EC:3.1.4.3 - FACTA Search

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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)

Renin-angiotensin (RA) system plays an important role in cardiovascular homeostasis. Here, we have described the recent progress in our study of renin release as well as the cellular action of angiotensin II. (1) Microdissection of an isolated afferent artery with or without macula densa (MD) has revealed that renin release is regulated by NaCl exposure to MD. Furosemide, prostaglandins (PGE2 and PGI2) and adenosine modulate its function. (2) Angiotensin (ang) II increases cytosolic free calcium and induces the formation of inositolphosphates in vascular smooth muscle cells. Deduced protein structure of ang II receptor (AT1-R) cDNA has indicated the presumed link of AT1-R with phospholipase C. Through the cellular action, ang II has been reported to regulate gene expression.
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PMID:[Mechanism of renin release and cellular action of angiotensin II]. 129 35

Angiotensin II (AII) is an important regulator of aldosterone secretion by adrenal glomerulosa cells. All interacts with a specific receptor coupled to a guanine nucleotide-binding protein that controls the activity of phospholipase C. Recently, novel All nonpeptide antagonists (DuP-753 and PD-123319) have been shown to discriminate between two subclasses of All receptors in many different tissues. Our studies confirmed that 125I-All specifically labeled two classes of binding sites for All in a membrane preparation of bovine adrenal glomerulosa cells. The first class (DuP-753 sensitive) represented approximately 85% of the total binding sites for All and possessed a high affinity (IC50 of 92.9 +/- 19.5 nM) for DuP-753. PD-123319 did not have any effect on 125I-All binding to this site. The second class of binding sites was more sensitive to PD-123319, with an IC50 of 6.9 +/- 3.7 nM, and had a much lower affinity for DuP-753 (IC50 around 10 microM). The two classes of receptors had different affinities for All. All showed an affinity around 2 nM for All type 1 receptor (AT1)(DuP-753 sensitive) and a higher affinity, around 0.3 nM, for All type 2 receptor (AT2) (PD-123319 sensitive). All-induced steroidogenesis was completely abolished in the presence of 3 microM DuP-753, indicating that this activity was mediated through a DuP-753-sensitive receptor. We also found that polyvinyl sulfate (PVS), a polyanion, could partly inhibit the binding of 125I-All to bovine adrenal glomerulosa cell membranes, with half-maximal efficiency at 17.3 +/- 8.2 nM. The inhibitory effect of PVS was selective for AT1. The inhibitory effect of PVS was due to a change in the affinity state of the receptor. Unexpectedly, PVS had no effect on All-induced steroidogenesis or on All binding to intact bovine adrenal glomerulosa cells. However, the inhibitory effect of PVS on All binding was recovered after permeabilization of cells. Direct interaction of polyanions with AT1 was suggested by the capacity of solubilized photoaffinity-labeled 125I-AT1 to adsorb to heparin-agarose gels. The adsorption of 125I-AT1 to heparin-agarose was inhibited by prior incubation of solubilized receptor with heparin or PVS. These results suggest that All-induced steroidogenesis is mediated by a DuP-753-sensitive receptor and that PVS decreases the affinity of this receptor by interacting with an intracellular domain (possibly the positively charged domain responsible for coupling with guanine nucleotide-binding proteins).
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PMID:Modulation of angiotensin II binding affinity by allosteric interaction of polyvinyl sulfate with an intracellular domain of the DuP-753-sensitive angiotensin II receptor of bovine adrenal glomerulosa. 156 28

