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)

Inhibition of adenylyl cyclases from Bacillus anthrasis and Bordetella pertussis by polyadenylate and by the most potent "P"-site agonists was investigated. These bacterial adenylyl cyclases differed in their sensitivity to inhibition by nominal "P"-site agents and in the effect of divalent cations on this inhibition. The enzyme from Bordetella pertussis was relatively insensitive to inhibition by "P"-site agonists, exhibiting a rank order of potency of 2'd3'AMP greater than 3'-AMP greater than 2',5'-ddAdo approximately Ado approximately 2'-dAdo, with IC50 values for 2'd3'AMP and 3'-AMP of 1-3 mM. Inhibition by 2'd3'AMP, however, was not affected by divalent cation, making it distinct from "P"-site-mediated inhibition of most mammalian adenylyl cyclases. The sensitivity to these nucleosides was comparable with potency for inhibition of bovine sperm adenylyl cyclase but was 3 orders of magnitude less potent than for activated enzyme from bovine or rat brain. The Bordetella pertussis enzyme was similarly insensitive to inhibition by polyadenylate, with 16 microM inhibiting less than 20%. By comparison, Bacillus anthrasis adenylyl cyclase was more potently inhibited by 2'd3'AMP (IC50 approximately 85 microM) but not by the other nucleosides (less than 15% inhibition at 1 mM), and inhibition by 2'd3'AMP was optimally enhanced by 5-10 mM Mg2+ or Mn2+, as is typical for inhibition by "P"-site agonists. The Bacillus anthrasis enzyme was potently inhibited by polyadenylate (IC50 approximately 0.3 microM), comparable to inhibition of brain adenylyl cyclases. Sensitivity of Bacillus anthrasis adenylyl cyclase to poly(A) was diminished somewhat by Ca2+/calmodulin (to IC50 approximately 1 microM) although Ca2+/calmodulin was without effect on inhibition by 2'd3'AMP. In contrast to inhibition of mammalian adenylyl cyclases via the "P"-site, inhibition of both bacterial adenylyl cyclases by 2'd3'AMP was competitive with respect to substrate MgATP. The data indicate basic differences in susceptibilities of these bacterial adenylyl cyclases to inhibition by poly(A), by adenosine analogs, and the effects of divalent cations. Although the potency of 2'd3'AMP and the metal-dependent nature of inhibition of Bacillus anthrasis adenylyl cyclase shared characteristics of "P"-site-mediated inhibition, the fact that inhibition of both bacterial adenylyl cyclases was competitive with respect to substrate strongly suggests that this inhibition was at the catalytic site and that these bacterial enzymes do not contain a distinct "P"-site.
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PMID:Inhibition of Bordetella pertussis and Bacillus anthracis adenylyl cyclases by polyadenylate and "P"-site agonists. 212 33

Hormone-induced Ca2+ mobilization in rat parotid acinar cells is reportedly mediated via an as yet uncharacterized G protein. We have studied the sensitivity to pertussis toxin (PTx) of this signal transduction mechanism. When rats were treated with Ptx (1.3-1.5 micrograms per animal) for 72 h, a 41 kDa membrane protein was ADP-ribosylated. This PTx treatment regimen, also, resulted in a more than 80% block of the ability of the muscarinic agonist carbachol to inhibit beta-adrenergic receptor-stimulated parotid adenylyl cyclase activity. However, cytosolic Ca2+ levels, in response to either carbachol or AIF-4, were comparable in cells prepared from both untreated or PTx-treated rats, when incubated either in the absence or presence of extracellular Ca2+. Further, both the sensitivity of the Ca2+ response to carbachol and the ability of the agonist-sensitive intracellular Ca2+ stores to be refilled by extracellular Ca2+ were unaffected by PTx treatment. Parotid membranes also contained three low-molecular-weight GTP-binding proteins (25, 22 and 18 kDa) which were unaffected by PTx. These results show that there is only one detectable substrate in parotid membranes for a PTx-catalyzed ADP-ribosylation and that hormone-induced Ca2+ mobilization events in parotid acinar cells are not mediated via PTx-sensitive components.
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PMID:Evidence against a role for a pertussis toxin-sensitive G protein in Ca2+ mobilization in rat parotid acinar cells. 212 29

