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 selectin adhesion molecules and chemoattractant receptors synergistically regulate leukocyte migration into lymphoid tissues and sites of inflammation, but little is known about how these families of receptors modulate each other's function. In this study, L-selectin was found to be phosphorylated in lymphoblastoid cell lines, and phosphorylation was enhanced by phorbol ester (phorbol 12-myristate 13-acetate (PMA)) treatment. Interactions between L-selectin and chemoattractant receptors were therefore examined using transfected rat basophilic leukemia cell lines (RBL-2H3) that expressed human L-selectin along with human leukocyte chemoattractant receptors. L-selectin was rapidly phosphorylated in cells treated with chemoattractants, thrombin, IgE receptor agonists, or PMA. Pertussis toxin or the protein kinase C inhibitor, staurosporine, completely blocked chemoattractant receptor-induced phosphorylation of L-selectin. PMA-induced phosphorylation was on serine residues within the cytoplasmic tail of L-selectin that have been well conserved during recent evolution. Although L-selectin phosphorylation was not essential for basal levels of adhesion through L-selectin in transformed cell lines, the rapid increase in ligand binding activity of L-selectin that occurs following leukocyte activation was blocked by staurosporine. These results demonstrate that L-selectin can be phosphorylated following engagement of chemoattractant receptors and suggest that this may be a physiologically relevant mechanism for the synergistic regulation of these receptors during leukocyte migration.
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PMID:Chemoattractant receptor-induced phosphorylation of L-selectin. 915 59

The alpha subunit of Gz (alpha(z)) harbors two N-terminal serine residues (at positions 16 and 27) that serve as protein kinase C-mediated phosphorylation sites. The cognate residues in the alpha subunit of Gt1 provide binding surfaces for the beta1 subunit. We used three serine-to-alanine mutants of alpha(z) to investigate the functional importance of the two N-terminal serine residues. Wild-type or mutant alpha(z) was transiently coexpressed with different receptors and adenylyl cyclase isozymes in human embryonic kidney 293 cells, and agonist-dependent regulation of cyclic AMP accumulation was examined in a setting where all endogenous alpha subunits of G1 were inactivated by pertussis toxin. Replacement of one or both serine residues by alanine did not alter the ability of alpha(z) to interact with delta-opioid, dopamine D2, or adenosine A1 receptors. Its capacity to inhibit endogenous and type VI adenylyl cyclases was also unaffected. Functional release of betagamma subunits from the mutant alpha(z) subunits was not impaired because they transduced betagamma-mediated stimulation of type II adenylyl cyclase. Constitutively active mutants of all four alpha(z) subunits were constructed by the introduction of a Q205L mutation. The activated mutants showed differential abilities to inhibit human choriogonadotropin-mediated cyclic AMP accumulation in luteinizing hormone receptor-transfected cells. Loss of both serine residues, but not either one alone, impaired the receptor-independent inhibition of adenylyl cyclase by the GTPase-deficient mutant. Thus, replacement of the amino-terminal serine residues of alpha(z) has no apparent effect on receptor-mediated responses, but these serine residues may be essential for ensuring transition of alpha(z) into the active conformation.
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PMID:Functional role of amino-terminal serine16 and serine27 of G alphaZ in receptor and effector coupling. 916 47

