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)

In cardiac fibroblasts, angiotensin II (Ang II) induced a rapid increase in extracellular signal regulated kinase (ERK) activity in a pertussis toxin insensitive manner. This ERK activation was abolished by the Gq-associated phospholipase C inhibitor U73122 but was insensitive to protein kinase C (PKC) inhibitors or PKC downregulation by phorbol ester. Intracellular Ca2+ chelation by BAPTA-AM or TMB-8 abolished Ang II induced ERK activation, whereas treatment with EGTA or nifedipine did not affect it. Ca2+ ionophore A23187 also induced a rapid increase in ERK activity to an extent similar to that of Ang II stimulation. Calmodulin inhibitors (W7 and calmidazolium) and tyrosine kinase inhibitors (genistein and ST638) completely blocked ERK activation by Ang II and A23187. Both Ang II and A23187 caused a rapid increase in the binding of GTP to p21(Ras), which was nearly abolished by genistein and calmidazolium. Transfection with the dominant negative mutant of Ras and the Ras inhibitor manumycin completely inhibited Ang II induced ERK activation. It was also found for the first time that cardiac fibroblasts abundantly expressed Ca2+-sensitive tyrosine kinase Pyk2/CAKbeta/RAFTK and that Ang II markedly induced its activation in a Ca2+/calmodulin-sensitive manner. Overexpression of the dominant negative mutant of Pyk2 significantly attenuated Ang II or A23187-induced ERK activities (36% and 38% inhibition compared with that in mock-transfected cells, respectively) and ERK tyrosine phosphorylation levels, as well as an increase in the binding of GTP to p21(Ras). These findings demonstrate that in cardiac fibroblasts, Ang II induced Ras/ERK activation is dominantly regulated by Gq-coupled Ca2+/calmodulin signaling and that Pyk2 plays an important role in the signal transmission for efficient activation of the Ang II induced Ras/ERK pathway.
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PMID:Role of calcium-sensitive tyrosine kinase Pyk2/CAKbeta/RAFTK in angiotensin II induced Ras/ERK signaling. 977 61

In cultured vascular smooth muscle cells (VSMCs), activation of phospholipase D (PLD) by angiotensin II (Ang II) represents a major source of sustained generation of second messengers. Understanding the molecular mechanisms controlling activation of this pathway is essential to clarify the complexities of Ang II signaling, but the most proximal mechanisms coupling AT1 receptors to PLD have not been defined. Here we examine the role of heterotrimeric G proteins in AT1 receptor-PLD coupling. In alpha-toxin permeabilized VSMCs, GTPgammaS enhanced Ang II-stimulated PLD activation. In intact cells, Ang II activation of PLD was pertussis toxin-insensitive and was not additive with sodium fluoride, a cell-permeant activator of heterotrimeric G proteins, indicating that AT1 receptor-PLD coupling requires pertussis toxin-insensitive heterotrimeric G proteins. Ang II-stimulated PLD activity was significantly inhibited in VSMCs electroporated with anti-Gbeta antibody (56 +/- 5%) and in cells overexpressing the Gbetagamma-binding region of the carboxyl terminus of beta-adrenergic receptor kinase1 (79 +/- 8%), suggesting a critical role for Gbetagamma in PLD activation by Ang II. This effect may be mediated by pp60(c-src), because in beta-adrenergic receptor kinase1 overexpressing cells, pp60(c-src) activation was inhibited, and in normal cells anti-pp60(c-src) antibody inhibited Ang II-stimulated PLD activity. Galpha12 may also contribute to AT1 receptor-PLD coupling because electroporation of anti-Galpha12 antibody significantly inhibited PLD activity, whereas anti-Galphai and Galphaq/11 antibodies had no effect. Furthermore, electroporation of anti-RhoA antibody also attenuated Ang II-induced PLD activation, suggesting a role for small molecular weight G protein RhoA in this response. Thus, we provide evidence here that Gbetagamma as well as Galpha12 subunits mediate AT1 receptor coupling to tonic PLD activation via pp60(c-src)-dependent mechanisms, and that RhoA is involved in these signaling pathways in rat VSMCs. These results may provide insight into the molecular mechanisms underlying the highly organized, complex, chronic signaling programs associated with vascular smooth muscle growth and remodeling in response to Ang II.
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PMID:Angiotensin II receptor coupling to phospholipase D is mediated by the betagamma subunits of heterotrimeric G proteins in vascular smooth muscle cells. 988 8