The mechanism whereby gastrin triggers phosphoinositide breakdown was investigated in an enriched preparation of isolated rabbit parietal cells (approx. 75%). In a permeabilized preparation of myo-[3H]inositol-labelled cells, GTP[S], a non-hydrolysable GTP analogue, enhanced [3H]inositol trisphosphate ([3H]InsP3 accumulation in a dose-dependent manner; submaximal concentrations of GTP[S] (less than 10 microM), potentiated gastrin-induced [3H]InsP3 release; preincubation for 5 min with GDP[S], a non-hydrolysable GDP analogue, dose-dependently reduced [3H]InsP3 accumulation stimulated by gastrin even in presence of GTP[S]. Exposure of intact parietal cells for 3 h to pertussis toxin (PTx) (200 ng/ml) led to a 15-50% reduction in gastrin-induced [14C]aminopyrine [(14C]AP) uptake (an index of in vitro acid secretion) and [3H]inositol phosphate ([3H]InsP) accumulation. A decrease in the accumulation of the different [3H]inositol phosphate occurred in gastrin-stimulated parietal cells treated with PTx. A rightward shift of gastrin dose-response curves in the presence of PTx was observed for [14C]AP uptake (EC50 values: 0.125 +/- 0.045 nM without PTx and 1.05 +/- 0.63 nM with PTx), for [3H]InsP accumulation (EC50 values: 0.16 +/- 0.08 nM without PTx and 1.56 +/- 0.58 nM with PTx) and [125I]gastrin binding (IC50 values: 0.247 +/- 0.03 nM without PTx and 2.38 +/- 0.56 nM with PTx). In contrast, cholera toxin (CTx) treatment (100 ng/ml) for 3 h was without effect on gastrin-induced [3H]InsP accumulation. CTx induced a pronounced potentiation of gastrin-stimulated [14C]AP uptake; this effect can be mimicked by IBMX (a phosphodiesterase inhibitor) and by forskolin (an activator of adenylyl cyclase). We conclude that: (i) one or more than one G protein appeared to be involved in gastrin receptor coupling to phospholipase C (PL-C); (ii) these G proteins are not substrates for CTx; (iii) one of these appeared to be a PTx-sensitive 'Gi-like' protein which could be involved in hormone-induced acid secretion, (iiii) the potentiating effect of CTx observed on AP uptake stimulated by gastrin suggests the existence of a cooperative effect between cAMP pathway (CTx) and the gastrin-induced phosphoinositide breakdown in acid secretory activity of parietal cells.
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PMID:Involvement of a pertussis toxin-sensitive G protein in the action of gastrin on gastric parietal cells. 212 30