This study describes the inhibition of 57Co2+ influx through Ca2+-permeable alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA) receptors, consequent to the application of L-2-amino-4-phosphonobutanoic acid (L-AP4), D-AP4 and L-serine-O-phosphate (L-SOP) in cultured cerebellar granule cells. The forskolin-stimulated accumulation of cyclic AMP was inhibited by (2S,1'S,2'S)-2-(carboxycyclopropyl)glycine (L-CCG-1) with an IC50 = 491 +/- 135 nM and by L-AP4 in a biphasic manner (IC50(1) = 232 +/- 61 nM and IC50(2) = >300 microM), confirming the presence of group II and group III mGlu receptors, respectively. 57Co2+ influx was stimulated by kainate (EC50 = 42.2 +/- 11.3 microM) and, in the presence of 30 microM cyclothiazide, by (S)-5-fluorowillardiine (EC50 = 0.7 +/- 0.1 microM) and (S)-AMPA (EC50 = 2.8 +/- 0.5 microM). The effects of the latter were abolished by 10 microM 6-nitro-7-sulphamoylbenzo[f]quinoxaline-2,3-dione (NBQX). L-AP4 (IC50 = >300 microM), D-AP4 (IC50 = >100 microM) and L-SOP (IC50 = 199 +/- 6 microM) inhibited 6 microM (S)-AMPA-stimulated 57Co2+ influx, whereas L-CCG-1 (up to 10 microM), 300 microM (RS)-3,5-dihydroxyphenylglycine, 300 microM (+/-)-baclofen and 1 mM carbachol were ineffective. Pre-incubation with either pertussis toxin (250 ng/ml, 48 hr), 1 mM dibutyryl cyclic AMP, or the potent group III mGlu receptor antagonist (RS)-alpha-cyclopropyl-4-phosphonophenylglycine ((RS)-CPPG), tested at 400 microM, failed to alter the inhibition of AMPA receptor activity by 300 microM L-SOP. Unlike 10 microM NBQX, neither L-AP4, D-AP4 or L-SOP (tested at 1 mM) inhibited the binding of 10 nM (S)-[3H]5-fluorowillardiine (a selective AMPA receptor ligand) to granule cell membranes. Therefore, in these neurones, high concentrations (>100 microM) of L-AP4, L-SOP and D-AP4 inhibit Ca2+-permeable AMPA receptors by a mechanism distinct from known mGlu receptor action and at a site independent from that for AMPA receptor agonists.
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PMID:Inhibition of AMPA receptor-stimulated 57Co2+ influx by D- and L-2-amino-4-phosphonobutanoic acid (D- and L-AP4) and L-serine-O-phosphate (L-SOP) in cultured cerebellar granule cells. 917 12

Somatostatin (SRIF) was discovered as an inhibitor of GH secretion from pituitary somatotroph cells. SRIF analogs are very effective agents used to treat neuroendocrine tumors and are now being used with increasing frequency in clinical trials to treat more aggressive malignancies. However, the cellular components mediating SRIF signal transduction remain largely unknown. We have stably overexpressed the SRIF type 2 receptor (SST2) in GH4 rat somatomammotroph cells, establishing a physiologically relevant model system. In this model, the SRIF analog, BIM23014, inhibited forskolin-induced cAMP accumulation, protein kinase A activation, cAMP response element-binding protein phosphorylation, and Pit-1/GHF-1 promoter activation in an okadaic acid-insensitive manner. Pertussis toxin inhibited the effects of BIM23014, documenting that SST2 signaling was coupled to Gi. Moreover, the inhibitory effects of BIM23014 were reversed by overexpression of protein kinase A catalytic subunit, indicating that SRIF does not act via serine/threonine phosphatases, but, rather, by lowering protein kinase A activity. These data define the components of the SRIF/SST2 receptor signaling pathway and provide important mechanistic insights into how SRIF controls neuroendocrine tumors. As SRIF analogs are effective antitumor agents, and many other related compounds are in development, the knowledge gained here will further our understanding of their mechanism of action in other malignancies as well.
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PMID:Somatostatin acts by inhibiting the cyclic 3',5'-adenosine monophosphate (cAMP)/protein kinase A pathway, cAMP response element-binding protein (CREB) phosphorylation, and CREB transcription potency. 917 46

The effects of thrombin on adenylyl cyclase activity were examined in rat adrenal medullary microvascular endothelial cells (RAMEC). Confluent RAMEC monolayers were stimulated for 5 min with cAMP-generating agents in the absence and presence of thrombin, and intracellular cAMP was measured with a radioligand binding assay. Thrombin (0.001-0.25 U/ml) dose-dependently inhibited IBMX-, isoproterenol- and forskolin-stimulated cAMP accumulation. A peptide agonist of the thrombin receptor, gamma-thrombin, and the serine proteases trypsin and plasmin, also inhibited agonist-stimulated cAMP levels, while proteolytically inactive PPACK- or DIP-alpha-thrombins were without effect. Moreover, the thrombin inhibitor hirudin abolished the inhibitory effect of thrombin but not of the peptide agonist. These results suggest that the inhibitory action of thrombin on cAMP accumulation is mediated by a proteolytically-activated thrombin receptor. The inhibitor of G(i)-proteins pertussis toxin abolished the inhibitory effect of thrombin on isoproterenol- or IBMX-stimulated cAMP production, while the phorbol ester PMA partly impaired it. The protein kinase C inhibitors staurosporine or H7 and the intracellular Ca2+ chelator BAPTA-AM were without effect. Collectively, our data suggest that the thrombin receptor in RAMEC is negatively coupled to adenylyl cyclase through a pertussis toxin-sensitive G(i)-protein.
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PMID:The thrombin receptor in adrenal medullary microvascular endothelial cells is negatively coupled to adenylyl cyclase through a Gi protein. 919 75

