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

Angiotensin II (AII) activates rat myometrium phospholipase C resulting in the hydrolysis of phosphoinositides. The response to AII is concentration- and time-dependent, and it is blocked by saralasin. During pregnancy there is a loss of responsiveness to AII at the site of placental implantation that appears to return during parturition.
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PMID:Angiotensin II stimulates phosphoinositide turnover in the rat myometrium. 254 55

Angiotensin II (ANG II) and vasopressin (AVP) are two powerful vasoconstrictors, and atrial natriuretic peptide (ANP) is a potent vasorelaxant. The changes in the density or affinity of binding sites for these agents that may alter target organ responsiveness in hypertension are reviewed. ANG II binding in mesenteric arteries was unaltered in one-kidney, one-clip (1-K, 1-C) and in 2-K, 1-C hypertensive rats, while in deoxycorticosterone acetate (DOCA)-salt hypertensive rats ANG II binding to blood vessels was significantly increased. A role of mineralocorticoids to increase the number of vascular ANG II sites in some hypertensive models is suggested. In spontaneously hypertensive rats (SHR) ANG II receptors were increased in young rats in the prehypertensive stage with respect to Wistar-Kyoto (WKY) control rats, but normal in older rats. AVP binding in the vasculature of hypertensive rats was uniformly decreased in inverse correlation to plasma AVP levels, but vascular responsiveness to AVP was exaggerated. Inositol trisphosphate production by blood vessels of SHR in response to AVP showed that increased AVP receptor-coupled phospholipase C activity may mediate in part the exaggerated pressor response in spite of reduced or normal density of receptors for vasoconstrictor peptides. Vascular ANP sites in 2-K, 1-C, 1-K,1-C, and DOCA-salt hypertensive rats varied inversely with plasma concentrations of ANP. Normal densities of ANP receptors in saralasin-sensitive 2-K, 1-C hypertensive rats correlated with ANP sensitivity, while saralasin-insensitive 2-K, 1-C hypertensive rats, which did not respond to ANP, had significantly decreased density of ANP vascular receptors.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Vascular receptors for angiotensin, vasopressin, and atrial natriuretic peptide in experimental hypertension. 255 50

Angiotensin II stimulates sequential phospholipase C-mediated hydrolysis of initially the polyphosphoinositides and subsequently phosphatidylinositol (PI) in cultured rat aortic smooth muscle cells resulting in biphasic, sustained formation of diacylglycerol (DG). The mechanisms underlying this delayed induction of sustained DG accumulation are unknown but may be related to cellular events including processing of the angiotensin II receptor-ligand complex. In the present study, we characterized the kinetics of angiotensin II receptor sequestration and studied the effects of interventions which interfere with receptor processing on the pattern of angiotensin II-induced DG formation and phosphoinositide hydrolysis. Conversion of the angiotensin II receptor to an acid-resistant form was temperature-dependent, with half-times of 1.5 min at 37 degrees C and 7 min at 19 degrees C. Reducing the temperature to 25 or 19 degrees C caused a marked temporal separation between the two phases of DG accumulation. There was a close temporal correlation between the effect of temperature on receptor sequestration and on sustained DG accumulation. Furthermore, phenylarsine oxide (5 min, 10 microM), which inhibited angiotensin II receptor internalization, also selectively inhibited the sustained phase of DG accumulation (81 +/- 6% inhibition). Monensin and chloroquine, which interfere with receptor processing through the lysosomal-degradative pathway, had no effect on angiotensin II-induced DG formation in these cells, suggesting that the processing event important to hormonally induced sustained DG accumulation occurs early in the internalization pathway, probably at the level of the plasma membrane. Moreover, the acid-resistant state of the angiotensin II receptor-ligand complex retained its ability to signal, since removal of the surface signal by competitive antagonism with Sar1-Ile8-angiotensin II or acid-wash only slowly reversed accumulation of DG and depression of total cell calcium. These experiments support our previous observation that the initial and sustained phases of angiotensin II-induced diacylglycerol formation in vascular smooth muscle are differentially controlled and suggest that an early event in the cellular processing of the angiotensin II-receptor complex is essential to maintenance of DG accumulation.
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PMID:Correlation of receptor sequestration with sustained diacylglycerol accumulation in angiotensin II-stimulated cultured vascular smooth muscle cells. 282 94