We have recently shown that nanomolar concentrations of glucagon-(19-29), which can derive from native glucagon by proteolytic cleavage of the dibasic doublet Arg17-Arg18, inhibit the Ca2+ pump in liver plasma membrane vesicles independently of adenylyl cyclase activation (Mallat, A., Pavoine, C., Dufour, M., Lotersztajn, S., Bataille, D., and Pecker, F. (1987) Nature 325, 620-622). We report here that the regulation of the Ca2+ pump by glucagon-(19-29) is dependent on guanine nucleotides. In the presence of 10 microM guanosine 5'-3-O-(thio) triphosphate (GTP gamma S) or 75 microM GTP, glucagon-(19-29) caused a biphasic regulation of the Ca2+ pump. ATP-dependent Ca2+ transport was inhibited in the presence of 10 pM to 1 nM glucagon-(19-29), while higher concentrations of the peptide (1-100 nM) reversed the inhibition caused by lower ones. GTP gamma S alone, at high concentrations (100 microM), reproduced the inhibitory effect of glucagon-(19-29) and induced a 40% inhibition of the basal activity of the Ca2+ pump which was reversed by low concentrations of glucagon-(19-29) (10 pM to 1 nM). Treatment of rats with cholera toxin resulted in a 70% increase in the basal activity of the Ca2+ pump, a loss of sensitivity to GTP gamma S and to the biphasic regulation by glucagon-(19-29). Treatment with pertussis toxin did not affect the response of the Ca2+ pump to GTP gamma S and glucagon-(19-29). We conclude that glucagon-(19-29) can exert a biphasic effect on the Ca2+ pump which is mediated by G protein(s) sensitive to cholera toxin.
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PMID:Glucagon-(19-29) exerts a biphasic action on the liver plasma membrane Ca2+ pump which is mediated by G proteins. 214 Oct 22

The alpha-adrenergic receptors mediate the effects of epinephrine and norepinephrine on cellular signaling systems via guanine nucleotide binding regulatory proteins (G-proteins). Three alpha-adrenergic receptor subtypes have been cloned: the alpha 1, the alpha 2-C10, and the alpha 2-C4 adrenergic receptors. To investigate functional differences between the different subtypes, we assessed the ability of each to interact with adenylyl cyclase and polyphosphoinositide metabolism by permanently and transiently expressing the DNAs encoding the alpha 1, the alpha 2-C10, and the alpha 2-C4 adrenergic receptors in cells lacking endogenous alpha-adrenergic receptors. Both alpha 2-C10 and alpha 2-C4 couple primarily to inhibition of adenylyl cyclase and to a lesser extent to stimulation of polyphosphoinositide hydrolysis. alpha 2-C10 inhibits adenylyl cyclase more efficiently than alpha 2-C4. Effects of the alpha 2-adrenergic receptors on adenylyl cyclase inhibition and on polyphosphoinositide hydrolysis are both mediated by pertussis toxin-sensitive G-proteins. The major coupling system of the alpha 1-adrenergic receptor is activation of phospholipase C via a pertussis toxin-insensitive G-protein. alpha 1-Adrenergic receptor stimulation can also increase intracellular cAMP by a mechanism that does not involve direct activation of adenylyl cyclase. As with the muscarinic cholinergic receptor family our results show that each of the alpha-adrenergic receptor subtypes can couple to multiple signal transduction pathways and suggest several generalities about the effector coupling mechanisms of G-protein-coupled receptors.
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PMID:Multiple second messenger pathways of alpha-adrenergic receptor subtypes expressed in eukaryotic cells. 215 28

Complementary DNAs for the G protein alpha subunits Gi alpha 1, Gi alpha 2, Gi alpha 3, and Go alpha were expressed in Escherichia coli, and the four proteins were purified to homogeneity. The recombinant proteins exchange and hydrolyze guanine nucleotide, are ADP-ribosylated by pertussis toxin, and interact with beta gamma subunits. The rates of dissociation of GDP from Gi alpha 1 and Gi alpha 3 (0.03 min-1) are an order of magnitude slower than that from rGo alpha; release of GDP from Gi alpha 2 is also relatively slow (0.07 min-1). However, the values of kcat for the hydrolysis of GTP by rGo alpha and the three rGi alpha proteins are approximately the same, about 2 min-1 at 20 degrees C. The recombinant proteins restore inhibition of Ca2+ currents in pertussis toxin-treated dorsal root ganglion neurons in response to neuropeptide Y and bradykinin, indicating that the proteins can interact functionally with all necessary components of at least one signal transduction system. The two different receptors function with different arrays of G proteins to mediate their responses, since all four G proteins restored responses to bradykinin, while Gi alpha 2 was inactive with neuropeptide Y. Despite these results, high concentrations of activated Gi alpha proteins are without effect on adenylyl cyclase activity, either in the presence or absence of forskolin or Gs alpha, the G protein that activates adenylyl cyclase. These results are consistent with the hypothesis that G protein beta gamma subunits are primarily responsible for inhibition of adenylyl cyclase activity.
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PMID:Purification and characterization of Go alpha and three types of Gi alpha after expression in Escherichia coli. 215 73

