (EDRF, AgII, PGs, etc.) and intracellular variations (Na++, Ca++, PKC, IP3, etc.). The vascular resistance of this section, adjusted as an electronic module, settles the minimum blood pressure needed to maintain the energetic equilibrium, independently of the pressure required to achieve a normal renal function. Thus, the kidney to fulfill its function must modulate this previously established myogenic tone by employing the renin angiotensin system. Circulating AgII will increase the vascular tone in the oxygen dependent section overriding its local controls until the blood pressure reaches the necessary level to maintain an adequate renal function.
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PMID:[Adjustment of the basal level of blood pressure]. 824 35

The present study was performed to determine whether transforming growth factor beta 1 (TGF beta 1) and tissue renin-angiotensin (R-A) system are involved in hypertrophic cardiomyopathy. Cardiomyopathic Syrian hamsters (Bio 14.6) aged 4 and 20 weeks were used as a model of hypertrophic cardiomyopathy and compared with age-matched F1 beta Syrian hamsters. Total RNA was extracted from the left ventricle, and the m-RNA expressions of TGF beta 1 and angiotensinogen (ATN) were examined by Northern blotting or Ribonuclease Protection Assay (RPA). The activity of angiotensin-converting enzyme (ACE) was assayed by the modified method of Tess, using crude membrane fraction prepared from left ventricle. The effect of angiotensin II (A II) on phosphatidylinositol (PI) metabolism was evaluated by the PI -or PIP2 (phosphatidylinositol 4,5-bis phosphate)-specific phospholipase C (PLC), which releases inositol-1,4,5-triphosphate (I P3) and diacylglycerol (DAG) in cardiac myocytes. The m-RNA expressions of TGF beta 1 and ATN were detected in each group of Syrian hamsters (BIO14.6 and F1 beta). TGF beta 1 m-RNA expression was markedly increased in BIO14.6 compared with F1 beta at the age of 4 weeks, and was more intensified at the age of 20 weeks, while no significant difference was demonstrated in the ATN m-RNA expression. ACE activity in the left ventricle was enhanced in 20 week-old BIO14.6 compared with age-matched F1 beta. The activities of PI- and PIP2-specific PLC were enhanced in 20 week-old BIO14.6 in response to A II stimulation. DAG and IP3, which are second messengers and activate protein kinase C. were significantly released from the cardiac myocytes of 20 week-old BIO14.6. These results suggest that the increase in expression of TGF beta 1 gene in the left ventricle may induce cardiac hypertrophy in BIO14.6, and that the exaggerated response of phosphatidylinositol metabolism to A II and the increased activity of ACE in cardiac tissue R-A system may lead to the development of cardiac hypertrophy.
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PMID:[Tissue factors contributing to cardiac hypertrophy in cardiomyopathic hamsters (BIO14.6): involvement of transforming growth factor-beta 1 and tissue renin-angiotensin system in the progression of cardiac hypertrophy]. 838 86

The adequate biological function of the renin-angiotensin system in blood pressure regulation and volume control involves additional factors for a fully balanced response. This includes arachidonic acid-derived lipid mediators, the eicosanoids. Angiotensin II (Ang II) causes (AT1)-receptor mediated stimulation of phospholipase C, resulting in generation of IP3 (inositol triphosphate) and activation of protein kinase C, elevated cytosolic Ca+ and stimulation phospholipase A2. These processes culminate in the generation of cell-specific eicosanoids and their autocrine action on the generating cell or paracrine effects on cells in the vicinity. In vascular tissue, liberated arachidonic acid is mainly converted into vasodilator prostaglandins, i.e. prostacyclin (PGI2) and PGE2. These prostaglandins may attenuate any direct Ang II-induced vasoconstriction, lower systemic vascular resistance and stimulate renal sodium excretion. In some vessels, arachidonic acid released by Ang II may also be converted to vasoconstrictor eicosanoids, i.e. thromboxane A2, PGF2 alpha and 12-HETE. The biological significance of endogenous eicosanoid generation becomes evident if vasoactive eicosanoids become limiting factors for maintaining homoiostasis, i.e. in the fetal circulation, Bartter's syndrome and congestive heart failure where vasodilating eicosanoids (PGE2, PGI2) are involved in maintenance of low vascular resistance and reduced or absent vasoconstriction by Ang II. Vasoconstrictor eicosanoids (thromboxane A2, PGF2 alpha, 12-HETE) contribute to high blood pressure in (renovascular) hypertension and pregnancy-induced hypertension. Alternatively, generation of vasodilator prostaglandins may be reduced in these situations. The vascular renin-angiotensin system is subject to the action of a number of drugs and chemicals, most notably specific inhibitors of the angiotensin-converging enzyme and drugs affecting kidney function (furosemide) and/or vessel tone (propranolol).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Prostaglandin-mediated actions of the renin-angiotensin system. 849 70

