Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0043167 (pertussis)
19,595 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The unmasking of the low concentration effect of angiotensin II (AII) was identified within the concentration ranges of 10(-13) to 10(-11) M of AII by PD 121981 (5-diphenylacetyl-1-(4-methoxy-3-methylbenzyl)- 4,5,6,7-tetrahydro-1H-imidazo[4,5-c]-pyridine-6-carboxylic acid) and 10(-12) to 3 x 10(-10) M of AII by CGP 42112 (nicotinic acid-Tyr-(N alpha-benzyl-oxycarbonyl-Arg)Lys-His-Pro-IIe-OH), AT2 antagonists, in association with the ordinary contraction curve, i.e., high concentration effect (at 3 x 10(-10)-10(-6) M of AII), in the rabbit abdominal aorta. Thus, they showed clear biphasic features of AII-induced contraction curves. However, this was not the case for angiotensin I and angiotensin III. This PD 121981-evoked low concentration effect of AII was selectively inhibited by DuP 753 (0.01-1 nM), dithiothreitol (10 and 100 microM), pertussis toxin (50 and 300 ng/ml, for 2 hr), nifedipine (1 and 10 microM) and 8-(diethylamino)octyl 3,4,5-trimethoxybenzoate hydrochloride (1 and 3 microM), which suggests the receptors were the AT1 subtype. However, the high concentration effect of AII was not affected by these drugs within the concentration ranges used in the present studies. These myographic results were almost consistent with the features of the intracellular Ca++ changes. Thus, it was concluded that the receptors that mediate the low concentration effect of AII belong to the AT1 subtype. However, the current study did not determine the mechanism by which PD 121981 and CGP 42112 evoked the up-regulation of the AT1 receptors.
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PMID:Characterization of PD 121981- and CGP 42112-induced unmasking of low concentration effects of angiotensin II in rabbit abdominal aorta. 799 73

In the present work we have investigated the effects of several growth factors on the expression of Angiotensin II (A-II) receptors subtype AT1 and their pertussis toxin-insensitive coupling to G-proteins in bovine adrenal fasciculata-reticularis cells (BAC). Insulin, Insulin-like growth factor and basic Fibroblast growth factor increased AT1 receptors (mRNA and binding sites) as well as the alpha subunit of Gq (mRNA and protein) and G11 (protein). These changes were associated with an enhanced A-II-induced inositol phosphate accumulation and cortisol production. In contrast, Transforming growth factor beta 1, which reduced slightly AT1 binding sites, but not the level of alpha q or alpha 11 proteins, did not change the A-II-induced inositol phosphate accumulation. However, this factor, as previously reported, markedly reduced cortisol production.
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PMID:Regulation by growth factors of angiotensin II type-1 receptor and the alpha subunit of Gq and G11 in bovine adrenal cells. 801 89

Angiotensin II has been reported to stimulate the proximal tubule Na-H antiporter by inhibition of adenylyl cyclase, and possibly by an adenosine 3',5'-cyclic monophosphate (cAMP)-independent mechanism. We examined the effect of angiotensin II on Na-H antiporter activity (JNa-H) in opossum kidney (OKP) cells, a proximal tubule-like cell line, whose Na-H antiporter resembles that of the proximal tubule apical membrane. We found that angiotensin II regulates JNa-H in a concentration-dependent manner similar to the proximal tubule, with angiotensin II concentrations < 10(-8) M stimulating and > 10(-8) M inhibiting JNa-H. The stimulatory effect of angiotensin II was blocked by 10(-8) M losartan and was pertussis toxin sensitive, suggesting mediation through an angiotensin II (AT1) receptor coupled to a pertussis toxin-sensitive G protein. Acute treatment with 10(-4) M 8-bromoadenosine 3',5'-cyclic monophosphate (8-BrcAMP) inhibited JNa-H by 30% and blocked angiotensin II-induced stimulation. However, angiotensin II (10(-12)-10(-6) M) did not inhibit basal, dopamine-stimulated, or forskolin-stimulated cAMP production measured in the presence of 3-isobutyl-1-methylxanthine (IBMX). In addition, angiotensin II had no effect on cAMP levels measured in the absence of IBMX. We conclude that angiotensin II at physiological concentrations stimulates JNa-H in OKP cells via a cAMP-independent mechanism mediated by an AT1 receptor and a pertussis toxin-sensitive G protein.
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PMID:Angiotensin II stimulation of Na-H antiporter activity is cAMP independent in OKP cells. 802 91