Dopaminergic D2 receptors are widely regarded as typical inhibitory receptors, as they both inhibit adenylyl cyclase and decrease the cytosolic free Ca2+ concentration ([Ca2+]i) by activating K+ channels. A D2 receptor has recently been cloned (Bunzow, J. R., Van Tol, H. H. M., Grandy, D. K., Albert, P., Salon, J., Christie, M. D., Machida, C. A., Neve, K. A., and Civelli, O. (1988) Nature 336, 783-787) and expressed in two different cell lines, pituitary GH4C1 cells and Ltk- fibroblasts, where it has been shown to induce inhibition of adenylyl cyclase. We have investigated the additional effector systems coupled to this receptor. The responses observed in the two cells lines, which express similar levels of receptors (0.5-1 x 10(5)/cell), were surprisingly different. In GH4C1 cells D2 receptors failed to affect phosphoinositide hydrolysis and induced a decrease of [Ca2+]i. This latter effect appears to be mediated by hyperpolarization, most likely due to the activation of K+ channels. In striking contrast, in Ltk- fibroblasts the D2 receptor induced a rapid stimulation of inositol(1,4,5)-trisphosphate (+73% at 15 s) followed by the other inositol phosphates, and an immediate increase of [Ca2+]i due to both Ca2+ mobilization from internal stores and influx from the extracellular medium. In both GH4C1 and Ltk- cells, the D2 receptor response was mediated by G protein(s) sensitive to pertussis toxin. The increases of inositol trisphosphate and [Ca2+]i observed in Ltk- cells required dopamine concentrations only slightly higher than those inhibiting adenylyl cyclase (EG50 = 25, 29, and 11 nM, respectively) and were comparable in magnitude to the responses induced by the endogenous stimulatory receptor agonists, thrombin and ATP. The results demonstrate that in certain cells D2 receptors are efficiently coupled to the stimulation of phosphoinositide hydrolysis. The nature of receptor responses appears therefore to depend on the specific properties not only of the receptor molecule but also of the cell type in which it is expressed.
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PMID:Differential coupling of dopaminergic D2 receptors expressed in different cell types. Stimulation of phosphatidylinositol 4,5-bisphosphate hydrolysis in LtK- fibroblasts, hyperpolarization, and cytosolic-free Ca2+ concentration decrease in GH4C1 cells. 216 45

In a previous investigation of children infected with pertussis during the first week of paroxysmal stage, we found a 50-75% reduction of the isoprenaline (IPN)-induced cAMP response in peripheral MN leucocytes. In order to characterize these findings further, intact human MN leucocytes from healthy adults were treated with PT in vitro. Basal, as well as prostaglandin E1-stimulated cAMP levels were decreased by PT in a dose-dependent fashion over a range of 0.01 to 1000 ng ml-1 to about 65% of control levels. Stimulation of PT-pretreated cells (100 ng ml-1, 90 min, 37 degrees C) showed significantly reduced IPN and PGE1-induced cAMP accumulation, indicated by a depression and shift of the dose-response curves to the right. In contrast, cAMP generation was unchanged by forskolin, a diterpene that is believed to directly stimulate adenylyl cyclase. The anti-allergic drug ketotifen had no direct effects on basal, IPN or PGE1-induced cAMP responses; however the inhibitory actions of PT pretreatment on cAMP levels were diminished (basal and isoprenaline-stimulated) or reversed (PGE1-stimulated). To further locate the site of impaired cAMP responses, beta-adrenoceptor binding, as well as displacement characteristics of the receptor, were estimated by 125I-cyanopindolol binding to a plasma membrane fraction pretreated with or without PT. No differences in beta-adrenoceptor number or in the affinities of the binding sites could be detected. These data are in close agreement with the findings on MN leucocytes from pertussis-infected children and support the notion of PT-induced impaired signal transduction in the cAMP generating system in human MN leucocytes.
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PMID:Inhibitory effects of pertussis toxin on the cAMP generating system in human mononuclear leucocytes. 216 75

