Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.4.3 (phospholipase C)
 18,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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

Angiotensin II is the major effector peptide of the renin-angiotensin system. In addition to its vasoconstrictor activity, angiotensin II stimulates smooth muscle cell growth in arterial hypertension and in models of vascular injury. The angiotensin II type 1 receptor is a seven-transmembrane receptor and is responsible for virtually all the physiological actions of angiotensin II. This class of receptor signals in part through its association with heterotrimeric G proteins. A newly developed concept for guanine nucleotide protein-coupled receptors is the activation of intracellular second-messenger proteins via tyrosine phosphorylation. For instance, angiotensin II stimulates the rapid tyrosine phosphorylation and activation of phospholipase C-gamma1. Also, angiotensin II stimulates the tyrosine phosphorylation of Janus kinases. In this review, we discuss early signaling events induced by angiotensin II with an emphasis on tyrosine phosphorylation. Understanding the importance of tyrosine phosphorylation in the signaling pathways of the angiotensin II type 1 receptor may lead to new treatment modalities for cardiovascular disease.
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PMID:Importance of tyrosine phosphorylation in angiotensin II type 1 receptor signaling. 861 89

Endothelins 1, 2, and 3 did not affect basal renin secretion, but selectively inhibited to a similar extent both cAMP-stimulated renin secretion and renin gene expression in isolated renal juxtaglomerular cells. In isolated perfused rat kidneys and after cAMP-stimulated renin secretion using isoproterenol, endothelins inhibited basal renin secretion at a perfusion pressure of 80 mm Hg. Endothelin's main action is mediated via the endothelin ETB receptor. It involves activation of phospholipase C, intracellular calcium mobilization in juxtaglomerular cells that is dependent on extracellular calcium and associated with prominent calcium-activated chloride currents, and subsequent processes. In normal rats and in rats with unilateral renal artery clips, a nonselective inhibitor of endothelin receptors, Ro 47-0203, did not significantly change renin secretion and renal renin gene expression, despite complete abolition of the vasoconstrictive and renin inhibitory action of exogenous endothelins by this drug in isolated perfused rat kidneys. In spite of a marked renin inhibitory efficacy of exogenous endothelins in vitro (isolated renal juxtaglomerular cells, isolated perfused rat kidney), endogenous endothelins play no relevant regulatory role in renin secretion and renin gene expression in normal and hypoperfused rat kidneys in vivo. However, endothelins may be of physiological relevance for the development of hypertension upon renal artery stenosis.
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PMID:Role of endothelins for renin regulation. 874 30

Changes in the extracellular calcium concentration [Ca2+]o modulate several aspects of renal function through unknown mechanism(s). cDNA encoding a Ca2+o-sensing receptor from bovine parathyroid and rat kidney that appears to mediate several of the known effects of Ca2+o on parathyroid and renal function were recently isolated. The expressed receptor activates phospholipase C, showing a pharmacologic profile very similar to that of the native receptor. Its deduced amino acid sequence identifies it as a member of the superfamily of G protein-coupled receptors. The physiologic relevance of the receptor has been established by the demonstration that mutations in it cause three inherited diseases of calcium metabolism. Two hypercalcemic disorders, familial hypocalciuric hypercalcemia and neonatal severe hyperparathyroidism, result from inactivating mutations when present in the heterozygous and homozygous states, respectively. An activating mutation, in contrast, causes an autosomal dominant form of hypocalcemia. In the kidney, the receptor is expressed most abundantly in the thick ascending limb, where it likely modulates sodium chloride, calcium, and magnesium reabsorption and, perhaps, urinary concentrating ability. Studies are currently underway to determine whether it also mediates the effects of Ca2+o on other parameters of kidney function, such as RBF, glomerular filtration, renin secretion, and vitamin D metabolism. Thus, this Ca2+o-sensing receptor permits extracellular calcium ions to act not only as an intracellular second messenger but also in a "hormone-like" role as an extracellular first messenger.
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PMID:A cloned Ca(2+)-sensing receptor: a mediator of direct effects of extracellular Ca2+ on renal function? 874 77

