UMLS:C0043167 - FACTA Search

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

The sulfhydryl alkylating agent N-ethylmaleimide (NEM) was used to probe the possible modulation of calcium current (ICa) by G-proteins in identified neurons of Aplysia californica. ICa recorded with conventional two-electrode voltage clamp was irreversibly suppressed by bath applied NEM in a concentration-dependent manner. This effect was fully blocked by addition of dithiothreitol or intracellular pressure injection of GTP gamma S but was unaffected by pre-treatment with pertussis toxin. These findings suggest that NEM inhibits ICa by causing persistent activation of an inhibitory G-protein in the absence of applied agonist. It appears that alkylation of key cysteine residues involved in G-protein deactivation underlie this effect.
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PMID:An N-ethylmaleimide-sensitive G-protein modulates Aplysia Ca2+ channels. 133 63

An egg-specific NADase has been purified to homogeneity from the ovotestis of the opisthobranch mollusk Aplysia californica. Unlike other NADases, the Aplysia enzyme generates primarily cyclic-ADP-ribose (cADPR) rather than ADP-ribose from NAD. cADPR has been shown to stimulate the release of Ca2+ from microsomes prepared from sea urchin egg and, when injected into intact eggs, to activate the cortical reaction, multiple nuclear cycles, and DNA synthesis. The Aplysia enzyme was initially identified as an inhibitor of cholera and pertussis toxin-catalyzed ADP-ribosylation. By the use of an NADase assay, it was purified from the aqueous-soluble fraction of ovotestis by sequential column chromatography. The enzyme has an apparent molecular mass of 29 kDa, a Km for NAD of 0.7 mM, and a turnover rate of approximately 27,000 mol NAD.min-1.mol enzyme-1 at 30 degrees C. Monoclonal antibodies were generated to the NADase. Immunoblots of two-dimensional gels revealed multiple isoforms of the enzyme, with pls ranging from 8.1 to 9.8. The multiple isoforms were resolved with a cation exchange high-pressure liquid chromatography column and shown to generate cADPR. Immunohistochemical analysis of cryostat sections of Aplysia ovotestis shows that the enzyme is specific to the eggs and restricted to large 5- to 10-microns granules or vesicles. To date the cADPR-generating enzyme activity has been identified in various organisms, including mammals. The Aplysia enzyme is the first example in which the enzyme that generates cADPR has been purified. All of the available evidence indicates that this NADase is a second-messenger enzyme, implying that other NADases may serve a similar function.
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PMID:Purification and characterization of a molluscan egg-specific NADase, a second-messenger enzyme. 165 Feb 54

Two components of synaptic terminals that may be involved in transmitter release are synaptophysin (p38) and G proteins. In order to study release mechanisms in Aplysia californica we have prepared subcellular fractions from nervous tissue to characterize and localize these components. We identify Aplysia synaptophysin by Western blot analysis with monoclonal antibody SY38, find that it is enriched in synaptic vesicles, and, using immunocytochemistry, show that it is localized to neuropil. These characteristics indicate that Aplysia synaptophysin is closely related to mammalian synaptophysin; it appears to be much smaller, however, having a mass of 28 kDa instead of 38 kDa. We previously determined that G protein subunits in Aplysia are enriched in neuropil and synaptosomes. We now show that within the synaptic terminal the pertussis toxin-sensitive alpha-subunit as well as the beta-subunit are associated with plasma membrane using [32P]ADP-ribosylation and Western blotting with G protein-specific antibodies.
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PMID:Characterization of synaptophysin and G proteins in synaptic vesicles and plasma membrane of Aplysia californica. 210 63

1. The LTC4 synthase activity is rich in the microsomal fraction of the guinea pig spleen and lung. The enzyme was partially purified from the guinea pig lung and separated from the microsomal glutathione S-transferase (GST), by column chromatograpy. The enzyme has a specific activity of 40 nmol/min.mg, and acts preferentially on 5, 6-LTA4. Various types of cytosolic GSTs utilize all types of LTA4 isomers (5,6-, 11,12- and 14,15-LTA4) almost to the same extent, and methyl ester forms are better substrates for GST. 2. Two different types of GSTs (Yn1n1 and P) were purified from rat brain cytosol, to homogeneity. Because both types have a high LTC4 synthase activity, they may participate in the LTC4 production in the rat brain. 3. LTC4, produced in the guinea pig atrium, stimulates pertussis toxin (IAP)-sensitive muscarinic K+ channel (IK.ACh). The negative chronotropic action of alpha 1-adrenergic agonist might relate to the production of arachidonate lipoxygenase metabolites. These results together with the findings in Aplysia sensory neurons, suggest a novel mode of eicosanoid actions.
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PMID:Biosynthesis and functions of leukotriene C4. 214