The ability of angiotensin peptides to stimulate prostaglandin release and raise intracellular calcium levels by activating a phosphoinositide-specific phospholipase C was assessed in three human astrocytoma cell lines (CRTG3, STTG1, and WITG2). The addition of angiotensin II to CRTG3 cells resulted in a dose-dependent release of prostaglandin E2 and prostacyclin, the production of inositol 1,4,5-trisphosphate, and the mobilization of intracellular calcium. Angiotensin-(1-7), previously considered to be an inactive metabolite of angiotensin II, was as potent as angiotensin II for prostaglandin release but did not activate phospholipase C or mobilize intracellular calcium. In contrast, angiotensin-(2-8) caused only a slight increase in prostaglandin release, even though it was as effective as angiotensin II in augmenting inositol 1,4,5-trisphosphate production and calcium mobilization. Moreover, neither the release of prostaglandins in response to angiotensin II or angiotensin-(1-7) nor the mobilization of intracellular calcium in response to angiotensin II required extracellular calcium. Angiotensin II and angiotensin-(1-7) caused the release of prostaglandins from all three human astrocytoma cell lines, but changes in the level of intracellular calcium in response to angiotensin II only occurred in CRTG3 cells. Although previous studies have provided evidence for angiotensin receptor subtypes on the basis of selectivity of antagonists or signal transduction mechanisms, these data suggest that human astrocytes contain multiple angiotensin receptor subtypes on the basis of their response to different angiotensin heptapeptides--angiotensin-(1-7) and angiotensin-(2-8).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Human astrocytes contain two distinct angiotensin receptor subtypes. 186 Jul 9

Angiotensin II acts on adrenal glomerulosa cells to induce the phospholipase C-mediated generation of inositol trisphosphate and sn-1,2-diacylglycerol as the major products of inositol phospholipid breakdown. This last product is known to activate protein kinase C, but its role in the action of angiotensin II on steroidogenesis has not been defined. We report herein that, in bovine adrenal glomerulosa cells, protein kinase C activators, such as phorbol 12,13-dibutyrate, 12-O-tetradecanoylphorbol-13-acetate, mezerein and sn 1,2 oleoyl acetoylglycerol, each failed to increase steroidogenesis. These results contrast with our recent report on the enhancement of aldosterone output by sn-1,2-dioctanoylglycerol (DiC8) [J. Steroid Biochem. 35 (1990) 19-33]. In addition, the difference between DiC8 and the other protein kinase activators was also observed in the pattern of 86Rb efflux from preloaded glomerulosa cells; only DiC8 mimicked the effect of angiotensin II on ion fluxes. Furthermore, staurosporine, a potent inhibitor of protein kinase C, was capable of amplifying the aldosterone output induced by a maximally effective concentration of DiC8 or angiotensin II. These data suggest that the effect of the cell permeant DiC8 on aldosterone biosynthesis either is not mediated by protein kinase C activation, or is mediated by a phorbol ester-insensitive isoenzyme of protein kinase C.
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PMID:Contrasting effects of sn-1,2-dioctanoyl glycerol as compared to other protein kinase C activators in adrenal glomerulosa cells. 191 21

In chronic models of hypertension such as the spontaneously hypertensive rat (SHR), thickening of the media of large arteries occurs mainly through smooth muscle cell (SMC) hypertrophy accompanied by DNA replication resulting in large polyploid cells. In resistance vessels of SHR, medial hypertrophy occurs through a hyperplastic response. It has been suggested that this hyperplasia is due to mitogens such as platelet-derived growth factor (PDGF), while the hypertrophied polyploid cells occur from stimulation by angiotensin II from within the vessel wall. Angiotensin II activates many of the same cellular pathways as PDGF, including stimulation of phospholipase C, mobilization of intracellular calcium and activation of Na+/H+ exchange. Both induce transient increases in the proto-oncogenes c-fos and c-myc. However, a possible explanation for the difference in SMC response may be involvement of an intracellular pathway stimulated by PDGF (but not by angiotensin II), such as stimulation of JE (a cytokine-like molecule), which may activate transcriptional events necessary for mitogenesis. In atherosclerosis vascular hypertrophy occurs in the form of focal intimal thickening and results from hyperplasia of diploid SMC and their greatly increased production of extracellular matrix, (particularly collagen) and the accumulation of intra- and extracellular lipid. The SMC involved in atherogenesis are phenotypically modified compared with the SMC of undiseased regions, and amongst other features have a lower volume fraction of myofilaments (Vvmyo). Associated with modulation to a low Vvmyo are increases in SMC expression of mRNA for collagens type I (alpha 1 and alpha 2) and type III (alpha 1), elastin, fibronectin, as well as massive increases in collagen protein (26- to 45-fold), glycosaminoglycans (5-fold), and lipid accumulation (7-fold).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Molecular biology of vascular hypertrophy. 203 94

