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)

Using a recently developed canine primary enteric endocrine cell culture system, we have investigated the role of adenosine 3',5'-cyclic monophosphate (cAMP) in mediating the release of neurotensin and enteroglucagon. Epinephrine-stimulated peptide release was concomitant with an increase in cAMP accumulation. Carbachol and somatostatin (SRIF) markedly inhibited the epinephrine effect on both peptide release and cAMP content. The addition of 3-isobutyl-1-methylxanthine potentiated epinephrine-stimulated peptide release without altering the relative inhibition by carbachol and SRIF, suggesting that these agents did not inhibit endocrine cell function by increasing phosphodiesterase activity. To determine the role of cAMP production in mediating inhibition of peptide release, cells were incubated with the bacterial toxin, pertussis toxin (PT). In cultures pretreated with PT, carbachol inhibition of both peptide release and cAMP accumulation was completely reversed. In contrast, SRIF inhibition of cAMP content was completely reversed after PT treatment, but inhibition of peptide release was only partially reversed. Additionally, toxin treatment only partially reversed SRIF inhibition of forskolin- and calcium ionophore-stimulated peptide release. These data suggest that muscarinic cholinergic inhibition of neurotensin and enteroglucagon release is mediated entirely through the guanine nucleotide-binding protein (Ni) or a similar toxin-sensitive, GTP-binding protein. SRIF-inhibited peptide release is mediated partially through a toxin-sensitive substrate, as evidenced by PT reversal of reduced cAMP levels. SRIF may also inhibit neurotensin and enteroglucagon release by a cAMP-independent pathway that is not coupled to Ni or a similar PT-sensitive, GTP-binding protein.
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PMID:Somatostatin and muscarinic inhibition of canine enteric endocrine cells: cellular mechanisms. 244 8

Neuropeptide Y (NPY) inhibited the Ca2+ current (ICa) in rat dorsal root ganglion neurons in vitro. NPY inhibited the sustained ICa evoked by steps to 0 mV from a holding potential of -40 mV and the inactivating ICa, which was additionally evoked from a more negative holding potential of -80 mV. The effects of NPY on both phases of the ICa were abolished if cells were first treated with pertussis toxin (PTX). When a combination of GTP and the purified alpha-subunit of the guanine nucleotide-binding protein Go was perfused into PTX-treated cells, the inhibitory effects of NPY on the ICa reappeared in a time-dependent fashion. GTP or alpha-subunit perfused separately was relatively ineffective. The effects of NPY reappeared more rapidly at higher concentrations of alpha o. Chronic treatment of these cells with phorbol ester "down-regulates" protein kinase C (PKC) and reduces inhibition of the sustained current by NPY. In PTX-treated cells in which PKC had been removed by down-regulation, inhibition of ICa was also reconstituted following the perfusion of GTP/alpha o. Under these circumstances, NPY inhibited the transient phase of the ICa more than the sustained phase. These results indicate that Go, the major PTX substrate in the central nervous system, may normally mediate the inhibitory effects of NPY receptors on dorsal root ganglion Ca2+ channels.
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PMID:Guanine nucleotide-binding protein Go-induced coupling of neuropeptide Y receptors to Ca2+ channels in sensory neurons. 245 65

Substance P excites neurons by suppressing inward rectification channels. We have investigated whether the substance P receptor interacts with the inward rectification channels through a guanine nucleotide-binding protein (G protein) by using dissociated cultured neurons from the nucleus basalis of newborn rats. During intracellular application of guanosine 5'-[gamma-thio]triphosphate and 5'-guanylyl imidodiphosphate, hydrolysis-resistant GTP analogues that irreversibly stimulate G proteins, substance P application almost irreversibly suppressed the inward rectification channels. Pretreatment with pertussis toxin did not significantly influence substance P action. Intracellular application of cAMP and 3-isobutyl-1-methylxanthine or of 9-(tetrahydro-2-furyl)adenine (SQ 22,536), an inhibitor of adenylate cyclase, did not alter the substance P-induced response. We conclude that the inhibition of inward rectification channels by substance P is mediated through a G protein. However, the effect is not mediated through adenylate cyclase or the cAMP system. This G protein, which is insensitive to pertussis toxin, could be an unidentified G protein.
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PMID:Pertussis toxin-insensitive G protein mediates substance P-induced inhibition of potassium channels in brain neurons. 245 66