alpha-Bag cell peptide (alpha-BCP), one of several secreted peptides encoded in the precursor to the egg-laying hormone (proELH) of the neurosecretory bag cells of Aplysia, has been variously reported to have autoexcitatory or autoinhibitory effects on the cells which secrete it. Since we had found previously that alpha-BCP reduces stimulated cAMP levels in intact bag cells, an effect that would be consistent with electrophysiological inhibition, we investigated the direct effect of the peptide on adenylate cyclase in bag cell membrane preparations. alpha-Bag cell peptide did not affect basal adenylate cyclase activity, but reduced forskolin-stimulated activity by about 30%. The potency of the peptide in this assay was within the range reported for observable physiological effects: half-maximal inhibition was seen at approximately 100 nM peptide. Both basal and forskolin-stimulated enzyme activity were dependent on GTP, and the inhibitory effect of alpha-BCP was inversely dependent on the nucleotide. The non-hydrolyzable analogue, GTP-gamma-S, stimulated both basal and forskolin-stimulated enzyme activity and enhanced alpha-BCP's effect to the extent that the peptide completely inhibited forskolin's stimulation of the enzyme. The peptide's effect could be blocked by pretreatment with pertussis toxin. We conclude that alpha-BCP inhibits bag cell adenylate cyclase, an effect which is consistent with an autoinhibitory role in bag cell function. Moreover, this inhibition appears to be mediated by a GTP-binding protein.
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PMID:Alpha-bag cell peptide inhibits bag cell adenylate cyclase via a GTP-dependent mechanism. 216 71

Muscarinic receptors of cardiac pacemaker and atrial cells are linked to a potassium channel (IK.ACh) by a pertussis toxin-sensitive GTP-binding protein. The dissociation of G-proteins leads to the generation of two potential transducing elements, alpha-GTP and beta gamma. IK.ACh is activated by G-protein alpha- and beta gamma-subunits applied to the intracellular surface of inside-out patches of membrane. beta gamma has been shown to activate the membrane-bound enzyme phospholipase A2 in retinal rods. Arachidonic acid, which is produced from the action of phospholipase A2 on phospholipids, is metabolized to compounds which may act as second messengers regulating ion channels in Aplysia. Muscarinic receptor activation leads to the generation of arachidonic acid in some cell lines. We therefore tested the hypothesis that beta gamma activates IK.ACh by stimulation of phospholipase A2. When patches were first incubated with antibody that blocks phospholipase A2 activity, or with the lipoxygenase inhibitor, nordihydroguaiaretic acid, beta gamma failed to activate IK.ACh. Arachidonic acid and several of its metabolites derived from the 5-lipoxygenase pathway, activated the channel. Blockade of the cyclooxygenase pathway did not inhibit arachidonic acid-induced channel activation. We conclude that the beta gamma-subunit of G-proteins activates IK.ACh by stimulating the production of lipoxygenase-derived second messengers.
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PMID:G-protein beta gamma-subunits activate the cardiac muscarinic K+-channel via phospholipase A2. 249 40

We studied G proteins and regulation of adenylate cyclase in nervous tissue and muscle of Aplysia using bacterial toxin-catalyzed ADP-ribosylation. We identified Gs alpha, a Mr 45,000 cholera toxin substrate, Go alpha, a Mr 40,000 pertussis toxin substrate, and G beta (Mr 37,000) by Western blot analysis with antisera specific for bovine brain G protein subunits. Partial proteolysis suggests that the neuronal pertussis toxin substrates are heterogeneous. The concentration of these substrates in membranes from Aplysia ganglia is similar to that of rat, squid and Helix; in Aplysia nervous tissue, G protein subunits are most enriched in synaptosomes and neuropil. The stimulation of adenylate cyclase by serotonin (5-HT), low concentrations of GTP-gamma-S, and cholera toxin, and the inhibition by high concentrations of GTP-gamma-S that is blocked by pertussis toxin indicate that both a Gs and a Gi protein regulate the Aplysia enzyme. These results support the idea that G proteins in Aplysia are important in regulating synaptic function.
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PMID:G proteins in Aplysia: biochemical characterization and regional and subcellular distribution. 249 63