We have recently described that endothelins-1 to -3 equipotently inhibit cAMP stimulated renin secretion from cultured mouse juxtaglomerular cells by a process involving phospholipase C activation. This study examined the influence of endothelin-2 on renin gene expression in renal juxtaglomerular cells. To this end we semiquantitated renin mRNA levels by competitive RT-PCR in primary cultures of mouse renal juxtaglomerular cells after 20 hours of incubation. We found that endothelin-2 (0.1 to 100 nmol/liter) did not change basal renin gene expression. The adenylate cyclase activator forskolin (3 mumol/ liter) increased renin mRNA levels to 400% of the controls and this stimulation was dose-dependently attenuated by ET-2 to 250% of the control value. The effect of ET-2 was mimicked by the ETB-receptor agonist sarafotoxin S6c. The kinase inhibitor staurosporine (100 nmol/ liter) increased renin secretion and renin mRNA levels. Combination of staurosporine with forskolin produced the same effects on renin secretion and renin mRNA levels as did staurosporine alone. In the presence of both forskolin and staurosporine ET-2 had no significant effect on renin secretion and renin gene expression. The phorbol ester PMA (30 nmol/ liter), which was used to stimulate protein kinase C activity, attenuated cAMP stimulated renin secretion and renin mRNA levels. Lowering the extracellular concentration of calcium by the addition of 1 mmol/liter EGTA did not inhibit the effect of ET-2 on cAMP induced renin secretion and renin gene expression. These findings suggest that endothelins inhibit cAMP stimulated renin gene expression by an event that is mediated via ETB receptors. This inhibitory effect may in part involve protein kinase C activation.
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PMID:Endothelins inhibit cyclic-AMP induced renin gene expression in cultured mouse juxtaglomerular cells. 880 79

Endothelins (ETs) were initially thought to be primarily involved in the control of cardiovascular activity, but the presence of ETs and their receptors in a wide variety of other tissues has suggested a much broader range of functions. Specific receptors for ETs are found in nonvascular tissues including neuronal, neuroendocrine, and endocrine cells. In addition, immunoreactive ETs are present in the brain, pituitary, and peripheral endocrine tissues. However, the ET levels in hypothalamo-hypophysial portal and peripheral blood are low, suggesting that the ET system participates in neuroendocrine regulation through paracrine and/or autocrine mechanisms. Both ETA and ETB receptors are expressed in the hypothalamus, adrenal, parathyroid glands, pancreas, ovary, uterus, placenta, and prostate, while only ETA receptors are expressed in GT1 neurons, anterior pituitary cells, alpha T3-1 immortalized gonadotropes, parathyroid-derived cells, thyrocytes, testicular Leydig and Sertoli cells, normal and neoplastic ovarian granulosa cells, chondrocytes, and other cell types. Activation of ET receptors elicits the sequence of cellular events typical of Ca(2+)-mobilizing receptors, with prominent increases in phosphoinositide hydrolysis and elevations of [Ca2+]i that occur in oscillatory and nonoscillatory modes depending on the cell type. ET-induced activation of the phosphoinositide/Ca(2+)- mobilizing pathway in neuronal and endocrine cells is associated with rapid stimulation of secretory responses, including release of gonadotropin-releasing hormone, oxytocin, vasopressin, substance P, atrial natriuretic peptides, gonadotropins, thyrotropin, growth hormone, parathyroid hormone, aldosterone, and catecholamines. On the other hand, ET has inhibitory actions on prolactin, progesterone, and renin release. In addition to stimulating phospholipase C-dependent pathways, ETs also activate phospholipase D-and MAP-kinase-dependent pathways in some of their target cells, as well as expression of early response genes and increased mitogenic activity. In many neuroendocrine cells, ET induces rapid and marked desensitization of its signaling system, in association with extensive internalization of ET receptors and reduced signaling and secretory responses. These findings raise the possibility that ETs participate in the control of secretory responses in the hypothalamo-pituitary system and peripheral endocrine cells, as well as in long-term aspects of regulation in certain neuroendocrine cells.
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PMID:Expression and signal transduction pathways of endothelin receptors in neuroendocrine cells. 881 99

Angiotensin II is a multifunctional hormone that affects both contraction and growth of vascular smooth muscle cells through a complex series of intracellular signaling events initiated by the interaction of angiotensin II with the AT1 receptor. The cellular response to angiotensin II is multiphasic, involving stimulation within seconds of phospholipase C and Ca2+ mobilization; activation within minutes of phospholipase D, A2, protein kinase C, and MAP kinase; and stimulation after a period of hours of gene transcription and NADH/NADPH oxidase activity. Angiotensin II also activates numerous intracellular tyrosine kinases. In this respect, it shares some aspects of signaling with growth factor and cytokine receptors, including activation of phospholipase C-gamma, src, and ras; association of shc with grb2; and stimulation of the Jak/STAT pathway. The cellular events responsible for this unique series of events may involve receptor movement and the creation of a signaling domain. Elucidation of these pathways is important to our understanding of AT1 receptor function as a final effector of the renin-angiotensin system.
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PMID:Angiotensin II signaling in vascular smooth muscle. New concepts. 903 29