Angiotensin II (AII) in adrenal glomerulosa cells activates phospholipase C resulting in the formation of inositol phosphates and diacylglycerol rich in arachidonic acid (AA). Although glomerulosa cells can metabolize AA via cyclooxygenase (CO), this pathway plays little role in aldosterone synthesis. Recent evidence suggests that the lipoxygenase (LO) pathway may be important for hormonal secretion in endocrine tissues such as the islet of Langerhans. However, the capacity of the glomerulosa cell to synthesize LO products and their role in aldosterone secretion is not known. To study this, the effect of nonselective and selective LO inhibitors on AII, ACTH, and potassium-induced aldosterone secretion and LO product formation was evaluated in isolated rat glomerulosa cells. BW755c, a nonselective LO inhibitor dose dependently reduced the AII-stimulated level of aldosterone without altering AII binding (91 +/- 6 to 36 +/- 4 ng/10(6) cells/h 10(-4) M, P less than 0.001). The same effect was observed with another nonselective LO blocker, phenidone, and a more selective 12-LO inhibitor, Baicalein. In contrast U-60257, a selective 5-LO inhibitor did not change the AII-stimulated levels of aldosterone (208 +/- 11% control, AII 10(-9) M vs. 222 +/- 38%, AII + U-60257). The LO blockers action was specific for AII since neither BW755c nor phenidone altered ACTH or K+-induced aldosterone secretion. AII stimulated the formation of the 12-LO product 12-hydroxyeicosatetraenoic acid (12-HETE) as measured by ultraviolet detection and HPLC in AA loaded cells and by a specific RIA in unlabeled cells (501 +/- 50 to 990 +/- 10 pg/10(5) cells, P less than 0.02). BW755c prevented the AII-mediated rise in 12-HETE formation. In contrast, neither ACTH nor K+ increased 12-HETE levels. The addition of 12-HETE or its unstable precursor 12-HPETE (10(-9) or 10(-8) M) completely restored AII action during LO blockade. AII also produced an increase in 15-HETE formation, but the 15-LO products had no effect on aldosterone secretion. These studies suggest that the 12-LO pathway plays a key role as a new specific mediator of AII-induced aldosterone secretion.
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PMID:Specific action of the lipoxygenase pathway in mediating angiotensin II-induced aldosterone synthesis in isolated adrenal glomerulosa cells. 282 67

Protein kinase C activity towards exogenous histone was found in a cytosolic fraction of rat renal mesangial cells. The analysis of the 100,000 x g supernatant fraction with DEAE-cellulose ion-exchange chromatography gave a protein kinase C preparation that was dependent on Ca2+ and phosphatidylserine for its activity. The addition of diolein decreased the Ca2+ requirement of the enzyme. 1-(5-Isoquinoline-sulfonyl)-2-methylpiperazine (H-7), sphingosine and cytotoxin I potently inhibited the protein kinase C activity prepared from mesangial cells as well as the 12-O-tetradecanoylphorbol 13-acetate (TPA)-induced prostaglandin synthesis in intact mesangial cells. In the second part of the study, the desensitization of angiotensin II-stimulated phospholipase C activity was investigated. Angiotensin II induced a rapid increase in inositol trisphosphate (IP3) formation. Pretreatment of cells with angiotensin II, followed by removal of the hormone, resulted in a decreased response to a second application of angiotensin II. A similar protocol involving pretreatment with angiotensin II had no effect on subsequent responsiveness to [Arg8]vasopressin. The specific antagonist [Sar1, Ala8]angiotensin II did not stimulate IP3 formation neither did it inhibit the response to a subsequent stimulation with angiotensin II. After angiotensin II pretreatment, a prolonged incubation (120 min) restored responsiveness of the cells to angiotensin II. Pretreatment of mesangial cells with H-7, sphingosine or cytotoxin I almost completely diminished the desensitization of angiotensin II-stimulated IP3 generation. These results indicate that, in rat mesangial cells, angiotensin II induces a homologous desensitization of phospholipase C stimulation. It is proposed that protein kinase C activation plays an important role in the molecular mechanism of desensitization of angiotensin II-stimulated polyphosphoinositide metabolism.
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PMID:Protein kinase C from rat renal mesangial cells: its role in homologous desensitization of angiotensin II-induced polyphosphoinositide hydrolysis. 283 88