Angiotensin II (Ang II) is a potent regulator of proximal tubule functions, including transport, metabolism, and cell proliferation. The opossum kidney (OK) cell line is a useful model of renal proximal tubule. Mitogen-activated protein (MAP) kinases are rapidly phosphorylated and activated in response to various agonists. We investigated Ang II effects on serine/threonine kinase cascades in OK cells. The major findings of the present study are that Ang II stimulated MAP kinase kinase (MAPKK), MAP kinase (MAPK), and S6 kinase activities, and that it increased phosphorylation of Raf-1 kinase and p42 MAP kinase in OK cells. These stimulations of kinases were dose-dependent (from 10(-6) to 10(-11) M). The time course of activation was sequential; the peak stimulation was reached at 5 to 10 minutes for Raf-1 kinase, MAPKK and MAPK, and at 20 minutes for S6 kinase. The activation of MAPK was inhibited by approximately 70% with prolonged 24-hour PMA pretreatment or in the presence of calphostin C or H-7. Tyrosine kinase inhibitors (genistein and herbimycin) did not inhibit AngII-induced MAPK activity. This activation of MAPK was also inhibited via AT1 receptor antagonist, Dup753 and pertussis toxin. This evidence suggests that the activation of serine/threonine cascades by Ang II is largely dependent on PMA-sensitive PKC, and is not dependent on tyrosine kinase and pertussis toxin.
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PMID:Sequential activation of MAP kinase cascade by angiotensin II in opossum kidney cells. 858 39

Treatment of rabbits with angiotensin-converting enzyme (ACE)-inhibiting drugs increases Na(+)-K+ pump current (Ip) of isolated cardiac myocytes when intracellular Na+ is at near-physiological levels. To examine if effects of ACE inhibitors are related to angiotensin metabolism, we measured Ip in myocytes isolated from rabbits treated with the AT1 receptor antagonist losartan. Ip was increased to levels similar to those after treatment with ACE inhibitors. Exposure of myocytes from captopril-treated rabbits to 10 nM angiotensin II (ANG II) for 45 min in vitro reduced Ip to levels similar to those of myocytes from untreated control rabbits. This rapid response to ANG II suggests that treatment with captopril had induced a functional change in preexisting pump units rather than synthesis of a new population of pumps. Consistent with this, we could not detect a change in Na(+)-K+ pump subunit mRNAs during treatment with captopril. The decrease in Ip of myocytes from captopril-treated rabbits induced by ANG II in vitro was blocked by pertussis toxin, bisindolylmaleimide I, and staurosporine. Exposure of myocytes to phorbol 12-myristate 13-acetate induced a decrease in Ip similar to that induced by ANG II. Thus ACE inhibitors regulate the Na(+)-K+ pump in myocytes via an effect on angiotensin metabolism. The regulatory mechanism appears to include the AT1 receptor, a G protein, and protein kinase C.
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PMID:Angiotensin-converting enzyme inhibitors regulate the Na(+)-K+ pump via effects on angiotensin metabolism. 876 43

