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)

Receptors for excitatory amino acids in the mammalian central nervous system are classified into three major subtypes, ones which prefer N-methyl-D-aspartate (NMDA), quisqualate (QA), or kainate (KA) as type agonists respectively. These receptors are considered to mediate fast postsynaptic potentials by activating ion channels directly (ionotropic type). Recently it was reported that exposure of mammalian brain cells to glutamate (Glu) or its analogues causes enhanced hydrolysis of inositol phospholipids, but it is not clear whether the enhanced hydrolysis is the cause or effect of physiological responses. Membrane depolarization or Ca2+ influx, which can result from Glu receptor activation, can induce enhanced hydrolysis of inositol phospholipids. We have characterized the functional properties of two types of excitatory amino-acid responses, those activated by QA (or Glu) and those activated by KA, induced in Xenopus oocytes injected with rat-brain messenger RNA. We report evidence for a new type of Glu receptor, which prefers QA as agonist, and which directly activates inositol phospholipid metabolism through interaction with GTP-binding regulatory proteins (Gi or Go), leading to the formation of inositol 1,4,5-trisphosphate (InsP3) and mobilization of intracellular Ca2+. This QA/Glu reaction is inhibited by islet-activating protein (IAP, pertussis toxin), but was not blocked by Joro spider toxin (JSTX), a specific blocker of traditional ionotropic QA/Glu receptors.
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PMID:A new type of glutamate receptor linked to inositol phospholipid metabolism. 288 Mar

Topical application of L-glutamate to the neuromuscular synapse of the lobster walking leg induced K+-dependent hyperpolarization in the presynaptic membrane. This presynaptic glutamate potential (PGP) was insensitive to Joro spider toxin (JSTX), a spider toxin which specifically blocks the postsynaptic glutamate receptor, but was blocked by pertussis toxin island activating protein (IAP) in a dose-dependent manner. IAP had little effect on the resting conductance channels in pre- and postsynaptic membranes. GTP gamma S, a hydrolysis-resistant analogue of GTP, reduced the PGP supporting the involvement of G-protein in generation of K+ activation. The results suggest that a new type of glutamate receptor exists in the presynaptic membrane in the crustacean neuromuscular synapse.
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PMID:Pertussis toxin blocks presynaptic glutamate receptors--a novel 'glutamateB' receptor in the lobster neuromuscular synapse. 288 45

Pertussis is a unique disease in which the harmful effects are mediated by an exotoxin that effects stimulation of the adrenergic system which is neuronally controlled. The interdependence of the growth of bacteria and toxin production, and the local colonization of the bacteria that precedes the clinical symptom of the disease reflect the nature of the disease. Pertussis toxin enzymatically alters the function of numerous regulatory cells that is demonstrable, after an interval of time, by a specific stimulus. The toxin also may act rapidly and effect action at a target tissue. The latter appears to be associated with the rapid adverse events after vaccination whereas both may occur in the disease. The pathophysiologic responses associated with specific clinical symptoms have not been clearly defined. Responses to be evaluated relative to encephalopathy are increased vascular permeability, hypoglycemia and enhanced activity of neuronal glutamate and aspartate. The intensity of responses is related to the amount of pertussis toxin available, genetic susceptibility, ethnic and allotype, and external factors. The reason for the non-linear dose response shown by the critical level between the sublethal and the lethal infection in mice is unclear. Bacterial adenylate cyclase may be a candidate. Much remains to be elucidated about the enzymatic pathways that effect the many disparate events, the identity of the neurons that effect the clinical symptoms and their CNS location, the identity of the neuronal transmitters and the pathoneuronal pharmacodynamics.
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PMID:Neurotoxicity of Bordetella pertussis. 302 80

Intracellular recordings were made from rat dorsal raphe neurons in vitro. Baclofen (30 microM) and 5-carboxamidotryptamine (5-CT, 300 nM to 1 microM) hyperpolarized these neurons by 10 and 13 mV, respectively. Depolarizing synaptic potentials (DSPs) were evoked by single shocks: baclofen reduced the amplitude of the DSP by 81%, but 5-CT reduced it by only 23%. The somatic response to iontophoretically applied glutamate pulses was reduced by 12% by baclofen, and 23% by 5-CT. In slices from rats pretreated with intracerebroventricular pertussis toxin (PTX), the ability of baclofen to reduce the DSP was almost unchanged, although the hyperpolarizing action of baclofen, and both actions of 5-CT were virtually eliminated. We conclude that it is possible to distinguish the pre- and postsynaptic actions of baclofen with PTX, and that the actions of 5-CT are both blocked.
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PMID:Pertussis toxin pretreatment discriminates between pre- and postsynaptic actions of baclofen in rat dorsal raphe nucleus in vitro. 324 56