Angiotensin II acts on cultured rat aortic vascular smooth muscle cells (VSMC) to induce the rapid, phospholipase C-mediated generation of inositol trisphosphate from phosphatidylinositol 4,5-bisphosphate and mobilization of intracellular Ca2+. sn-1,2-Diacylglycerol, the other major product of inositol phospholipid breakdown, is known to activate protein kinase C, but its role in angiotensin II action on VSMC has not been defined. We report herein that, in cultured VSMC prelabeled with [3H]myoinositol, brief incubations (2-5 min) with 4 beta-phorbol 12-myristate 13-acetate (PMA) (1-100 nM) or 1-oleoyl-2-acetylglycerol (10-100 microM), two potent activators of protein kinase C, inhibit subsequent angiotensin II (100 nM)-induced increases in phosphatidylinositol 4,5-bisphosphate breakdown and inositol trisphosphate formation. In addition, pretreatment of VSMC with either PMA (IC50 approximately 1 nM) or 1-oleoyl-2-acetylglycerol (IC50 approximately 7.5 microM) also markedly inhibits angiotensin II (1 nM)-stimulated increases in cytosolic free Ca2+, as measured with the calcium-sensitive fluorescent indicator quin 2, or 45Ca2+ efflux. Neither PMA nor 1-oleoyl-2-acetylglycerol initiated phosphatidylinositol 4,5-bisphosphate breakdown or Ca2+ flux by itself. PMA treatment (10 nM, 5 min) did not influence the number or affinity of 125I-angiotensin II-binding sites in intact cells. These data suggest that one function of angiotensin II-generated sn-1,2-diacylglycerol in vascular smooth muscle may be to modulate, by protein kinase C-mediated mechanisms, angiotensin II receptor coupling to phospholipase C.
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PMID:Phorbol ester and 1-oleoyl-2-acetylglycerol inhibit angiotensin activation of phospholipase C in cultured vascular smooth muscle cells. 299 97

We investigated the effects of angiotensin peptides on the breakdown of specific membrane phospholipids, the inositol lipids, in anterior pituitary cells in culture, measuring the water-soluble products (inositol phosphates) produced during the cleavage of phosphoinositides by phospholipase C. Both angiotensin II and angiotensin I in the presence of 10 mM LiCl potently increased, in a concentration-dependent manner, total [3H]inositol phosphate and PRL release in cultured rat anterior pituitary cells. The release of LH, TSH, or GH was not significantly enhanced by the peptides. The effect on inositol phosphate accumulation was significant at 0.01 nM, and maximal stimulation (approximately 5-fold increase) occurred at 10 nM, with an ED50 of about 0.3 nM. The stimulatory effects of both angiotensin II and angiotensin I were antagonized by the receptor antagonists saralasin and Sar1,Ile8-angiotensin II. Moreover, 1 microM captopril, an inhibitor of angiotensin-converting enzyme, antagonized the effects of 0.1 and 1 nM angiotensin I, suggesting that the effect of angiotensin I on phosphoinositide breakdown and PRL release is dependent on prior conversion of angiotensin I to angiotensin II. The effect of angiotensin II was very rapid. Fractionation of the water-soluble inositol phosphates showed that angiotensin II significantly increased inositol bisphosphate and inositol triphosphate at 10 sec, whereas inositol monophosphate was increased only after 40 sec. These data indicate that in the pituitary, and presumably in the lactotroph, the binding of angiotensin II to specific membrane receptors provokes increased polyphosphoinositide hydrolysis, leading to increased production of intracellular messengers, i.e. inositol triphosphate and 1,2-diacylglycerol, responsible for the stimulation of PRL release.
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PMID:Angiotensin peptides stimulate phosphoinositide breakdown and prolactin release in anterior pituitary cells in culture. 300 Jul 36