Little is known of the mechanisms leading to mitogen-activated protein kinase (MAPK) activation via Gq-coupled receptors. We therefore examined the pathways by which angiotensin II (Ang II) activates Raf-1 kinase, an upstream intermediate in the pathway to MAPK, via the Gq-coupled AT1 angiotensin receptor in bovine adrenal glomerulosa (BAG) cells. Ang II caused a rapid and transient activation of Raf-1 that reached a peak at 5-10 min. Ang II was a potent stimulus of Raf-1 activation with an ED50 of 10 pM and a maximal response at 1 nM, although higher Ang II concentrations elicited a submaximal response. Ang II-stimulated Raf-1 activity was unaffected by down-regulation of protein kinase C and intracellular Ca2+ chelation (using BAPTA) but was partially inhibited by pertussis toxin, and was abolished by manumycin A. Removal of extracellular Ca2+ (by EGTA) or blockade of L type Ca2+ channels (by nifedipine), as well as inhibition of MEK-1 kinase (by PD98059), enhanced Raf-1 activity, whereas wortmannin (100 nM) inhibited approximately one half of Ang II-stimulated Raf-1 activity. Hence, Raf-1 kinase activation by Ang II in BAG cells is dependent on Ras, is mediated in part via Gi and phosphatidylinositol 3-kinase, and is negatively regulated via Ca2+ influx and a downstream signaling element(s).
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PMID:Raf-1 kinase activation by angiotensin II in adrenal glomerulosa cells: roles of Gi, phosphatidylinositol 3-kinase, and Ca2+ influx. 1006 66

In adrenal zona glomerulosa cells, calcium entry is crucial for aldosterone production and secretion. This influx is stimulated by increases of extracellular potassium in the physiological range of concentrations and by angiotensin II (Ang II). The high threshold voltage-activated (L-type) calcium channels have been shown to be the major mediators for the rise in cytosolic free calcium concentration, [Ca2+]c, observed in response to a depolarisation by physiological potassium concentrations. Paradoxically, both T- and L-type calcium channels have been shown to be negatively modulated by Ang II after activation by a sustained depolarisation. While the modulation of T-type channels involves protein kinase C (PKC) activation, L-type channel inhibition requires a pertussis toxin-sensitive G protein. In order to investigate the possibility of additional modulatory mechanisms elicited by Ang II on L-type channels, we have studied the effect of PKC activation or tyrosine kinase inhibition. Neither genistein or MDHC, two strong inhibitors of tyrosine kinases, nor the phorbol ester PMA, a specific activator of PKC, affected the Ang II effect on the [Ca2+]c response and on the Ba2+ currents elicited by cell depolarisation with the patch-clamp method. We propose a model describing the mechanisms of the [Ca2+]c modulation by Ang II and potassium in bovine adrenal glomerulosa cells.
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PMID:Angiotensin II type 1 receptor activation modulates L- and T-type calcium channel activity through distinct mechanisms in bovine adrenal glomerulosa cells. 1007 81

Previous studies demonstrate that renovascular responses to angiotensin II (Ang II) are enhanced in spontaneously hypertensive rats (SHRs); however, it is possible that this hyperresponsiveness is mediated by Ang II-induced release of substances from the adrenal gland. Previous studies also show that pertussis toxin normalizes renovascular responses to Ang II in SHRs; however, it is possible that this response is mediated by effects of pertussis toxin on endogenous Ang II levels and/or the sympathoadrenal axis. The purpose of this study was 2-fold: 1) to determine whether the renovascular response to Ang II in SHRs is enhanced even in adrenalectomized SHRs and 2) to determine whether pertussis toxin normalizes enhanced renovascular responses to Ang II when pertussis toxin-induced changes in the renin-angiotensin system and the sympathoadrenal axis are prevented. SHRs and Wistar Kyoto (WKY) rats were anesthetized and administered 20 ml/kg 0.9% saline, and an infusion of aldosterone and hydrocortisone was initiated. After bilateral adrenalectomy, left renal denervation, and pretreatment with captopril, animals received an intrarenal artery infusion of Ang II at 10 ng/kg/min for 5 min. Ang II-induced changes in renal vascular resistance were greater in SHRs compared with WKY rats (p =. 010, n = 19/group). Pertussis toxin (10 microgram/kg i.v. 3 days before the experiment) attenuated Ang II-induced changes in renal vascular resistance in SHR (p <.05), but not in WKY rats (strain x treatment interaction: p =.046). These results suggest that the enhanced renovascular response to Ang II in SHRs is mediated by a G(i)-dependent pathway within the renal vasculature.
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PMID:Angiotensin II-induced renal vasoconstriction in genetic hypertension. 1049 Sep 21