Angiotensin II (AII) is a major regulator of aldosterone synthesis and secretion by the adrenal zona glomerulosa. Although it has been suggested by many authors that AII acts by increasing the turnover of inositol-lipids, these studies were mainly focussed on the identity and on the kinetics of appearance of inositol phosphates. The purpose of the present study was to establish a relationship between phospholipase C activation and steroidogenesis in the adrenal cortex. A primary culture of bovine adrenal glomerulosa cells was used. Dose-response curves for receptor occupation, inositol phosphate production and aldosterone secretion were made under the same experimental conditions, on the third day of culture. 125I-[Sar1, Val5, D-Phe8]AII binding to glomerulosa cells was progressively inhibited by increasing concentrations of AII up to 30 nM. Scatchard analyses showed a Kd of 1.9 +/- 1.1 nM and a maximal binding capacity of 49,000 +/- 4,500 receptors/cell (six experiments). Dose-response curves for AII-induced inositol 1,4,5-trisphosphate production showed an EC50 of 0.5 +/- 0.1 nM (five experiments). The threshold dose for AII-induced inositol phosphates was around 0.1 nM and the maximal effect was obtained with 30 nM AII. The AII-stimulated steroidogenesis occurred at a threshold dose around 0.03 nM and the maximal effect was obtained with 10 nM AII with an EC50 of 0.5 +/- 0.1 nM (five experiments). These results support previous suggestions that phospholipase C is involved in the steroidogenic action of angiotensin II.
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PMID:Implication of phospholipase C in the steroidogenic action of angiotensin II. 217 98

The effect of angiotensin II on the cytosolic free Ca2+ concentration was measured in single mouse neuroblastoma N1E-115 cells loaded with fura-2. Angiotensin II induced a transient concentration-dependent increase in Ca2+ and also increased the production of inositol polyphosphates. The Ca2+ increase did not require extracellular Ca2+ and was unaffected by pretreatment with pertussis toxin. These data suggest that angiotensin II increased Ca2+ by an inositol trisphosphate-mediated release of intracellular Ca2+ following activation of phospholipase C via a pertussis toxin-insensitive guanine nucleotide binding protein. Similar results were obtained with bradykinin. The angiotensin II- or bradykinin-induced increase in Ca2+ occurred after a concentration-dependent latent period. Low concentrations of agonist elicited a small increase in Ca2+ following a variable lag that sometimes exceeded 1 min, whereas at maximally effective angiotensin II concentrations a larger, more rapid increase in Ca2+ occurred without a measurable delay. In some cells, oscillatory increases in Ca2+ were induced by angiotensin II and bradykinin. Possible mechanisms to explain the concentration dependency of the latent period and the oscillatory nature of the increases of Ca2+ are discussed. These results indicate that the mouse neuroblastoma N1E-115 cell represents a useful model for studying the signal response transduction mechanisms regulating the effects of angiotensin II in neuronal cells.
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PMID:Angiotensin II effects on the cytosolic free Ca2+ concentration in N1E-115 neuroblastoma cells: kinetic properties of the Ca2+ transient measured in single fura-2-loaded cells. 229 17

