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)

Despite their widespread occurrence in the central nervous system, interactions between co-localized transmitters and their receptors remain poorly understood. Noradrenergic neurons of the nucleus locus coeruleus contain the peptide co-transmitter neuropeptide Y (refs 1,2). In locus coeruleus cells, stimulation of alpha2-adrenoceptors 3,4 or opioid mu-receptors 5,6 increases a potassium conductance and thereby leads to hyperpolarization and inhibition of spontaneous firing. Coupling between these receptors and the inward rectifying K+ channels involves a pertussis toxin-sensitive GTP-binding protein (Gi or Go)7. Here we investigate whether the neuropeptide Y and alpha2-receptors of locus coeruleus neurons interact with one another. When administered alone, neuropeptide Y reduces the discharge of action potentials, probably by increasing the permeability of the membrane to potassium ions through the activation of a G protein; this effect is reduced in the presence of alpha2-adrenoceptor antagonists. Moreover, the peptide selectively increases the hyperpolarizing effect of alpha2-agonists, but does not enhance responses to opioid mu-agonists. We suggest that noradrenaline and its co-transmitter neuropeptide Y stimulate separate receptors, which influence each other in a specific way.
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PMID:Interaction between neuropeptide Y and noradrenaline on central catecholamine neurons. 196 29

Previous studies have shown that norepinephrine (NE) and the beta-adrenoceptor agonist, isoproterenol (I), enhance fluid absorption (JV) in isolated, perfused proximal convoluted tubule segments (PCT). Pretreatment of PCT with the beta-adrenoceptor antagonist, propranolol, inhibited the action of NE and produced a significant decline in JV, suggesting modulation of JV by both alpha- and beta-adrenoceptors. The present studies further characterize the alpha-adrenoceptor control of JV in isolated perfused PCT using specific agonists and antagonists. Basal JV declined significantly with the addition of the alpha 2-adrenoceptor agonist, clonidine (10(-4) M), to the bath; however, it was unchanged with the addition of the alpha 1-adrenoceptor agonist, methoxamine (10(-6) or 10(-4) M). With the addition of 10(-6) M isoproterenol JV increased significantly, and returned to control values with the subsequent addition of clonidine (10(-6) or 10(-4) M). Pretreatment of PCT with the alpha 2-adrenoceptor antagonist, yohimbine (10(-5) M), or with pertussis toxin (100 ng/ml) did not interfere with the stimulation of JV by isoproterenol, but abolished the inhibition of isoproterenol-stimulated JV by clonidine. Thus, clonidine inhibits JV in PCT via an alpha 2-adrenoceptor. This effect is mediated by a pertussis toxin inhibitable GTP-binding protein, but not one that is coupled to adenylyl cyclase.
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PMID:Clonidine inhibits fluid absorption in the rabbit proximal convoluted renal tubule. 197 62

Acetylcholine (ACh) can inhibit calcium currents (ICa) in nerve cells by activating muscarinic ACh receptors (mAChR). There are several different genetic subtypes of mAChR. It is not known which subtype(s) are responsible for ICa inhibition. To resolve this issue, we measured ICa inhibition by ACh with patch-clamp recording, by using Ba2+ as charge carrier, in clones of NG108-15 neuroblastoma x glioma hybrid cells transfected with DNA for mAChRI, II, III and IV. Control (non-transfected) cells showed a mean maximum inhibition of peak ICa of 12.8 +/- 1.8% (n = 36) at 1 mM ACh. No consistent increase in inhibition was detected in vector-transfected cells, or in cells transformed to express mAChRI or mAChRIII. In contrast, inhibition was significantly increased in clones transformed to express mAChRII or mAChRIV. Inhibition was not correlated with the number of muscarinic receptors as determined by 3H-quinuclidinyl benzilate binding. Inhibition in both control and transfected cells was prevented by pretreatment with pertussis toxin (PTx). Inhibition persisted in the presence of extracellular or intracellular dibutyryl cyclic AMP, and hence is not because of inhibition of adenylate cyclase. We conclude that the inhibition of neuronal ICa is mediated preferentially by mAChRII and mAChRIV, via a PTx-sensitive GTP-binding protein.
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PMID:Selective coupling of different muscarinic acetylcholine receptors to neuronal calcium currents in DNA-transfected cells. 198 Jul 42