The Janus kinase-signal transducers and activators of transcription (JAK-STAT) pathway is stimulated by angiotensin II (Ang II) via the type 1 receptor after acute pressure overload in the heart. The purpose of this study was to determine whether activation of the JAK-STAT pathway by Ang II is dependent on G proteins. Ang II (100 nmol/L for 120 minutes) caused formation of sis-inducing factor (SIF) complexes and tyrosine phosphorylation of STAT proteins in neonatal rat ventricular myocytes. The percentage of change in Ang II-stimulated SIF induction was not affected by pertussis toxin (PTX) or GP antagonist-2A, compounds that inhibit activation of G(i) and G(o) proteins. In contrast, GP antagonist-2A, a peptide that selectively inhibits activation of G(q) proteins, completely abolished Ang II-stimulated SIF induction and STAT3 tyrosine phosphorylation. Pretreatment of cardiac myocytes with U73122, an inhibitor of phosphatidylinositol-specific phospholipase C (PLC) activity, decreased Ang II-stimulated SIF induction and STAT3 tyrosine phosphorylation in a dose-dependent manner. Chelation of intracellular Ca(2+) with BAPTA-AM did not alter Ang II-stimulated SIF induction. In contrast, pretreatment of cardiac myocytes with Ro-31-8220, a potent and specific inhibitor of protein kinase C (PKC), decreased Ang II-stimulated SIF induction in a dose-dependent manner. Ang II-stimulated SIF induction was abolished in cardiac myocytes after downregulation of PKC by treatment with PMA. From these data, we conclude that Ang II-stimulated SIF induction and STAT3 tyrosine phosphorylation is mediated by PTX-insensitive G proteins through a G(q)-PLC-PKC-mediated pathway in neonatal rat ventricular myocytes.
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PMID:Angiotensin II-stimulated induction of sis-inducing factor is mediated by pertussis toxin-insensitive G(q) proteins in cardiac myocytes. 1052 34

The aim of the present study was to investigate the proliferative effects of Ang II in human cardiac fibroblasts. The effects of Ang II in human cardiac fibroblasts on the 3H-thymidine incorporation, the cell number, the 3H-leucine incorporation and the total protein content were measured. The expression of receptor mRNA was performed by reverse transcription-polymerase chain reaction (RT-PCR). Ang II increased 3H-leucine incorporation in a concentration-dependent manner but not 3H-thymidine incorporation in primary cultures of human cardiac fibroblasts. The maximum effect (24 +/- 3% over control) was obtained at a concentration of 10 nM. There were no significant alterations of cell number or total protein content, suggesting that Ang II stimulated protein synthesis but did not induce hypertrophy. The accumulation of 3H-leucine was blocked by the AT1 receptor antagonist candesartan but not by the AT2 receptor antagonist PD123319. By using RT-PCR, both AT1 and AT2 receptors mRNA were found to be expressed in human cardiac fibroblasts. The selective MAPKK inhibitor PD098059, the protein kinase C inhibitor K252a or the phospholipase C inhibitor U73122 did not significantly inhibit Ang II augmented 3H-leucine incorporation. However, this was significantly blocked by the Ca2+-dependent protein kinase C inhibitor GO6976, the non-selective protein kinase inhibitor staurosporine and the tyrosine kinase inhibitor tyrphostin 25. The effects of Ang II were unaffected by the Gi-protein blocker pertussis toxin, indicating a Gi-protein-independent pathway. Ang II was synergistic with insulin but showed no significant increase on 3H-leucine incorporation when combined with PDGF or EGF. In summary, Ang II stimulates protein synthesis through AT1 receptors in human cardiac fibroblasts, but has no hypertrophic or hyperplastic effect. The response is mediated by a MAPKK-independent and Ca2+-sensitive PKC-dependent pathway.
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PMID:Angiotensin II type 1 receptors stimulate protein synthesis in human cardiac fibroblasts via a Ca2+-sensitive PKC-dependent tyrosine kinase pathway. 1071 68

Prostaglandin (PG) E(2) is an important modulator of the actions of angiotensin (Ang) II. In the present study, we investigated the renal microvascular actions of PGE(2) and the EP receptor subtypes involved. Ibuprofen potentiated Ang II-induced vasoconstriction in in vitro perfused normal rat kidneys and augmented afferent arteriolar, but not efferent arteriolar, responses in the hydronephrotic rat kidney model. This preglomerular effect of endogenous prostanoids was mimicked by exogenous PGE(2), which reversed Ang II-induced afferent arteriolar vasoconstriction at concentrations of 0.1 to 10 nmol/L without affecting the efferent arteriole. The PGE(2)-induced vasodilation was potentiated by the phosphodiesterase inhibitor Ro 20-1724 and was mimicked by 11-deoxy-PGE(1) (0.01 to 1 nmol/L). Butaprost, which acts preferentially at EP(2) receptors, was relatively ineffective. Whereas 0.1 to 10 nmol/L PGE(2) elicited vasodilation, higher concentrations (1 to 10 micromol/L) restored Ang II-induced afferent arteriolar vasoconstriction. This response was blocked by pertussis toxin (200 microg/mL) and was mimicked by the EP(1)/EP(3) agonist sulprostone (1 to 300 nmol/L). Reverse transcription-polymerase chain reaction of individually isolated afferent arterioles revealed the presence of message for EP(4) and all 3 EP(3) splice variants (alpha, beta, and gamma) but not EP(1) or EP(2). Our findings thus indicate that PGE(2) elicits both vasodilatory and vasoconstrictor actions on the afferent arteriole. The vasodilation is mediated by EP(4) receptors coupled to cAMP, presumably via G(alphas). The vasoconstriction is mediated by an EP(3) receptor coupled to G(alphai) and appears to reflect a functional antagonism of the EP(4)-induced vasodilation.
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PMID:Biphasic actions of prostaglandin E(2) on the renal afferent arteriole : role of EP(3) and EP(4) receptors. 1074 2