Results on the effects of peptides on the phospholipid metabolism and steroid and cyclic AMP (cAMP) outputs of rat adrenal capsular cells (96% zona glomerulosa, 4% zona fasciculata) were obtained in a series of three batch experiments. Their significance was examined by analysis of variance. Incorporation of [32P] into phosphatidylcholine, phosphatidic acid and phosphatidylinositol was measured. Production of [3H]inositol-1 monophosphate, inositol-1,4 bisphosphate and inositol-1,4,5 tris-phosphate was estimated after prelabelling with [3H]inositol followed by 1 min incubation with a steroidogenic stimulus. Angiotensin II (0.25 nmol/l to 0.25 mumol/l) highly significantly (P less than 0.01) stimulated aldosterone and corticosterone outputs, [32P] incorporation into phosphatidic acid and phosphatidylinositol (but not into phosphatidylcholine) and the production of the three [3H]inositol phosphates. Aldosterone and corticosterone outputs were stimulated by alpha-MSH (above 0.1 nmol/l). However, incorporation of [32P] was not significantly increased until 10 mumol alpha-MSH/l but, unlike with angiotensin II, incorporation into phosphatidylcholine was also then stimulated. Also, the production of the inositol phosphates was not increased significantly (P greater than 0.05) by any dose of alpha-MSH (10 nmol/l, 1 mumol/l and 0.1 mmol/l) used. Therefore, it can be concluded that alpha-MSH does not stimulate phospholipase C in rat zona glomerulosa cells. In further experiments, it was also found that there were significant increases in cAMP as well as in steroid outputs above 1 nmol alpha MSH/l (highly significant above 10 nmol alpha-MSH/l). There were plateaux of the outputs of both steroids and cAMP from 0.1 to 1 mumol alpha-MSH/l. However, there were further increases in steroid and cAMP outputs of the capsular cells at higher doses. Concomitant results on the stimulation of corticosterone output by zona fasciculata-reticularis cells indicate that this additional increase was mostly due to the stimulation of the contaminating zona fasciculata cells. It was also confirmed that alpha-MSH preferentially stimulates steroidogenesis by the zona glomerulosa. However, under our conditions, alpha-MSH highly significantly increased the output of cAMP by both zona fasciculata and glomerulosa cells.
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PMID:Effects of alpha-melanocyte-stimulating hormone on the cyclic AMP and phospholipid metabolism of rat adrenocortical cells. 302 Jan 42

Angiotensin II, a potent vasoconstrictor, is known to stimulate Ca2+ mobilization and Na+ influx in vascular smooth muscle cells (VSMC). The fact that the Na+/H+ exchange inhibitor, amiloride, blocks angiotensin II-stimulated Na+ influx and is itself a vasodilator suggests that Na+/H+ exchange may play a role in the angiotensin II-mediated effects on VSMC. We have used a pH-sensitive fluorescent dye to study Na+/H+ exchange in cultured rat aortic VSMC. Basal intracellular pH was 7.08 in physiological saline buffer. Angiotensin II stimulation caused an initial transient acidification, followed by a Na+-dependent alkalinization. Angiotensin II increased the rate of alkalinization with apparent threshold, half-maximal, and maximal effect of 0.01, 3, and 100 nM, respectively. Angiotensin II stimulation appeared to be mediated by a shift in the Km of the Na+/H+ exchanger for extracellular Na+. Since angiotensin II activates phospholipase C in VSMC, we tested the possibility that angiotensin II increased Na+/H+ exchange by activation of protein kinase C via stimulation of diacylglycerol formation. The phorbol ester, 12-O-tetradecanoylphorbol-13-acetate (TPA), stimulated Na+/H+ exchange in VSMC cultured for 24 h in serum-free medium, and the subsequent angiotensin II response was inhibited. However, VSMC grown in serum and treated for 24 h with TPA to decrease protein kinase C activity showed no inhibition of angiotensin II-stimulated Na+/H+ exchange. TPA caused no intracellular alkalinization of VSMC grown in serum, while the angiotensin II response was actually enhanced compared to VSMC deprived of serum for 24 h. We conclude that angiotensin II stimulates an amiloride-sensitive Na+/H+ exchange system in cultured VSMC which is mediated by protein kinase C-dependent and -independent mechanisms. Angiotensin II-mediated Na+ influx and intracellular alkalinization may play a role in excitation-response coupling in vascular smooth muscle.
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PMID:Angiotensin II-stimulated Na+/H+ exchange in cultured vascular smooth muscle cells. Evidence for protein kinase C-dependent and -independent pathways. 303 Oct 37

1. Activation of vascular smooth muscle by angiotensin II results in the generation of two second messengers, inositol trisphosphate (IP3) and diacylglycerol (DG). 2. IP3 is responsible for mobilizing calcium from endoplasmic reticulum. This signal is transient, most likely serving to initiate calcium events leading to contraction, and is attenuated by activation of protein kinase C. 3. DG stimulates protein kinase C and ultimately Na+/H+ exchange, leading to intracellular alkalinization. Accumulation of DG/activation of protein kinase C is sustained, and may be enhanced by concurrent intracellular alkalinization. The delay in induction of the sustained response appears to be related to cellular processing of the angiotensin II-receptor complex. 4. Angiotensin II-stimulated, phospholipase C-mediated IP3 formation is also modulated by a pertussis toxin-insensitive guanine nucleotide regulatory protein. 5. The GTP binding protein, movement of the receptor-ligand complex, and the signals generated by the two second messengers, IP3 and DG, interact in a complex manner to cause an integrated response of vascular smooth muscle cells to angiotensin II stimulation.
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PMID:Secondary signalling mechanisms in angiotensin II-stimulated vascular smooth muscle cells. 307 71


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