Angiotensin II (ANG II) and arginine vasopressin (AVP) act on area postrema (AP) neurons to modulate the baroreflex. Because activation of AP neurons by either ANG II or AVP increases intracellular free Ca2+ concentrations ([Ca2+]i), the goal of this study was to analyze the factors affecting the [Ca2+]i responses to ANG II and AVP. Neurons were recovered from 14- to 16-day old rats and studied after 8-14 days in culture by use of the microscopic digital image analysis for fura 2-loaded cells. The effects of ANG II (100 nM) and AVP (100 nM) on [Ca2+]i were determined in normal (2 mM) and low (< 10 nM) extracellular Ca2+ concentrations. In 143 of 240 neurons, ANG II increased [Ca2+]i 4.65-fold after 20 s, and a similar response was observed in the absence of extracellular Ca2+ (3.65-fold after 20 s). After 60 s of observation, steady-state levels of increased [Ca2+]i were still present under both conditions. Pretreatment with AT1 antagonist or pertussis toxin abolished the response to ANG II. AVP also increased [Ca2+]i (3.6-fold at peak, 20 s) in normal and low extracellular Ca2+. Pretreatment with AVP V1 antagonist or pertussis toxin abolished the response to AVP. This study indicates that ANG II-induced increases in [Ca2+]i are independent of extracellular Ca2+ concentrations and involve the activation of AT1 receptors and a pertussis toxin-sensitive G protein. Although AVP affects a fewer number of AP neurons, the mechanisms of activation are also independent of extracellular Ca2+ concentration and are mediated by a pertussis toxin-sensitive G protein.
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PMID:Subcellular mechanisms of angiotensin II and arginine vasopressin activation of area postrema neurons. 876 Feb 1

The action of angiotensin II (ANG II) was studied in single myocytes from rat portal vein, in which the cytoplasmic Ca++ concentration was estimated by emission from fluorescent dyes and the Ca++ channel current was measured with the whole-cell mode of the patch-clamp technique. ANG II stimulated Ca++ channel current through L-type Ca++ channels and initiated a slow and small increase in the cytoplasmic Ca++ concentration in cells in which intracellular Ca++ stores had been depleted by pretreatment with ryanodine and caffeine. Both Ca++ channel current stimulation and Ca++ responses were selectively inhibited by losartan, indicating activation of angiotensin AT1 receptors. Activation of Ca++ channels by ANG II was insensitive to treatment with pertussis toxin and cholera toxin. Intracellular applications of anti-G alpha q/alpha 11 and anti-phosphatidylinositol antibodies had no effect on the ANG II-induced stimulation of Ca++ channel current, indicating that phosphatidylinositol-specific phospholipase C was not involved in this signaling pathway. Down-regulation of protein kinase C and application of an inhibitor of protein kinase C blocked the ANG II-induced effects. Tricyclodecan-9-yl xanthogenate (an inhibitor of non-phosphatidylinositol-specific phospholipases C and phospholipases D) but not propranolol (an inhibitor of phospholipase D-derived diacylglycerol formation) suppressed the ANG II-induced effects. These data suggest that phosphatidylcholine-specific phospholipase C is involved in the ANG II signaling pathway leading to stimulation of L-type Ca++ channels by protein kinase C.
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PMID:Angiotensin II-mediated activation of L-type calcium channels involves phosphatidylinositol hydrolysis-independent activation of protein kinase C in rat portal vein myocytes. 876 93

To understand the molecular mechanism by which the angiotensin II (AII) type 1 receptor (AT1 receptor) transduces its biological signal, we examined the role of various signaling molecules involved in AT1 receptor signaling in Chinese hamster ovary cells stably transfected with the AT1 receptor. AT1 receptor-transfected cells responded to AII treatment by inhibiting adenylyl cyclase, increasing the intracellular Ca2+ concentration, and activating protein kinase C (PKC) alpha and PKC epsilon. AII also activated the c-fos gene and mitogen-activated protein (MAP) kinases. The activation of PKC, the c-fos gene, and MAP kinases was blocked by inhibition of PKC induced by pretreatment with 12-O-tetradecanoylphorbol-13-acetate but not by pretreatment with pertussis toxin, suggesting that PKC couples to the activation of the the c-fos gene and MAP kinases. In addition, AII activated Raf-1 and MAP kinase kinase in a PKC-dependent manner. A dominant negative mutant of Ras had no effect on AII-induced MAP kinase or c-fos gene activation. Thus, the AT1 receptor signals through Raf-1 and its downstream signaling molecules by a PKC-dependent mechanism that does not involve Ras activation.
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PMID:Angiotensin II type 1 receptor signals through Raf-1 by a protein kinase C-dependent, Ras-independent mechanism. 879 90