Receptors stimulating phospholipase C do so through heterotrimeric GTP-binding proteins to produce two second messengers, inositol 1,4,5-trisphosphate (InsP3) and diacylglycerol. In spite of the detailed understanding of phospholipase C structure and phosphatidyl inositol signalling, the identity of the GTP-binding protein involved is so far unknown. To address this issue, we have used the Xenopus oocyte in which muscarinic receptors couple to phospholipase C through a pertussis toxin-sensitive GTP-binding protein. In this cell, InsP3 mobilizes intracellular Ca2+ to evoke a Cl- current. The magnitude of this Cl- current is proportional to the amount of InsP3 in the cell, and therefore can be used as an assay for InsP3 production. We report here that the activated alpha-subunit of the GTP-binding protein GO, when directly injected into oocytes, evokes a Cl- current by mobilizing Ca2+ from intracellular InsP3-sensitive stores. We also show that holo-GO, when injected into oocytes, can specifically enhance the muscarinic receptor-stimulated Cl- current. These data indicate that GO can serve as the signal transducer of the receptor-regulated phospholipase C in Xenopus oocytes.
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PMID:Go protein as signal transducer in the pertussis toxin-sensitive phosphatidylinositol pathway. 210 59

Cloning of a complementary DNA (cDNA) for Gz alpha, a newly appreciated member of the family of guanine nucleotide-binding regulatory proteins (G proteins), has allowed preparation of specific antisera to identify the protein in tissues and to assay it during purification from bovine brain. Additionally, expression of the cDNA in Escherichia coli has resulted in the production and purification of the recombinant protein. Purification of Gz from bovine brain is tedious, and only small quantities of protein have been obtained. The protein copurifies with the beta gamma subunit complex common to other G proteins; another 26-kDa GTP-binding protein is also present in these preparations. The purified protein could not serve as a substrate for NAD-dependent ADP-ribosylation catalyzed by either pertussis toxin or cholera toxin. Purification of recombinant Gz alpha (rGz alpha) from E. coli is simple, and quantities of homogeneous protein sufficient for biochemical analysis are obtained. Purified rGz alpha has several properties that distinguish it from other G protein alpha subunit polypeptides. These include a very slow rate of guanine nucleotide exchange (k = 0.02 min-1), which is reduced greater than 20-fold in the presence of mM concentrations of Mg2+. In addition, the rate of the intrinsic GTPase activity of Gz alpha is extremely slow. The hydrolysis rate (kcat) for rGz alpha at 30 degrees C is 0.05 min-1, or 200-fold slower than that determined for other G protein alpha subunits. rGz alpha can interact with bovine brain beta gamma but does not serve as a substrate for ADP-ribosylation catalyzed by either pertussis toxin or cholera toxin. These studies suggest that Gz may play a role in signal transduction pathways that are mechanistically distinct from those controlled by the other members of the G protein family.
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PMID:Gz, a guanine nucleotide-binding protein with unique biochemical properties. 210 21

Signaling between embryonic myoblasts involves prostaglandin metabolism, the activation of a membrane receptor and changes in polyphosphatidyl inositol metabolism. Many of these membrane-localized events occur between 33 to 35 h of differentiation, concomitant with a dramatic change in membrane organization, in myoblast aggregates in culture. Since many receptors affect inositol phosphate metabolism by activating a GTP-binding protein (G protein), we asked if there was evidence for such a protein in myogenic signaling. We show that during the period of differentiation in culture when prostaglandin is needed to bind to a transient receptor, a pertussis toxin-sensitive but cholera toxin-insensitive G protein must act. If this activation is blocked, the characteristic change in myoblast cell adhesion and subsequent membrane fusion do not occur. We suggest that a G protein couples the activated prostaglandin receptor and the change in polyphosphatidyl inositol metabolism and that this membrane transduction step is necessary for subsequent membrane differentiation events during myogenesis.
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PMID:Requirement for G protein activity at a specific time during embryonic chick myogenesis. 210 25

Purified preparations of human erythrocyte G-proteins contain a 43 kDa pertussis toxin substrate which appears to be the alpha-subunit of a heterotrimeric GTP-binding protein. The 43 kDa protein is recognized by antisera that are sequence-specific for peptides encoding a sequence common to all 39-53 kDa G-protein alpha-subunits. G alpha o-specific antiserum did not recognize 43 or 40-41 kDa alpha-subunits. AS/6, which recognizes the alpha i proteins, recognized 43 kDa as well as 40-41 kDa proteins. Of the three antisera specific for individual members of the alpha i family, only the Gi3-specific antiserum recognized the 43 kDa erythrocyte G-protein. However, 40-41 kDa forms of all three alpha is are present. These observations indicate that human erythrocytes contain a novel 43 kDa form of Gi3.
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PMID:A 43 kDa form of the GTP-binding protein Gi3 in human erythrocytes. 210 51