The angiotensin-converting enzyme (ACE) inhibitor captopril inhibits mitosis in several cell types that contain ACE and renin activity. In the present study, we evaluated the effect of the ACE inhibitors captopril and CGS 13945 (10(-8) to 10(-2) M) on proliferation and gene expression in hamster pancreatic duct carcinoma cells in culture. These cells lack renin and ACE activity. Both ACE inhibitors produced a dose-dependent reduction in tumor cell proliferation within 24 hr. Captopril at a concentration of 0.36 mM and CGS 13945 at 150 microM decreased cellular growth rate to approximately half that of the control. Neither drug influenced the viability or the cell cycle distribution of the tumor cells. Slot blot analysis of mRNA for four genes, proliferation associated cell nuclear antigen (PCNA), K-ras, protein kinase C-beta (PKC-beta) and carbonic anhydrase II (CA II) was performed. Both ACE inhibitors increased K-ras expression by a factor of 2, and had no effect on CA II mRNA levels. Captopril also lowered PCNA by 40% and CGS 13945 lowered PKC-beta gene expression to 30% of the control level. The data demonstrate that ACE inhibitors exhibit antimitotic activity and differential gene modulation in hamster pancreatic duct carcinoma cells. The absence of renin and ACE activity in these cells suggests that the antimitotic action of captopril and CGS 13945 is independent of renin-angiotensin regulation. The growth inhibition may occur through downregulation of growth-related gene expression.
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PMID:Inhibitors of angiotensin-converting enzyme modulate mitosis and gene expression in pancreatic cancer cells. 853 59

Neuronal cells in primary culture from the hypothalamus-brain stem areas of normotensive [Wistar-Kyoto (WKY)] and spontaneously hypertensive (SH) rat brains have been used in the present study to investigate an interaction between the brain renin-angiotensin II system and the plasminogen activator system. This is an attempt to further our understanding of the role of brain Ang II in the control of neuronal development and differentiation through its regulation of the extracellular matrix. Ang II caused a 10-fold stimulation of plasminogen activator inhibitor-1 (PAI-1) messenger RNA (mRNA) in WKY rat brain neuronal cultures. The stimulation was mediated by the AT1 receptor subtype and was accompanied by an increase in PAI-1 gene transcription and the synthesis of cellular PAI-1 protein. The stimulation involved activation of protein kinase C, and alterations in the intracellular Ca2+ pool caused a significant inhibition of Ang II stimulation of PAI mRNA. Ang II stimulation of PAI-1 mRNA succeeded its action on c-fos mRNA and was attenuated by c-fos antisense oligonucleotide. Although PAI-1 gene expression was also stimulated by Ang II in neuronal cultures of SH rat brain, two differences between WKY and SH rat brain neurons were observed: 1) the level of Ang II stimulation in SH rat neurons was 50% of that in WKY rat neurons; and 2) Ang II stimulation of c-fos was 2.4-fold higher in SH neurons than in WKY neurons, but c-fos antisense oligonucleotide did not attenuate the stimulatory action of Ang II on PAI-1 mRNA in SH neurons. These observations suggest that the changes in the Ang II-mediated signaling pathways and/or the regulatory region(s) of the PAI-1 gene may contribute to the differential actions of Ang II in WKY and SH rat brain neurons.
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PMID:Angiotensin II regulation of plasminogen activator inhibitor-1 gene expression in neurons of normotensive and spontaneously hypertensive rat brains. 864 Dec 4