Radioligand binding studies disclosed one class of high affinity atrial natriuretic factor (ANF) receptors on human fibroblast membranes (Kd = 66 pM; maximum number of binding sites [Bmax] = 7,000 sites/cell). ANF increased cellular cyclic guanosine monophosphate (cGMP) content and suppressed isoproterenol- and PGE1-elevated, but not basal, cAMP content. Pertussis toxin pretreatment, which maximally ADP-ribosylated Gi, the guanine nucleotide-binding protein that couples inhibitory receptors to adenylate cyclase and blocks receptor-mediated inhibition of adenylate cyclase, did not interfere with ANF suppression of isoproterenol- or PGE1-elevated cellular cAMP content. Preliminary incubation of fibroblasts with 8-bromo cGMP or phosphodiesterase inhibitors, including 3-isobutyl-1-methylxanthine, Ro 20-1724, and cilostamide, however, prevented the ANF suppression of cAMP. MB 22948, an inhibitor that is partially selective for cGMP phosphodiesterase, did not block the effect of ANF. We conclude that in these cells, unlike other systems, ANF reduces cAMP content by activating a phosphodiesterase rather than by inhibiting adenylate cyclase.
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PMID:Atrial natriuretic factor reduces cyclic adenosine monophosphate content of human fibroblasts by enhancing phosphodiesterase activity. 245 32

To clarify the possible role of a guanine nucleotide-binding protein (G protein) in the signal transducing system activated by cholecystokinin (CCK), actions of CCK on rat pancreatic acini were compared with those of fluoride, a well-known activator of stimulatory (Gs) or inhibitory (Gi) G protein. When acini were incubated with increasing concentrations of either CCK-octapeptide (CCK8) or NaF, a maximal stimulation of amylase release from acini occurred at 100 pM CCK8 or 10 mM NaF, respectively; this secretory rate decreased as CCK8 or NaF concentration was increased. NaF caused an increased in cytoplasmic Ca2+ concentration from the internal Ca2+ store and stimulated accumulation of inositol phosphates in acini, as observed with CCK. However, NaF-stimulated Ca2+ mobilization had a lag period before detectable stimulation and was potentiated by AlCl3. These stimulatory effects of NaF appeared to be independent of cellular adenosine 3',5'-cyclic monophosphate (cAMP). Pretreatment with cholera toxin or pertussis toxin did not affect CCK8- or NaF-induced inositol phosphate accumulation or Ca2+ mobilization. 5'-Guanylimidodiphosphate activated the generation of inositol phosphates in the [3H]inositol-labeled pancreatic acinar cell membrane preparation, with half-maximal and maximal stimulation at 1 and 10 microM, respectively. Furthermore, the effects of submaximal CCK concentrations on inositol phosphate accumulation in membranes were markedly potentiated in the presence of 100 microM GTP, which alone was ineffective. Combined findings of the present study strongly suggest that pancreatic CCK receptors are probably coupled to the activation of polyphosphoinositide (PI) breakdown by a G protein, which appears to be fluoride sensitive but is other than Gs- or Gi-like protein.
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PMID:G protein in stimulation of PI hydrolysis by CCK in isolated rat pancreatic acinar cells. 246 Oct 94