The contribution of the GTP-binding protein, Gi, to EGF, phorbol dibutyrate (PdBu)-, and insulin-stimulated DNA synthesis was examined in BALB/c3T3 cells. Pertussis toxin inhibited DNA synthesis by each agonist, particularly at suboptimal agonist concentrations, but the inhibition could be partially overcome with higher agonist concentrations and combinations of these agonists. This suggested that (1) some, but not all, of the mitogenic signals for all three agonists were transduced by Gi (2) Gi may be activated by post-receptor mechanisms involving protein kinase C. Gi alpha-specific antibodies and ADP-ribosylation by pertussis toxin using 32P-NAD each labelled a single protein band, representing one or more species of Gi alpha. Pertussis toxin treatment increased the synthesis of Gi alpha. These results are discussed in relation to possible direct effects of Gi alpha on nuclear control during division.
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PMID:Pertussis toxin inhibits EGF-, phorbol ester- and insulin-stimulated DNA synthesis in BALB/c3T3 cells: evidence for post-receptor activation of Gi alpha. 210 75

The motility of human neutrophils, which is of vital importance for the role of these cells in host defense, is based on rapid and dynamic changes of the filamentous actin F-actin) network. Consequently, to understand how neutrophils move and ingest particles, we need to know how polymerization and depolymerization of actin are regulated. Previous studies by several investigators have, based on indirect evidence obtained with pertussis toxin, suggested a role for GTP-binding protein(s) (G protein) in chemotaxis-induced, but not phagocytosis-induced, reorganization of the F-actin network. The aim of the present investigation was to study the effects of directly activated G proteins (i.e., without prior ligand-receptor complex formation) on the F-actin content in human neutrophils. AlF4- induced a pronounced and sustained increase in F-actin in intact neutrophils. This effect coincided with an increase in cytosolic free Ca2+, indicating that phospholipase C and the subsequent transduction mechanism were also activated. Inhibition of phospholipase C activity by extensive depression of the cytosolic free Ca2+ level (less than 20 nM) only marginally affected the AlF4(-)-induced rise in F-actin content. The major part of the AlF4(-)-induced rise in F-actin content was also resistant to pertussis toxin, suggesting that pertussis toxin-insensitive G proteins in neutrophils are also able to trigger actin polymerization. The specificity of AlF4- in activating G proteins was also tested in permeabilized cells. In this case the effect was more rapid and could be totally abolished by guanosine 5'-[beta-thio]diphosphate. In analogy, in permeabilized cells guanosine 5'-[gamma-thio]triphosphate mimicked the effect of AlF4- on actin polymerization, and the effect induced by this nonhydrolyzable GTP analogue could also be totally abolished by guanosine 5'-[beta-thio]diphosphate. In summary, the present data support our previous hypothesis that G proteins are intimately linked to actin polymerization in human neutrophils.
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PMID:Involvement of GTP-binding proteins in actin polymerization in human neutrophils. 210 19

The dormant O2(-)-generating oxidase in plasma membranes from unstimulated neutrophils becomes activated in the presence of arachidonate and a multicomponent cytosolic fraction. This process is stimulated by nonhydrolyzable GTP analogues and may involve a pertussis toxin insensitive GTP-binding protein. Our studies were designed to characterize the putative GTP-binding protein, localizing it to either membrane or cytosolic fraction in this system. Exposure of the isolated membrane fraction to guanosine-5'-(3-O-thio)triphosphate (GTP gamma S), with or without arachidonate, had no effect on subsequent NADPH oxidase activation by the cytosolic fraction. Preexposure of the cytosolic fraction to GTP gamma S alone did not enhance activation of the membrane oxidase. However, preexposure of the cytosol to GTP gamma S then arachidonate caused a four-fold enhancement of its ability to activate the membrane oxidase. This enhancement was evident after removal of unbound GTP gamma S and arachidonate, and was not augmented by additional GTP gamma S during membrane activation. A reconstitution assay was developed for cytosolic component(s) responsible for the GTP gamma S effect. Cytosol preincubated with GTP gamma 35S then arachidonate was fractionated by anion exchange chromatography. A single peak of protein-bound GTP gamma 35S was recovered that had reconstitutive activity. Cytosol preincubated with GTP gamma 35S alone was similarly fractionated and the same peak of protein-bound GTP gamma 35S was observed. However, this peak had no reconstitutive activity. We conclude that the GTP-binding protein regulating this cellfree system is located in the cytosolic fraction. The GTP gamma S-liganded form of this protein may be activated or stabilized by arachidonate.
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PMID:A neutrophil GTP-binding protein that regulates cell free NADPH oxidase activation is located in the cytosolic fraction. 211 50


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