The mineralocorticoid aldosterone is the most important hormone for the regulation of Na+ and K+ homeostasis in mammals and is thereby involved in the regulation of extracellular volume and blood pressure. Because aldosterone is a steroid hormone, the classical way of action involves transcription, translation, and protein synthesis. We previously reported a rapid, nongenomic, and Zn(2+)-sensitive action of aldosterone on Na+/H+ exchange in renal epithelial [Madin-Darby canine kidney (MDCK)] cells (M. Gekle, N. Golenhofen, H. Oberleithner, and S. Silbernagl. Proc. Natl. Acad. Sci. 93: 10500-10504, 1996). Here we show that, in the absence of Na+ (i.e., with inactive Na+/H+ exchange), aldosterone induces a membrane potential-dependent and Zn(2+)-sensitive cytoplasmic acidification in MDCK cells within 2-4 min. This aldosterone-induced activation of a proton conductance is insensitive to the inhibitor of the classical genomic pathway, spironolactone. Furthermore, the inhibitor of serine/threonine kinases and staurosporine, as well as the specific inhibitor of protein kinase C (PKC), calphostin C, prevented proton conductance activation. Activation of PKC by phorbol esters mimicked the effect of aldosterone. Furthermore, preincubation of the cells with pertussis toxin reduced the effect of aldosterone significantly. We propose a new nongenomic mechanism of action for aldosterone, independently of the intracellular type 1 mineralocorticoid receptor: G protein-dependent stimulation of PKC by aldosterone leads to the activation of a plasma membrane proton conductance that enhances the activity of Na+/H+ exchange. This rapid nongenomic effect could explain the observation that aldosterone may alter renal Na+ and K+ excretion within 5-10 min.
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PMID:The mineralocorticoid aldosterone activates a proton conductance in cultured kidney cells. 937 54

Angiotensin II (Ang II) elicits an Ang II type 2 (AT2) receptor-mediated increase in delayed-rectifier K+ current (IK) in neurons cultured from newborn rat hypothalamus and brainstem. This effect involves a pertussis toxin (PTX)-sensitive Gi protein and is abolished by inhibition of serine and threonine phosphatase 2A (PP-2A). Here, we determined that Ang II stimulates [3H]arachidonic acid (AA) release from cultured neurons via AT2 receptors. This effect of Ang II was blocked by inhibition of phospholipase A2 (PLA2) and by PTX. Because AA and its metabolites are powerful modulators of neuronal K+ currents, we investigated the involvement of PLA2 and AA in the AT2 receptor-mediated stimulation of IK by Ang II. Single-cell reverse transcriptase (RT)-PCR analyses revealed the presence of PLA2 mRNA in neurons that responded to Ang II with an increase in IK. The stimulation of neuronal IK by Ang II was attenuated by selective inhibitors of PLA2 and was mimicked by application of AA to neurons. Inhibition of lipoxygenase (LO) enzymes significantly reduced both Ang II- and AA-stimulated IK, and the 12-LO metabolite of AA 12S-hydroxyeicosatetraenoic acid (12S-HETE) stimulated IK. These data indicate the involvement of a PLA2, AA, and LO metabolite intracellular pathway in the AT2 receptor-mediated stimulation of neuronal IK by Ang II. Furthermore, the demonstration that inhibition of PP-2A abolished the stimulatory effects of Ang II, AA, and 12S-HETE on neuronal IK but did not alter Ang II-stimulated [3H]-AA release suggests that PP-2A is a distal event in this pathway.
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PMID:Angiotensin II type 2 receptor stimulation of neuronal delayed-rectifier potassium current involves phospholipase A2 and arachidonic acid. 942 10