This study examines the mechanism of guanine nucleotide-binding protein (G protein) coupling of receptors to phospholipase C. The Xenopus oocyte has a muscarinic receptor-activated Cl- current that is mediated by inositol 1,4,5-trisphosphate. Modulation of the muscarinic receptor-evoked Cl- current was examined under voltage clamp in oocytes injected with resolved G-protein subunits. The presence of an alpha subunit of G proteins in oocytes was shown by pertussis toxin-labeling of a 41-kDa band in oocyte membranes. The presence of the beta subunit of G proteins was demonstrated by immunoblotting experiments with an antiserum (U-49) that is specific for the beta subunit. Pertussis toxin treatment of oocytes resulted in the uncoupling of muscarinic receptors from activation of the Cl- current. Cells microinjected with 1.5 ng of human erythrocyte beta gamma-subunit complex or 1.0 ng of bovine brain beta gamma-subunit complex showed approximately a 95% reduction in the evoked Cl- current. Cells injected with equal volumes of protein storage vehicle showed no change in response. Cells injected with boiled beta gamma subunits, bovine serum albumin, or resolved alpha subunits also showed no reduction in response. Cells injected with various concentrations of beta gamma subunits showed a concentration dependence with half-maximal inhibition of the muscarinic activated Cl- current at about 10 nM. Cells injected with 1.0 ng of bovine brain beta gamma subunits could not respond to bath-applied agonist but could generate the Cl- current on intracellular injection of inositol 1,4,5-trisphosphate. These observations suggest that there is a G protein responsible for muscarinic receptor-mediated signal transduction through phospholipase C and that it is an alpha beta gamma heterotrimer. It appears that the mode of action of the G protein in the phospholipase C system may be similar to that of the hormone-activated adenylyl cyclase.
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PMID:Beta gamma subunits of GTP-binding proteins inhibit muscarinic receptor stimulation of phospholipase C. 246 57

The presence of GTP-binding proteins (G proteins) has been studied in murine adult choroid plexuses and cultured fetal choroidal or hypothalamic ependymal cells by ADP-ribosylation catalyzed by Bordetella pertussis toxin (PTX) and by immunodetection using affinity-purified polyclonal antibodies against the alpha subunit of the Go protein (Go alpha), the major brain G protein. ADP-ribosylation with 32P-NAD and PTX of choroid plexus revealed an intense labeling at the 40 kDa level in addition to the known PTX-substrates at 41 kDa (Gi alpha) and 39 kDa (Go alpha). This 40 kDa substrate was also predominant in cultured ependymal cells. However, a positive immunoreactivity with the anti-Go alpha antibodies was detected at the level of the 39 kDa faster component, indicating the presence of Go alpha in both choroid plexuses and cultured ependymal cells. In thin frozen sections as well as in cultured cells, Go alpha was mainly immunolocalized at the apical pole of choroidal ependymocytes and in the kinocilia of ciliated ependymal cells. At the ultrastructural level, using gold immunoprobes, the immunoreactivity of a Go alpha-like protein was detected on the cytoplasmic face of the apical plasma membrane, coated pits and vesicles, and in the apical cytoplasmic matrix. In ciliated ependymal cells, the positive immunostaining displayed a dotted pattern at the surface of demembranated axonema of apical kinocilia. These findings strongly suggest that G proteins, especially Go, are involved in transducing chemical signals that modulate traffic and exchanges between cerebrospinal fluid and ependyma through the apical membrane of ependymocytes.
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PMID:Apical localization of the alpha subunit of GTP-binding protein Go in choroidal and ciliated ependymocytes. 249 7

