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)

Insulin modifies cellular responsiveness to some hormones which operate via guanine nucleotide binding proteins (G-proteins); also, G-proteins have been implicated in some actions of insulin. Using pertussis toxin-catalyzed [32P]ADP-ribosylation of Gi as an index of G-protein conformation, we evaluated interaction of insulin receptors with G-proteins. In isolated rat liver plasma membranes, insulin treatment for 10 min inhibited [32P]ADP-ribosylation of Gi by 50%. This effect was half-maximal at 2 x 10(-8) M. A similar effect was observed with rat adipocyte plasma membranes with half-maximal effect at 1 x 10(-8) M. Pertussis toxin activity itself was uninfluenced by insulin, as ribosylation of tubulin or heat-treated bovine serum albumin was unaltered. Elevated Mg2+ diminished basal ADP-ribosylation, but insulin inhibition occurred at all Mg2+ levels between 0 and 1 mM. Insulin inhibition was independent of ATP (20 microM to 10 mM), and GTP (0-100 microM) concentrations. Because both protein kinase C and purified insulin receptor phosphorylate purified Gi in vitro, we examined Gi as a substrate for the insulin receptor tyrosine kinase in vivo. Triton-extracts of isolated rat hepatocytes which had been 32Pi labeled and treated with insulin were immunoprecipitated with a polyclonal anti-Gi antiserum. The dominant labeled phosphoprotein had a molecular weight of 42 kDa, consistent with the alpha-subunit of Gi, contained only phosphoserine, and was unaffected in its phosphorylation by insulin. These results indicate the existence of a novel pathway for physiological "cross-talk" between insulin and other hormones and further suggests that the insulin receptor may interact with regulatory G-proteins via biochemical mechanisms not directly involving the tyrosine kinase activity of the insulin receptor.
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PMID:Insulin inhibits pertussis toxin-catalyzed ADP-ribosylation of G-proteins. Evidence for a novel interaction between insulin receptors and G-proteins. 313 71

ADP ribosylation of membranes by pertussis toxin (PT) and cholera toxin (CT) was studied as a function of addition of ATP, various guanine nucleotides, Mg2+, and inorganic phosphate (Pi). ADP ribosylation of a 40 kilodalton (kDa) band by PT is markedly enhanced by ATP and GTP and is strongly inhibited by Pi or Mg2+. GTP analogs (GTP gamma S and GMP-adenyl-5'-yl imidodiphosphate) were less effective. In contrast, ADP ribosylation of two substrates for CT (of 42 and 50 kDa) is stimulated by Pi, Mg2+, and GTP or GTP analogs such as GTP gamma S, but is unaffected by ATP. These stimulatory conditions correlate well with GTP-mediated activation of stimulated nucleotide-binding regulatory component of adenyl cyclase. Optimal conditions for ADP ribosylation by PT do not correlate simply with conditions thought to lead to stabilization of an inactive form of inhibitory nucleotide-binding regulatory component of adenyl cyclase (Gi) or Gi-like protein; rather, the data suggest the involvement of both a stimulatory nucleotide site on PT (positively affected by either ATP or GTP) and a stabilizing site on the PT substrate (affected by GDP, GDP beta S, or GTP). Treatment of membranes with Lubrol PX increased ADP ribosylation by PT by as much as 25- to 30-fold, but inhibited the action of CT. Using defined conditions for ADP ribosylation by PT and CT, distinct labeling patterns were observed in thyroid, brain, corpus luteum, liver, heart, and erythrocytes membranes. All membranes were more intensely labeled by PT rather than CT.
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PMID:Adenosine diphosphate ribosylation of G proteins by pertussis and cholera toxin in isolated membranes. Different requirements for and effects of guanine nucleotides and Mg2+. 315 63