In spontaneously hypertensive rats (SHR), hypertension is mediated in part by an enhanced renovascular response to angiotensin (Ang) II. Pertussis toxin normalizes renovascular responses to Ang II and lowers blood pressure in SHR, suggesting a role for altered G(i) signaling in the enhanced renovascular response to Ang II in SHR. To further investigate this hypothesis, we measured reductions in renal blood flow and increases in renovascular resistance in response to intrarenal infusions of Ang II in the presence and absence of coactivation of alpha(2)-adrenoceptors (ie, receptors selectively coupled to G(i)) with UK 14,304 in adrenalectomized, renal-denervated, captopril-pretreated SHR and normotensive Wistar-Kyoto rats. In SHR, but not Wistar-Kyoto rats, UK 14,304 markedly enhanced renovascular responses to Ang II and vasopressin. However, UK 14,304 did not enhance renovascular responses to methoxamine (alpha(1)-adrenoceptor agonist) in either strain. In uninephrectomized, normotensive Sprague-Dawley animals and in Sprague-Dawley rats with nongenetic hypertension induced by uninephrectomy, chronic administration of deoxycorticosterone acetate, and 1% saline as drinking water, UK 14,304 had little or no effect on renovascular responses to Ang II. In SHR, intrarenal infusions of U73122, a phospholipase C/D inhibitor, blocked the enhancement of renovascular responses to Ang II by UK 14,304. We conclude that activation of alpha(2)-adrenoceptors selectively enhances renovascular responses to Ang II and vasopressin in vivo in animals with genetic hypertensive but not in normotensive animals or animals with acquired hypertension. These results suggest that in SHR, there is a genetically mediated enhanced cross talk between the G(i) signal transduction pathway and signal transduction pathways activated by Ang II and vasopressin, but not methoxamine, and involving phospholipase C and/or D.
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PMID:Enhanced interaction between renovascular alpha(2)-adrenoceptors and angiotensin II receptors in genetic hypertension. 1156 4

Angiotensin (Ang) II has 2 major receptor isoforms, Ang type 1 (AT(1)) and Ang type (AT(2)). AT(1) transphosphorylates epidermal growth factor receptor (EGFR) to activate extracellular signal-regulated kinase (ERK). Although AT(2) was shown to inactivate ERK, the action of AT(2) on EGFR activation remains undefined. Using AT(2)-overexpressing vascular smooth muscle cells from AT(2) transgenic mice, we studied these undefined actions of AT(2). Maximal ERK activity induced by Ang II was increased 1.9- and 2.2-fold by AT(2) inhibition, which was abolished by orthovanadate but not okadaic acid or pertussis toxin. AT(2) inhibited AT(1)-mediated EGFR tyrosine phosphorylation by 63%. The activity of SHP-1 tyrosine phosphatase was significantly upregulated 1 minute after AT(2) stimulation and association of SHP-1 with EGFR was increased, whereas AT(2) failed to tyrosine phosphorylate SHP-1. Stable overexpression of SHP-1-dominant negative mutant completely abolished AT(2)-mediated inhibition of EGFR and ERK activation. AT(1)-mediated c-fos mRNA accumulation was attenuated by 48% by AT(2) stimulation. Induction of fibronectin gene containing an AP-1 responsive element in its 5'-flanking region was decreased by 37% after AT(2) stimulation, corresponding to the results of gel mobility assay with the AP-1 sequence of fibronectin as a probe. These findings suggested that AT(2) inhibits ERK activity by inducing SHP-1 activity, leading to decreases in AP-1 activity and AP-1-regulated gene expression, in which EGFR dephosphorylation plays an important role via association of SHP-1.
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PMID:Angiotensin II type 2 receptor inhibits epidermal growth factor receptor transactivation by increasing association of SHP-1 tyrosine phosphatase. 2370 57


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