The present study was designed to study the functional properties of Angiotensin II (Ang II) binding sites in vascular smooth muscle cells in the Milan hypertensive rat (MHS), a model of low renin hypertension. Smooth muscle cells from MHS rats exhibited increased growth in culture in comparison with the Milan normotensive strain (MNS) as determined by population doubling times (24.5 +/- 2 and 34.8 +/- 2 hours, n = 4, respectively). Hormone receptor number, evaluated by binding assays using [125I]Ang II, showed no difference in either receptor number or affinity for both cell types. The functional responsiveness of Ang II receptors was evaluated by measuring the activation of phospholipase C, Na(+)-H+ exchange, and cytosolic Ca2+ levels. Phospholipase C activity was determined as tritium-labeled inositol trisphosphate and bisphosphate release before and after 15-second exposure to 10(-7) M Ang II. Ang II-stimulated phospholipase C activity in MNS (p less than 0.02) but not in MHS cells. Na(+)-H+ exchange was measured as the dimethylamiloride-sensitive 22Na+ influx into acid-loaded vascular smooth muscle cells with and without 10(-7) M Ang II. In MNS cells, Ang II significantly stimulated (p less than 0.001) antiporter activity but not in MHS cells, which showed a uniformly blunted response. MHS cells exhibited higher basal cytosolic Ca2+ levels than MNS cells, but Ca2+ rapidly increased in the presence of Ang II in MNS but not in MHS cells. Direct activation of phospholipase C by GTP-gamma-S in permeabilized cells indicated that both strains exhibited similar coupling levels by guanine-nucleotide binding proteins.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Vascular smooth muscle cells from the Milan hypertensive rat exhibit decreased functional angiotensin II receptors. 234 21

Proliferation in rat liver T51B cells has previously been shown to be initiated by the tyrosine-kinase activator epidermal growth factor. We have found that T51B cells also contain angiotensin II receptors, and, as the transforming mas oncogene has been identified as a functional angiotensin receptor [Jackson, Blair, Marshall, Goedert & Hanley (1988) Nature (London) 335, 437-440], we have investigated the possibility that angiotensin II might also regulate proliferation of T51B cells. Angiotensin II at concentrations up to 10 microM did not promote DNA synthesis, even in the presence of the co-mitogens serum (1%) or 12-O-tetradecanoylphorbol 13-acetate (TPA) (50 ng/ml). The addition of 1 microM angiotensin II to myo-[3H]inositol-radiolabelled T51B cells did however result in a rapid accumulation of multiple inositol phosphates as well as in an increase in intracellular Ca2+, demonstrating the coupling of the angiotensin receptor in these cells to a polyphosphoinositide-hydrolysing phospholipase C. The increases in both inositol phosphates and intracellular Ca2+ were lower in cells pretreated for 10 min with 50 ng of TPA/ml and potentiated by a 24 h pretreatment with TPA. In addition, angiotensin II increased 1,2-diacylglycerol levels. These results demonstrate that, although angiotensin II is capable of increasing phosphoinositide-derived second messengers in T51B cells, these responses are not sufficient to trigger DNA synthesis.
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PMID:Angiotensin II causes phosphatidylinositol turnover and increases 1,2-diacylglycerol mass but is not mitogenic in rat liver T51B cells. 238 81

Angiotensin II (Ang II) stimulation of vascular smooth muscle results in a myriad of intracellular signals that interact to produce the final physiologic response of the cell. One of the earliest documented events following incubation of these cells with Ang II is the rapid, phospholipase C-mediated hydrolysis of phosphatidylinositol-4,5-bisphosphate to yield two second messengers, inositol trisphosphate and diacylglycerol. Inositol trisphosphate releases calcium from nonmitochondrial intracellular storage sites, while diacylglycerol activates protein kinase C. Ang II also stimulates calcium influx and increases calcium efflux for the duration of the stimulus, as well as causing a biphasic change in intracellular pH. The delayed alkalinization is a consequence of enhanced Na+/H+ exchange. These signals then interact to modify the targets of phospholipase C, and result in phosphorylation of numerous cytoplasmic and cytoskeletal proteins. Thus, the signaling events induced by Ang II are complex, and dynamically interact to produce a constantly changing response for the duration of the stimulus.
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PMID:Angiotensin II stimulation of vascular smooth muscle. 247 21

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