Two possible cellular pathways of catecholamines from the chromaffin vesicles of PC12 cells to the surrounding medium are explored in this study. The direct one circumventing the cytoplasm can be activated in alpha-toxin-permeabilized cells with micromolar levels of free Ca2+. Catecholamine metabolites formed in the cytoplasm (i.e., 3,4-dihydroxyphenylacetic acid and 3,4-dihydroxyphenylethanol) are neither formed nor released from the cells under these conditions. However, when vesicular catecholamines were discharged into the cytoplasm by addition of the ionophore nigericin, such metabolites are formed and released into the medium independent of Ca2+. Both types of experiments provide direct evidence for the operation of Ca2+-induced exocytosis of dopamine and noradrenaline in permeabilized PC12 cells. The Ca2+ dependence of dopamine or noradrenaline release, as measured by the determination of the endogenous catecholamines using the high-performance liquid chromatography technique, exhibits two different phases. One is already activated below 1 microM free Ca2+ and plateaus at 1-5 microM free Ca2+, while a second occurs in the presence of larger amounts of free Ca2+ (10-100 microM). Ca2+-induced catecholamine release from the permeabilized cells can be modulated in different ways: It is enhanced by the phorbol ester 12-O-tetradecanoylphorbol 13-acetate and the diacylglycerol 1-oleyl-2-acetylglycerol provided Mg2+/ATP is present, and it is inhibited by guanosine 5'-O-(3-thiotriphosphate). The latter effect is abolished by pretreatment of the cells with pertussis toxin but not by cholera toxin. Thus, it appears that Ca2+-induced exocytosis can be modulated via the protein kinase C system, as well as via GTP binding proteins.
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PMID:Ca2+-stimulated catecholamine release from alpha-toxin-permeabilized PC12 cells: biochemical evidence for exocytosis and its modulation by protein kinase C and G proteins. 332 8

We have established previously that the regulation of adenylate cyclase is abnormal in adipose tissue membranes of ob/ob mice. To help establish the nature of the defect, we studied the time course of guanine nucleotide activation and inhibition of adenylate cyclase. The activation of adenylate cyclase by Gpp(NH)p in adipocyte membranes of normal (+/+) and ob/ob mice proceeds with a lag phase. In +/+ membranes, this lag could be shortened by increasing the concentration of Mg2+ in the incubation medium or by pretreatment of the membranes with cholera toxin, and it could be abolished by isoproterenol in combination with 4 mM MgCl2. In contrast, in the ob/ob membranes, only pretreatment with cholera toxin was effective in shortening the lag phase. These results indicate an impediment in the activation of adenylate cyclase in ob/ob membranes. In the +/+ membranes, Gpp(NH)p inhibited foreskolin-stimulated adenylate cyclase, following a short lag phase, producing lower steady-state velocities than those seen with forskolin alone. The inhibitory effect of Gpp(NH)p on forskolin-stimulated activity was abolished by pertussis but not by cholera toxin treatment. In the ob/ob membranes, neither Gpp(NH)p nor pertussis treatment had any effect on the steady-state velocity of the forskolin-stimulated activity. These data have been interpreted as meaning that an anomaly in Ni rather than in Ns is likely to be responsible for the impairment of adenylate cyclase activity in the membranes of the ob/ob mouse.
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PMID:The hysteretic effect of Gpp(NH)p on adenylate cyclase is not altered by Mg2+ in adipocyte membranes of ob/ob mice. 377 59

Equilibrium binding isotherms of [3H]diprenorphine in membranes from NG 108-15 cells are consistent with a homogeneous population of binding sites. Upon addition of Na+, Mg2+ and GTP, only a 2-fold reduction in affinity with a minor decrease in the number of sites is observed. Dissociation curves of [3H]diprenorphine, however, are clearly biphasic: in the absence of Na+, Mg2+ and GTP, 80% of the bound ligand dissociates slowly with a t1/2 of 100 min, and only 20% rapidly (t1/2 4.5 min). In the presence of Mg2+, nearly all the binding is found in the slowly dissociating form. Upon the addition of either Na+ or GTP, 20-30% of the binding dissociates more rapidly. The rate constant of the rapidly dissociating form generated by Na+, however, is 2.5 times greater than that induced by the presence of GTP. Thus, the addition of both, Na+ and GTP, converts about 80% of the receptor into a very fast dissociating form (t1/2 1.7 min). Exposure of intact cells to pertussis toxin (10 ng/ml) or treatment of membranes with N-ethyl maleimide (500 microM), strongly reduces the proportion of the slowly dissociating component. Following these treatments, the effect of GTP is reduced or abolished, but that of Na+ remains unaffected. We conclude from these data that the effects of Na+ and GTP are not only distinct in site but also in mechanism of action and that there are three forms of opioid receptors that can be differentiated by their kinetic properties. The slowly dissociating receptor form requires a functional N unit.
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PMID:Effects of sodium and GTP on the binding kinetics of [3H]diprenorphine in NG 108-15 cell membranes. 382 34