Hydroxylamine stability has been used to classify (ADP-ribose)protein bonds into sensitive and resistant linkages, with the former representing (ADP-ribose)glutamate, and the latter, (ADP-ribose)arginine. Recently, it was shown that cysteine also serves as an ADP-ribose acceptor. The hydroxylamine stability of [cysteine([32P]ADP-ribose)]protein and [arginine([32P] ADP-ribose)]protein bonds was compared. In transducin, pertussis toxin catalyzes the ADP-ribosylation of a cysteine residue, whereas choleragen (cholera toxin) modifies an arginine moiety. The (ADP-ribose)cysteine bond formed by pertussis toxin was more stable to hydroxylamine than was the (ADP-ribose)arginine bond formed by choleragen. The (ADP-ribose)cysteine bond apparently represents a third class of ADP-ribose bonds. Pertussis toxin ADP-ribosylates the inhibitory guanyl nucleotide-binding regulatory protein (Gi) of adenylate cyclase, whereas choleragen modifies the stimulatory guanyl nucleotide-binding regulatory protein (Gs). These (ADP-ribose)protein linkages are identical in stability to those formed in transducin by the two toxins, consistent with the probability that cysteine and arginine are modified in Gi and Gs, respectively. Bonds exhibiting differences in hydroxylamine-stability were found in membranes from various non-intoxicated mammalian cells following incubation with [32P]NAD, which may reflect the presence of endogenous NAD:protein-ADP-ribosyl-transferases.
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PMID:Amino acid-specific ADP-ribosylation. Sensitivity to hydroxylamine of [cysteine(ADP-ribose)]protein and [arginine(ADP-ribose)]protein linkages. 393 72

The amino acid consumption by Bordetella pertussis growing in broth containing casein hydrolysate was examined. Serine, proline, alanine, glycine, aspartate, and glutamate were rapidly consumed, in a manner which suggested that they supplied the energy requirements of the organism; exhaustion of the energy source appeared to be the main factor limiting the yield of cells. There was no correlation between the utilization of individual amino acids and the phase of growth; uptake appeared to depend only upon relative concentrations. Consumption of threonine, phenylalanine, histidine, leucine, and methionine was slight; consumption of valine and lysine was variable, and isoleucine was excreted. The addition of monosodium l-glutamate (3 mg/ml) to the broth in shaken flasks increased the cell yield by an average of 43.5%. It had no detectable adverse effect upon the agglutin-producing capacity, agglutinability in antisera versus smooth and rough growth phases, mouse-lethal toxicity, histamine-sensitizing factor potency, or intracerebral protective potency of the culture. Broth supplemented with monosodium l-glutamate has been used over a 2-year period to prepare experimental vaccines by both batch and continuous cultivation methods at controlled pH; the cell yields obtained from the supplemented broth have been up to 52% higher than those from the basal broth. The use of glutamate to replace a proportion of casein hydrolysate in the broth caused a reduction in the cell yield, an alteration in cell morphology, and reduction in the mouse-lethal toxicity, the histamine-sensitizing factor potency, and the intracerebral protective potency of the cells.
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PMID:Use of glutamic acid to supplement fluid medium for cultivation of Bordetella pertussis. 431 42

3-Pyridine-carboxaldehyde and 3-pyridine-aldoxime were effective and specific inhibitors of the uptake of both nicotinic acid (NA) and nicotinamide (ND) by Bordetella pertussis, although neither compound inhibited the growth of the bacteria in liquid medium or the oxidation of glutamate by washed suspensions. In contrast, the following pyridine derivatives did not inhibit uptake of NA or ND: iso-NA, iso-ND, isoniazid, 6-amino-NA and 6-amino-ND, 3-acetyl-pyridine, 3-pyridyl-acetic acid, N,N-diethyl-ND and 3-pyridine-sulphonic acid. 3- Pyridyl-carbinol was inhibitory, but less so than the first listed compounds.
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PMID:Inhibition of nicotinic acid and nicotinamide uptake into Bordetella pertussis by structural analogues. 629 74