The predominant guanine nucleotide-binding protein (G-protein) of bovine lung membranes, termed GL, has been purified and compared biochemically, immunochemically and functionally with Gi and Go purified from rabbit brain. The purified GL appeared to have a similar subunit structure to Gi and Go, being composed of alpha, beta and possibly gamma subunits. On Coomassie Blue-stained SDS/polyacrylamide gels and immunoblots, the alpha subunit of GL (GL alpha) displayed an intermediate mobility (40 kDa) between those of Gi and Go (Gi alpha and Go alpha). GL alpha was [32P]ADP-ribosylated in the presence of pertussis toxin and [32P]NAD+. Analysis of [32P]ADP-ribosylated alpha subunits by SDS/polyacrylamide-gel electrophoresis and isoelectric focusing showed that GL alpha was distinct from Gi alpha and Go alpha, but very similar to the predominant G-protein in neutrophil membranes. Immunochemical characterization also revealed that GL was distinct from Gi and Go, but was indistinguishable from the G-protein of neutrophils, which has been tentatively identified as Gi2 [Goldsmith, Gierschik, Milligan, Unson, Vinitsky, Maleck & Spiegel (1987) J. Biol. Chem. 262, 14683-14688]. In functional studies, higher Mg2+ concentrations were required for guanosine 5'-[gamma-[35S]thio]triphosphate (GTP[35S]) binding to GL than were required for nucleotide binding to Go, whereas Gi showed a Mg2+-dependence similar to that of GL. The kinetics of GTP[35S] binding to GL was quite different from those of Gi and Go; t1/2 values of maximal binding were 30, 15 and 5 min respectively. In contrast, the rate of hydrolysis of [gamma-32P]GTP by GL (t1/2 approximately 1 min) was approx. 4 times faster than that by Gi or Go. These results indicated that the predominant G-protein purified from lung is structurally and functionally distinct from Gi and Go of brain, but structurally indistinguishable from Gi2 of neutrophils.
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PMID:Purification and characterization of predominant G-protein from bovine lung membranes. Biochemical and immunochemical comparison with Gi1 and Go purified from brain. 249 37

HL-60 is induced to differentiate by retinoic acid (RA) to mature granulocyte-like cells. We found that pretreatment of HL-60 with pertussis toxin (PT) inhibited differentiation induced by various concentrations of RA. This inhibition was observed when PT was prior to the addition of RA. PT ADP-ribosylated a 39,000 Da protein of membrane fraction of HL-60 and did not increase an intracellular cyclic adenosine-3':5'-monophosphate level, indicating that Go, a guanine nucleotide-binding protein, involves signal transduction for RA-induced differentiation. However, Go does not appear to be obligatory for the common pathway of induction of HL-60 differentiation, because PT showed a little or no effect on differentiation induced by other inducers such as 1 alpha,25-dihydroxyvitamin D3, tumor necrosis factor, interferon-gamma, lymphotoxin, prostaglandin E2, cholera toxin, and dimethylsulfoxide.
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PMID:Pertussis toxin inhibits differentiation induced by retinoic acid in a human promyelocytic leukemia cell line HL-60. 250 57

We have characterized the pertussis toxin substrate in NG 108-15 cell membranes using site-specific antisera and ADP-ribosylation. Cell membranes contain two pertussis toxin-sensitive guanine nucleotide-binding protein alpha-subunits (G alpha) whose Rf values in gel electrophoresis coincide with those of G alpha o and G alpha i2. The total quantity of Gi and Go immunoreactivity amounted to 24.3 +/- 2.8 pmol/mg, whereas only 1.5 +/- 0.2 pmol/mg are capable of undergoing ADP-ribosylation catalyzed by pertussis toxin. Pretreatment of cells with the agonist [D-Ala2,D-Leu2]-enkephalin (DADLE) for 24 h and DADLE or morphine for 72 h did not alter the incorporation of ADP-ribose or the immunoreactive amount of Gi and Go subunits. However, pretreatment for 72 h with naloxone increased the incorporation of ADP-ribose without an apparent change in affinity or in the immunochemically determined protein levels of Gi and Go. This indicates that the process of down-regulation and desensitization of the delta-opioid receptor neither requires quantitative alterations in the levels of Gi and Go nor changes in the degree of coupling among their subunits. In contrast, chronic exposure to antagonists seems to alter the degree of precoupling between alpha- and beta-subunits of Gi and/or Go.
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PMID:Chronic exposure of NG 108-15 cells to opiate agonists does not alter the amount of the guanine nucleotide-binding proteins Gi and Go. 250 42

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