Angiotensin II (AII) was found to upregulate tissue inhibitor of metalloproteineses-1 (TIMP-1) gene expression in rat heart endothelial cells in a dose and time-dependent manner. The maximal stimulation of TIMP-1 mRNA was achieved by 2 h after the addition of AII. This effect was blocked by losartan, an AT1 receptor antagonist and by calphostin C, a protein kinase C inhibitor. Addition of cycloheximide superinduced and actinomycin D abolished the induction. These results suggest that AII stimulates TIMP-1 production by a protein kinase C dependent pathway which is dependent upon de novo RNA synthesis. Immunoprecipitation experiment showed an enhanced band of 28 kDa from the conditioned medium of AII-treated cultures. Immunoblot analysis revealed that TIMP-1 was detectable in the conditioned medium 4 h after AII stimulation. Since endothelial cells line the blood vessels and sense the rise in AII associated with hypertension, the TIMP-1 released by these cells may provide an initial trigger leading to cardiac fibrosis in angiotensin-renin dependent hypertension.
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PMID:Angiotensin II induces TIMP-1 production in rat heart endothelial cells. 866 44

Myocardial stretch and the renin-angiotensin system have been implicated in the development of cardiac hypertrophy through the activation of specific target genes. However, the relative importance of these putative hypertrophic stimuli has not been established in vivo. We used an isolated isovolumic heart preparation in which coronary perfusion pressure (CPP), left ventricular end-diastolic pressure, and pharmacological therapy can be independently manipulated to study this relationship. High CPP (140 cmH2O), which increased coronary flow (8.99 vs. 17.6 ml/min) and left ventricular systolic pressure (50 vs. 91 mmHg), increased steady state c-fos mRNA expression 2.3-fold (all P < 0.01 vs. low CPP). In contrast, increased left ventricular end-diastolic pressure (25 mmHg) and/or infusion of angiotensin II in the absence of increased CPP was not associated with an increase in c-fos mRNA expression. The change in c-fos gene expression seen with increased CPP was largely reversed by treatment with an angiotensin type 1 (AT1) receptor blocker. Hearts perfused at high CPP demonstrated increased translocation/activation of protein kinase C-epsilon relative to controls. None of the hearts studied were ischemic during perfusion. Thus, in the perfused adult rat heart, dynamic, but not static, stretch activates the early response gene, c-fos, and may involve the endogenous reninangiotensin system and protein kinase C.
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PMID:Role of endogenous renin-angiotensin system in c-fos activation and PKC-epsilon translocation in adult rat hearts. 876 71

The actions of angiotensin II in the cardiovascular system are transmitted by two known and possibly some unknown angiotensin receptor types. AT1 and AT2 both correspond to G-protein-coupled receptors with seven hydrophobic transmembrane domains, several N-glycosylation sites and a potential G-protein binding site. Cloning of coding regions and promoter sequences contributed to the understanding of receptor protein function and regulation. Angiotensin receptors with atypical binding properties for the known AT1- and AT2-specific ligands are expressed on human cardiac fibroblasts and in the human ulcrus. In several animal models, receptors with high affinity for angiotensin (1-7) have been described. AT1 stimulation is mediated by the generation of phospholipid-derived second messengers, activation of protein kinase C, the MAPkinase pathway and of immediate early genes. Recently, phosphorylation and dephosphorylation of tyrosine kinases have been associated with AT1- and AT2-mediated signal transduction. ATR are regulated by phosphorylation, internalization, modification of transcription rate and mRNA stability. Regulation is highly cell and organ specific and includes upregulation of ATR in some pathophysiological situations where the renin angiotensin system is activated. Whereas the function of AT1 in the cardiovascular system is relatively well established, there is little information regarding the role of AT2. Recent hypotheses suggest an antagonism between AT1 and AT2 at the signal transduction and the functional level. Transgenic animal models, particularly with targeted disruption of the AT1 and AT2 genes, suggest the contribution of both genes to blood pressure regulation. Genetic polymorphisms have been described in the AT1 and AT2 gene or neighbored regions and are used to analyze the association between gene defects and cardiovascular diseases. AT1 antagonists are now being introduced into the treatment of hypertension and potentially heart failure, and more interesting pharmacological developments are expected from the ongoing basic studies.
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PMID:Molecular biology of angiotensin receptors and their role in human cardiovascular disease. 877 61


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