In this study, the regulation of striatal cyclic-3',5'-adenosine monophosphate (cAMP) formation and GABA release by dopamine D1 and metabotropic glutamate receptors (mGluR) was studied in brain slices. In the absence of adenosine A2 receptor blockade, the mGluR agonist, 1-aminocyclopentane-1S,3R-dicarboxylic acid (1S,3R-ACPD) stimulated cAMP accumulation through a pertussis toxin-insensitive mechanism that could be blocked by L-serine-o-phosphate, but not by L(+)-2-amino-3-phosphonopropionic acid. However, in the presence of the adenosine antagonist, 3-isobutyl-1-methylxanthine, 1S,3R-ACPD had no significant effect on basal cAMP, but it inhibited cAMP formation stimulated by the D1 agonist, SKF 38393. This inhibitory response was prevented by pertussis toxin pretreatment and mimicked by L(+)-2-amino-3-phosphonopropionic acid, but it was unaffected by L-serine-o-phosphate. Thus, 1S,3R-ACPD was determined to activate distinct mGluRs in the striatum that mediate either inhibition or activation of cAMP accumulation, with the latter effect being dependent on the activation of adenosine A2 receptors. A potential physiological role for the interaction between the D1 and adenosine-dependent stimulatory metabotropic receptor was sought by examining this interaction on striatal GABA release. SKF 38393 and 1S,3R-ACPD together were found to potentiate striatal GABA release induced by 15 mM K+. The potentiation was blocked by the D1 antagonist, SCH 23390. However, this effect was only partially mimicked by a high concentration of forskolin (100 microM) and was not blocked by L-serine-o-phosphate, thereby suggesting that the stimulatory mGluR does not mediate this potentiation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Regulation of striatal cyclic-3',5'-adenosine monophosphate accumulation and GABA release by glutamate metabotropic and dopamine D1 receptors. 747 79

We have reported previously that a selective metabotropic glutamate receptor agonist, (1S,3R)-1-aminocyclopentane-1,3-dicarboxylic acid (1S,3R-ACPD), caused two primary postsynaptic membrane changes, namely, a slow membrane depolarization, and burst firing in rat dorsolateral septal nucleus neurons. In addition, (1S,3R)-1-aminocyclopentane-1,3-dicarboxylic acid also potentiates a slow after depolarization in rat dorsolateral septal nucleus neurons. We now report that, among all the postsynaptic membrane changes induced by (1S,3R)-1-aminocyclopentane-1,3-dicarboxylic acid, only the burst firing was selectively blocked by pertussis toxin pretreatment. Thus, aminocyclopentane-1,3-dicarboxylic acid induced burst firing was mediated by a metabotropic receptor coupled to a pertussis toxin-sensitive GTP-binding protein, while the other induced cellular responses may be mediated by metabotropic glutamate receptors insensitive to pertussis toxin. We further characterized this receptor pharmacologically. This metabotropic receptor is activated by several metabotropic glutamate receptor agonists, but is insensitive to L-glutamate or L-aspartate. On the basis of its agonist activity profile, particularly the ineffectiveness of glutamate as an agonist, we have tentatively assigned the name aminocyclopentane-1,3-dicarboxylic acid metabotropic receptor, to this native, pertussis toxin-sensitive metabotropic receptor in the dorsolateral septal nucleus. Furthermore, this receptor is coupled to protein kinase C, probably via a phospholipase C independent pathway.
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PMID:(1S,3R)-1-aminocyclopentane-1,3-dicarboxylic acid-induced burst firing is mediated by a native pertussis toxin-sensitive metabotropic receptor at rat dorsolateral septal nucleus neurons. 747 53

We have investigated the action of norepinephrine (NE) on excitatory synaptic transmission in the hippocampus by recording from CA3 pyramidal cells in organotypic slice cultures. NE (5 microM) was found to decrease the amplitude of pharmacologically isolated EPSPs elicited with stimulation of mossy fibers or recurrent axon collaterals (mean decrease in EPSP amplitude, 44%). Desensitization was observed with repetitive applications. NE did not affect the sensitivity of CA3 cells to iontophoretically applied AMPA, and did not affect the amplitude distribution of TTX-resistant, miniature excitatory synaptic currents. These data suggest that NE acts at presynaptic receptors to decrease glutamate release. This action of NE was blocked by the alpha receptor antagonist phentolamine and the specific alpha 1 receptor antagonist prazosine, but not by the beta receptor antagonist timolol or the alpha 2 receptor antagonist idazoxan. Inhibition of EPSPs by NE was prevented by pretreatment of cultures with pertussis toxin, indicating that G-proteins couple these receptors to their effectors. Stimulation of protein kinase C with phorbol ester blocked the action of NE on EPSPs. This effect, as well as the desensitization of NE responses, was reduced by application of the protein kinase inhibitor staurosporin. Presynaptic inhibition of excitatory synaptic transmission, mediated by alpha adrenergic receptors, represents a novel modulatory action of NE in the hippocampus.
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PMID:Presynaptic inhibition of excitatory synaptic transmission mediated by alpha adrenergic receptors in area CA3 of the rat hippocampus in vitro. 750 23


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