Bovine adrenal cortical cells (BAC) express corticotropin (ACTH) and angiotensin II (AngII) receptors (AT1 subtype), which are coupled to adenylate cyclase and phosphoinositide pathways, respectively. The coupling of AT1 to phosphoinositide breakdown is mainly pertussis toxin-insensitive suggesting that this receptor is coupled to Gaeq/Gae11. In the present work we have demonstrated that BAC express G alpha q and G alpha 11 mRNA and proteins, and their variation during culture as well as their regulation by ACTH and AngII is different. ACTH enhanced G alpha q mRNA levels mainly by increasing the transcription rate. In addition, ACTH increased both G alpha q and G alpha 11 proteins without changing their half-lives. In contrast, AngII reduced both G alpha q mRNA and protein and increased G alpha 11 mRNA but not G alpha 11 protein. The decrease of G alpha q mRNA levels was mainly due to a marked reduction of its half-life. These changes in G alpha q/G alpha 11 proteins induced by both hormones were associated with an enhanced AngII-induced inositol phosphate accumulation, more marked after stimulation with ACTH than after AngII pretreatment. In summary, the present results demonstrated that BAC express both G alpha q and G alpha 11 and their regulations are different and in contrast to other cell types these regulations do not involve changes in the half-life of G alpha q/G alpha 11 proteins.
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PMID:Expression and regulation of G alpha q and G alpha 11 mRNAs and proteins in bovine adrenal cells. 886 67

Modulation of ionic Ca2+ currents by dopamine (DA) could play a pivotal role in the control of steroid secretion by the rat adrenal glomerulosa cells. In the present study, we report that DA decreases the T-type Ca2+ current amplitude in these cells. The use of pharmacological agonists and antagonists reveals that this effect is mediated by activation of the D1-like receptors. Modulation by cAMP is complex inasmuch as preincubation of the cells with 8-Br-cAMP or the specific adenylyl cyclase inhibitor, 2',3'-dideoxyadenosine, have no effect per se, but prevent the DA-induced inhibition. The inhibitory effect of DA was abolished by addition of GDPbetaS to the pipette medium but not by pertussis toxin. If a cell is dialyzed with medium containing G alpha(s)-GDP, the inhibitory effect is reduced and cannot be recovered by the addition of GTPgammaS, indicating that the alpha(s) is not involved, but rather the betagamma-subunit. Indeed, DA-induced inhibition was mimicked by G betagamma in the pipette and 8-Br-cAMP in the bath. Similarly, G betagamma release from the activation of the AT1 receptor of angiotensin II did affect the current amplitude only in the presence of 8-Br-cAMP in the bath. The mitogen-activated protein kinase cascade, which can be activated by receptors coupled to Gs, was not involved as shown by the lack of activation of p42mapk by DA and the absence of effect of the mitogen-activated protein kinase inhibitor, PD 098059, on the DA-induced inhibition. Because the binding of G betagamma-subunits to various effectors involves the motif QXXER, we therefore tested the effect of the QEHA peptide on the inhibition of the T-type Ca2+ current induced by DA. The peptide, added to the medium pipette (200 microM), abolished the effect of DA. We conclude that the presence of the G betagamma and an increase in cAMP concentration are both required to inhibit the T-type Ca2+ current in rat adrenal glomerulosa cells.
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PMID:Inhibition of the T-type Ca2+ current by the dopamine D1 receptor in rat adrenal glomerulosa cells: requirement of the combined action of the G betagamma protein subunit and cyclic adenosine 3',5'-monophosphate. 909 2


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