G proteins couple receptors to ionic channels indirectly by acting on membrane enzymes which modulate channel activity through second or third messengers such as cytoplasmic kinases, IP3 or Ca++. Recently, it has been shown that G proteins can act on ionic channels in a membrane-delimited or direct manner; from our experience this phenomenon seems to be widespread. A G protein purified from human red blood cells (hRBC) Gk when preactivated with GTP gamma S acts directly on muscarinic acetylcholine receptor-regulated K+ channels (K+[ACh]) in atrial cells and the stimulatory regulator of adenylyl cyclase, Gs from hRBCs acts directly on two distinct voltage-gated Ca++ channels, one in cardiac muscle and the other in skeletal muscle T-tubules. In many cells, including clonal GH3 pituitary cells, somatostatin (SST) inhibits secretion by a complex mechanism that involves a pertussis toxin (PTX)-sensitive step. This is not due to lowering cAMP since secretion induced by cAMP analogs and K+ depolarization are also inhibited. SST also causes membrane hyperpolarization, which is similar to the effect of ACh on cardiac pacemaking cells and may lead to decreases in intracellular Ca++ needed for secretion. ACh acting through a muscarinic recpetor in GH3 cells has the same effects as SST.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Direct coupling of the somatostatin receptor to potassium channels by a G protein. 216 76

In order to evaluate the role of phosphoinositide turnover in growth factor action, we expressed human M1 muscarinic acetylcholine (Hm1) receptors in Chinese hamster lung fibroblasts (CCL39 cell line). In the transfected cells (39M1-81 clone), but not in wild type fibroblasts, the muscarinic agonist carbachol induced a release of inositol phosphates as strong as alpha-thrombin, a very potent growth factor and activator of phosphoinositide-specific phospholipase C (PLC) in this cell system. In contrast to thrombin, carbachol-stimulated PLC activity was not inhibited by pertussis toxin treatment of cells. At concentrations that elicited a comparable initial rate of inositol phosphate release (10 nM for thrombin and 0.1 mM for carbachol), both agents gave rise to an identical calcium signal and equally stimulated Na+/H+ exchange and the transcription of the early genes c-jun, c-fos, and c-myc. Surprisingly, however, carbachol is not a mitogen for 39M1-81 cells, and even if tested in association with insulin or fibroblast growth factor, its effects on cell proliferation remained weak when compared with thrombin. Also, the muscarinic agonist did not stimulate soft agar colony forming capacity and did not prevent growth arrest in Go upon serum deprivation of cycling 39M1-81 cells. The failure of carbachol to induce cell proliferation could not be attributed to rapid and complete desensitization of Hm1 receptors nor to the activation of inhibitory pathways like adenylyl cyclase stimulation. We conclude that strong and persistent activation of phosphoinositide turnover elicits early biochemical events generally associated with mitogenesis, but is not sufficient to stimulate or maintain continuous cell proliferation. On the basis of our results, we postulate that thrombin mitogenesis depends critically on signaling events different from phosphoinositide turnover, possibly the stimulation of a receptor tyrosine kinase or a Gi protein-activated tyrosine kinase.
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PMID:Strong and persistent activation of inositol lipid breakdown induces early mitogenic events but not Go to S phase progression in hamster fibroblasts. Comparison of thrombin and carbachol action in cells expressing M1 muscarinic acetylcholine receptors. 217 13

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