1. Neurons with a receptor responded to FMRFamide (Phe-Met-Arg-Phe-NH2) were identified in the ganglion of Aplysia kurodai. Ionic mechanism and channel gating system of the FMRFamide-induced responses were investigated by current clamp and voltage clamp methods. 2. The reversal potential of FMRFamide-induced response exactly coincided with the equilibrium potential for K+. This proved that the response was produced by a specific increase in membrane permeability toward K+, exclusively. 3. The FMRFamide-induced response was not affected by the inhibitors for Ca2(+)-activated K(+)-current, i.e., TEA, apamin, and EGTA. This excluded a possibility that FMRFamide-activated K(+)-channel is a Ca2(+)-activated K(+)-channel. 4. Intracellular injection of pertussis-toxin (PTX) caused no change in either resting potential or conductance, but it irreversibly blocked the FMRFamide-induced outward current within 30 min. Similarly applied cholera toxin (CTX) showed no effect on the FMRF-amide response. 5. Intracellular application of guanosine 5'-0-(2-thiodiphosphate) (GDP beta S) caused no effect on either resting potential or conductance, but it blocked the FMRFamide-induced K(+)-current within 3 min. 6. Intracellular application of guanosine 5'-0-(3-thiotriphosphate) (GTP gamma S) alone induced a slowly developing, irreversible outward current associated with an increase in membrane conductance. However, repetitive applications of FMRFamide immediately after the start of GTP gamma S application markedly facilitated the effect of GTP gamma S on the resting membrane. 7. Intracellular application of either adenylate cyclase inhibitor (3'-deoxyadenosine) or A-kinase inhibitor (H-8) did not affect the FMRFamide-induced response. 8. It was concluded that the FMRFamide-induced K(+)-current is mediated by PTX-sensitive GTP-binding protein Gi, Go or Gk. It was also suggested that the FMRFamide-induced response is produced independently of the changes in intracellular Ca2+ or cyclic AMP.
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PMID:[The gating mechanism of K(+)-channels coupled to the FMRFamide receptor in the ganglion cells of Aplysia]. 255 80

The neurotransmitters histamine, dopamine and the peptide Phe-Met-Arg-Phe-NH2 (FMRFa) cause presynaptic inhibition in the nervous system of the marine mollusk Aplysia Californica by combined down-modulation of a Ca++ conductance and up-modulation of a K+ conductance. The action of FMRFa on the S-type K+ channels of Aplysia sensory neurons is mediated by a metabolite of the 12-lipoxygenase pathway of arachidonic acid, possibly 12-HPETE. A Pertussis toxin-sensitive GTP binding protein couples FMRFa receptor to the activation of the arachidonic cascade. Once produced, 12-HPETE does not require ATP- or GTP-dependent processes to act on the K+ channels, but it may directly modulate the channel via an external membrane receptor. Based on this observation, a role for eicosanoids as possible intercellular messengers in the C.N.S. is discussed.
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PMID:Arachidonic acid metabolites as mediators of synaptic modulation. 256 69

The role of guanine nucleotide-binding proteins (G proteins) in the cAMP-dependent action of serotonin (5-HT) and the antagonistic action of the neuropeptide Phe-Met-Arg-Phe-NH2 (FMRF-amide), mediated by the lipoxygenase metabolites of arachidonic acid, was investigated in Aplysia sensory neurons. Intracellular injection of guanosine 5'-[gamma-thio]triphosphate (GTP[gamma-S]) mimics the hyperpolarizing action of FMRF-amide due to activation of the S K+ current and alters the transient response to FMRF-amide into an irreversible (or only partially reversible) response. At higher concentrations, GTP[gamma-S] occludes the response to FMRF-amide. Injection of activated pertussis toxin inhibits the response to FMRF-amide but not to 5-HT. Injection of guanosine 5'-[beta-thio]diphosphate inhibits the response to FMRF-amide by approximately equal to 50% and completely blocks the response to 5-HT. Three lines of evidence suggest that the FMRF-amide-activated G protein is involved at an early stage of the arachidonic acid cascade, prior to the release of arachidonate. (i) Pertussis toxin injection blocks the hyperpolarizing response to FMRF-amide but not to exogenously applied arachidonic acid. (ii) Two blockers of the arachidonic acid cascade inhibit the hyperpolarizing responses to both FMRF-amide and GTP[gamma-S] (and unmask a 5-HT-like depolarizing response to the nucleotide). (iii) Concentrations of GTP[gamma-S] that alter the kinetics of the FMRF-amide response have no effect on the hyperpolarizing response to arachidonic acid. We conclude that a pertussis toxin-sensitive G protein most likely acts to couple the FMRF-amide receptor to phospholipase activation and arachidonic acid release, whereas a pertussis toxin-insensitive G protein couples the 5-HT receptor to adenylate cyclase.
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PMID:Role of two different guanine nucleotide-binding proteins in the antagonistic modulation of the S-type K+ channel by cAMP and arachidonic acid metabolites in Aplysia sensory neurons. 284 23

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