We have demonstrated previously that the GTP-binding protein gamma12 subunit is a selective substrate for phosphorylation by protein kinase C among various gamma subunits in vitro, and that a serine residue in the N-terminal region is involved. In the present study, we first determined that the site of phosphorylation was Ser1 with antibodies developed against two N-terminal peptides containing phosphorylated Ser1 and Ser2, respectively. Using an antibody recognizing phosphorylated gamma12 and Swiss 3T3 cells rich in this protein, gamma12 was found to be phosphorylated by stimulation of quiescent cells with various reagents, such as phorbol 12-myristate 13-acetate (PMA), NaF, fetal calf serum, lysophosphatidic acid, endothelin, and growth factors. Pertussis toxin completely and partially prevented phosphorylation of gamma12 induced by lysophosphatidic acid and fetal calf serum and by endothelin, respectively, suggesting a contribution of G(i/o). Phosphorylation of gamma12 was limited when cells were stimulated by a single reagent, even with PMA, a strong activator of protein kinase C, whereas simultaneous stimulation with lysophosphatidic acid and either PMA or platelet-derived growth factor induced a synergistic increase of phosphorylation, suggesting physiological roles for GTP-binding proteins and protein kinase C in combination. Phosphorylated gamma12 was also detected in various tissues of untreated rats. Its decrease by pertussis toxin treatment also suggested the involvement of G(i/o) in vivo.
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PMID:GTP-binding protein gamma12 subunit phosphorylation by protein kinase C--identification of the phosphorylation site and factors involved in cultured cells and rat tissues in vivo. 949 99

We demonstrate that the human endothelin-B (ETB) receptor incorporates [3H]palmitic acid. Mutation of three putative palmitoylated cysteine residues (amino acids 402, 403 and 405) in the carboxyl terminus into serine residues (C2/3/5S) completely prevented palmitoylation of ETB. When expressed in CHO cells, C2/3/5S was localized on the cell surface, retained high affinity for ET-1 and ET-3, and was rapidly internalized when bound to the ligand. However, unlike the wild-type ETB, C2/3/5S transmitted neither an inhibitory effect on adenylate cyclase nor a stimulatory effect on phospholipase C, indicating a critical role of palmitoylation in the coupling with G-proteins, regardless of the G-protein subtype. Truncation of the carboxyl terminus, including all or a part of the three cysteine residues, gave palmitoylation-negative and -positive deletion mutants, delta 402 and delta 403. Despite the absence of the cytoplasmic tail, both delta 402 and delta 403 showed essentially the same features as C2/3/5S, except that delta 403 did transmit a stimulatory effect on phospholipase C via a pertussis toxin-insensitive G-protein, most likely a member(s) of the Gq family. These results indicated a differential requirement for the carboxyl terminus downstream from the palmitoylation site in the coupling with G-protein subtypes, i.e., it is required for the coupling with Gi but not for that with Gq.
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PMID:Cysteine residues in the carboxyl terminal domain of the endothelin-B receptor are required for coupling with G-proteins. 959 45

We have found that modification of rat PC12 cells with pertussis toxin resulted in an approximately 50% inhibition of a protein phosphatase 2A-like phosphatase. Protein phosphatase 2A (PP2A) is a major cellular serine/threonine-specific protein phosphatase. Treatment of extracts from pertussis toxin-modified PC12 cells with either immobilized alkaline phosphatase or Ca2+ reversed this inhibition. Reactivation of the PP2A-like phosphatase in Ca2+ appears to result from the dephosphorylation of a protein by the Ca2+/calmodulin-dependent protein phosphatase calcineurin. The PP2A-like phosphatase in extracts from pertussis toxin-modified PC12 cells eluted from a Mono Q column at a higher ionic strength than did the PP2A-like phosphatase in extracts from control cells. After incubation in Ca2+, the PP2A-like phosphatase in extracts from pertussis toxin-modified cells eluted from a Mono Q column at the same ionic strength as did the PP2A-like phosphatase in extracts from control cells. These results indicate that the effect of pertussis toxin on this PP2A-like activity results from the phosphorylation of either one of the subunits of the PP2A-like phosphatase or a protein that when phosphorylated binds to and inhibits this phosphatase. Pertussis toxin modification did not result in the phosphorylation of the catalytic subunit of PP2A. Because phosphorylation regulates the activities of many enzymes and cell surface receptors, a pertussis toxin-induced decrease in PP2A activity could alter signaling pathways and other cellular processes in which G proteins are not directly involved.
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PMID:Pertussis toxin modification of PC12 cells inhibits a protein phosphatase 2A-like phosphatase. 964 72


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