1. Angiotensin II (Ang II), the main effector of the renin-angiotensin system, exerts its vasoconstrictory and trophic actions on smooth muscle cells via AT1 receptors. However, Ang II does not act only on smooth muscle cells, as Ang II receptors are also present in endothelial cells. 2. The receptor type on these cells differs depending on the origin of the endothelium and the species. The rat endothelial receptors are mostly of the AT1 type, but AT2 receptors have also been found. The pharmacological characteristics of the AT1 receptors on endothelial cells are similar to those of other cell types. 3. Ang II stimulates phospholipase C and phospholipase A2 activation via the AT1 receptor in endothelial cells. Ang II also stimulates the tyrosine phosphorylation of several proteins in these cells. 4. Some studies suggest that the AT1 receptor mediates the release of vasodilator molecules by endothelial cells and could modulate Ang II effect on smooth muscle cells. Ang II may also inhibit endothelial cell growth via the AT2 receptor. Finally, endothelial Ang II receptors may be implicated in the regulation of fibrinolysis.
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PMID:Angiotensin II receptors in endothelial cells. 934 11

Stretch of neonatal cardiomyocytes activates phospholipase C with production of inositol trisphosphate and diacylglycerol in part by formation of angiotensin II (Ang II). However, the response of this pathway to physical stimuli in the adult heart is poorly understood. Thus, in isovolumic perfused guinea pig hearts, we characterized stretch-mediated phosphatidylinositol (PI) hydrolysis and protein kinase C (PKC) isoform translocation using elevated diastolic pressure. Balloon dilatation (minimum diastolic pressure, 25 mm Hg) of the left ventricle (LV) stimulated PI hydrolysis. Pretreatment of stretched hearts with the specific angiotensin (AT1) receptor antagonist losartan abolished stretch-mediated accumulation of inositol phosphates. To examine PKC isoform expression and activation under these conditions, whole-heart extracts were examined by immunoblot analysis. Ang II translocated PKC epsilon to the particulate fraction. 4 beta-Phorbol 12-myristate 13-acetate but not an inactive congener translocated PKC epsilon to the particulate fraction and produced a decrease in myocardial contractile function. Mechanical stretch also translocated PKC epsilon to the particulate fraction; however, this was attenuated but not abolished by losartan. We conclude that in the adult heart, LV dilation produced stretch-mediated activation of phospholipase C, which resulted in PI hydrolysis and PKC epsilon activation in part by stimulation of the local renin angiotensin system. In contrast to stretch-mediated inositol phosphate accumulation, PKC epsilon translocation is not prevented by AT1 receptor blockade, indicating that this PKC isoform can be activated in response to mechanical deformation by an Ang II-independent mechanism in the adult myocardium.
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PMID:Left ventricular stretch stimulates angiotensin II--mediated phosphatidylinositol hydrolysis and protein kinase C epsilon isoform translocation in adult guinea pig hearts. 935 35

The alpha1-adrenoceptor-G protein-phosphoinositide-specific phospholipase C (PLC) signal transduction pathway is assumed to play an important role in the regulation of contractile force and in the pathophysiology of myocardial hypertrophy. In the present study, the components of this pathway were investigated in left ventricles of hearts from hypertensive transgenic rats overexpressing the mouse renin gene [TG(mREN2)27] in comparison to age- and weight-matched Sprague-Dawley control rats. Contractile force was assessed in isolated electrically driven left ventricular papillary muscle strips. Alpha1-adrenoceptor density was measured by radioligand binding using [3H]prazosin, steady state levels of alpha q/11, and G protein beta-subunits by Western blotting. PLC activity was determined by a cell-free assay using exogenous phospholipid vesicles containing [3H]phosphatidylinositol (4,5)-bisphosphate as a substrate. Alpha1-adrenoceptor density was significantly increased (by 80%) in transgenic rats compared with control rats, while the positive inotropic response to the alpha1-adrenoceptor agonist phenylephrine was significantly reduced, suggesting a postreceptor defect in TG(mREN2)27. The expression of alpha q and alpha11 was verified by reverse transcription-polymerase chain reaction, and alpha q/11 steady state protein levels were shown to be similar in transgenic and control rats. Western blotting using a beta-common antibody revealed two bands at approximately 35 and 36 kD. The quantities of both were similar in TG(mREN2)27 compared with those in control rats. In contrast, PLC activity was significantly reduced (by 32%) in transgenic rats. In conclusion, our findings are consistent with a desensitization of the alpha1-adrenergic signal transduction pathway at the level of the effector.
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PMID:Alpha-adrenergic signal transduction in renin transgenic rats. 940 53


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