The influence of the diterpene, forskolin, was studied on adenylate cyclase activity in membranes of rat basophilic leukemia cells. Forskolin increased basal adenylate cyclase activity maximally 2-fold at 100 microM. However, adenylate cyclase activity stimulated via the stimulatory guanine nucleotide-binding protein, Ns, by fluoride and the stable GTP analog, guanosine 5'-O-(3-thiotriphosphate), was inhibited by forskolin. Half-maximal and maximal inhibition occurred at about 1 and 10 microM forskolin, respectively. The inhibition occurred without an apparent lag phase, whereas the enzyme stimulation by forskolin was preceded by a considerable lag period. The inhibition was not affected by treating intact cells or membranes with pertussis toxin and proteolytic enzymes, respectively, which have been shown in other cell types to prevent adenylate cyclase inhibition mediated by the guanine nucleotide-binding regulatory component, Ni. The forskolin inhibition of the stable GTP analog-activated adenylate cyclase was impaired by increasing the Mg2+ concentration and was reversed into a stimulation by Mn2+. Under optimal inhibitory conditions, forskolin even decreased basal adenylate cyclase activity. Finally, forskolin largely reduced the apparent affinity of the rat basophilic leukemia cell adenylate cyclase for its substrate, MgATP, which reduction resulted in an apparent inhibition at low MgATP concentrations and a loss of the inhibition at higher MgATP concentrations. The data indicate that forskolin can cause both stimulation and inhibition of adenylate cyclase and, furthermore, they suggest that the inhibition may not be mediated by the Ni protein, but may be caused by a direct action of forskolin at the adenylate cyclase catalytic moiety.
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PMID:Stimulation and inhibition of rat basophilic leukemia cell adenylate cyclase by forskolin. 389 83

In mice homozygous for the ob gene (ob/ob), the response of adipose tissue adenylate cyclase to stimulation by lipolytic hormones is abnormally low in comparison to that in lean mice (+/+). Studies on the kinetics of adenylate cyclase activation in white adipocyte membranes under a variety of conditions show the following differences between +/+ and ob/ob mice. 1) The inhibitory effects of GTP and guanyl-5'-yl imidodiphosphate, which were clearly seen in +/+ membranes, were absent in the ob/ob membranes. 2) Half-maximal activation by GTP (in the presence of isoproterenol) required at least 10 times more GTP in ob/ob than in +/+ membranes. 3) Increasing the magnesium concentration (up to 10 mM) of the assay medium facilitated the activation of cyclase by modulatory ligands proportionately more in ob/ob than in +/+ membranes; in the +/+ membranes, 10 mM Mg2+ abolished the inhibitory effects of GTP. 4) Treatment with pertussis toxin attenuated the inhibitory effects of guanine nucleotides in +/+ membranes; no effect of the treatment was seen in the ob/ob membranes. 5) Pretreatment of membranes with cholera toxin facilitated cyclase activation proportionately more in ob/ob than in +/+ membranes; in addition, this treatment led to a shift to the left of the GTP dose-response curve in the ob/ob membranes. Cholera and pertussis toxins catalyzed the incorporation of ADP-ribose into their respective substrates in both the +/+ and the ob/ob membranes, showing that the alpha subunits of the stimulatory and inhibitory proteins of the regulatory component Ns and Ni, respectively are present in both types of membranes. Taken together, the results are consistent with the hypothesis that an excess of beta subunit (either primary or secondary to an altered interaction between beta and Ni alpha or Ns alpha) is responsible for the altered sensitivity to activating ligands of the adipocyte adenylate cyclase of the ob/ob mouse. In addition to these findings, we report an effect of the ob gene on the expression of adenylate cyclase activity, since adipose tissue cyclase from heterozygous lean mice (+/ob) showed characteristics which were intermediate between those of +/+ and ob/ob membranes.
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PMID:Absence of the inhibitory effect of guanine nucleotides on adenylate cyclase activity in white adipocyte membranes of the ob/ob mouse. Effect of the ob gene. 392 71

We compared the effects of guanine nucleotides and Mg2+ on ADP-ribosylation of rat brain and liver membrane proteins catalysed by Bordetella pertussis toxin (IAP) and cholera toxin (CT). Labelling of proteins in the presence of [alpha-32P]NAD+, ATP and CT required GTP or guanosine 5'-[gamma-thio]triphosphate (GTP [S]). In contrast, labelling of one (liver) or two (brain) polypeptides by IAP was enhanced by guanosine 5'-[beta-thio]diphosphate (GDP[S]) or GTP, but was blocked by GTP[S] or guanosine 5'-[beta, gamma-imido]triphosphate (p[NH]ppG). The order of labelling intensity was GDP[S] greater than GTP greater than no addition greater than GTP[S] = p [NH]ppG. Mg2+ increased labelling by CT, but decreased labelling by IAP. In addition, Mg2+ potentiated the effects of the guanine nucleotides, increasing the inhibitory effects of GTP[S] and the activatory effects of GDP[S] or GTP. Preincubating liver membranes at 30 degrees C in the presence of 10 mm-MgCl2 inhibited labelling by IAP irreversibly. Pretreatment of liver membranes with 4.95 mM-N-ethylmaleimide decreased labelling by CT by approximately 15%, but almost completely blocked labelling by IAP. These results suggest that the undissociated, GDP-bound, conformation of Ni, the inhibitory GTP-binding protein of adenylate cyclase, is the preferred substrate for ADP-ribosylation by IAP. This conformation, which is prevalent in native membranes, is sensitive to temperature, Mg2+ ions and alkylating agents such as N-ethylmaleimide. At 30 degrees C, Mg2+ may cause dissociation and denaturation of Ni in native membranes.
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PMID:Pertussis toxin substrate is a guanosine 5'-[beta-thio]diphosphate-, N-ethylmaleimide-, Mg2+- and temperature-sensitive GTP-binding protein. 393 83

Analysis of [3H]quinuclidinyl benzilate/acetylcholine competition curves indicated that the agonist acetylcholine bound with three different affinities to chick heart muscarinic receptors. The estimated KD values for acetylcholine were 2.7, 240, and 4000 nM. Mg2+ increased and guanosine 5'-(beta, gamma-imino)triphosphate (Gpp(NH)p) decreased the proportion of the receptors in the highest affinity state without altering the KD values. Monovalent cations increased the KD values of the three affinity states and obscured the detection of the highest affinity state. The nature of the three affinity states and the sites of action of Mg2+, guanine nucleotides, and monovalent cations were probed with three experimental protocols. Treatments with N-ethylmaleimide or pertussis toxin eliminated both the highest affinity state and the sensitivity to Gpp(NH)p. In contrast, partial effects of Mg2+ were retained after either of these treatments. The effects of monovalent cations on the affinity of the receptor for agonists were unaffected by both treatments. Solubilization of the receptors with digitonin-cholate yielded preparations displaying only the low affinity state for agonist. Agonist binding to the solubilized receptors was insensitive to Mg2+ and guanine nucleotides but retained sensitivity to monovalent cations. The results indicate that chick heart muscarinic receptors can exist in vitro in three agonist affinity states and that the entire population of receptors can be interconverted from one state to another by Mg2+ and guanine nucleotides. Guanine nucleotides presumably act via the inhibitory guanine nucleotide-binding regulatory (Ni) protein, whereas there appear to be at least two distinct sites of action of Mg2+. One site is associated with Ni. Another is distinguishable from Ni but does not appear to be on the receptor itself. The effect of monovalent cations on the interaction of agonists with cardiac muscarinic receptors is qualitatively different and mediated at distinct sites from the effects of Mg2+ and guanine nucleotides.
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PMID:Agonist interactions with cardiac muscarinic receptors. Effects of Mg2+, guanine nucleotides, and monovalent cations. 405 21

The content of trace elements necessary for the normal growth of bacteria was found to have no effect on the intracellular concentration of Ca2+ and Al3+. The content of Cu2+, Fe3+, Mn2+, Mg2+ was considerably reduced. The addition of Mg2+ at different concentrations to this culture medium stimulated the capacity of cells for accumulating not only Mg2+, but also some other ions. Their maximum intracellular concentration was observed when the concentration of Mg2+ in the culture medium was 41 mM. The growth of microbial cells in the standard culture medium containing Mg2+ at a concentration of 4 mM was accompanied by the increased consumption of elements actively participating in redox reactions (Cu2+, Fe3+, Mn2+). Shifts in the ionic composition of microbial cells were manifested by the morphological features of B. pertussis, linked with the increased synthesis of crystalloid structures. The influence of Mn2+, Al3+, Zn2+ at different concentrations on the ionic composition and morphology of B. pertussis was studied.
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PMID:[Characteristics of the ionic composition and ultrastructure of Bordetella pertussis in controlled regulation of the mineral element content in a growth medium]. 609 8


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