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 cultured cerebral cortical neurons at mature stages (9 days in culture, d.i.c.) it was demonstrated that glutamate, NMDA (N-methyl-D-aspartate) and to a lesser extent KA (kainate) increase the intracellular cGMP concentration ([cGMP]i) whereas no such effect was observed after exposure of the cells to QA (quisqualate) and AMPA (2-amino-3-(3-hydroxy-5-methylisoxazol-4-yl)propionate). No effect of glutamate, NMDA and KA was observed in immature neurons (2 d.i.c.). The pharmacology of these cGMP responses was investigated using the glutamate antagonists APV (2-amino-5-phosphonovalerate) with selectivity for NMDA receptors, CNQX (6-cyano-7-nitro-quinoxaline-2,3-dione) with selectivity for non-NMDA receptors and the novel KA selective antagonists AMOA (2-amino-3-[3-(carboxymethoxy)-5-methylisoxazol-4-yl]propionate) and AMNH (2-amino-3-[2-(3-hydroxy-5-methylisoxazol-4-yl)methyl-5-methyl-3- oxoisoxazolin-4-yl]propionate). In addition, the cytotoxicity of glutamate, NMDA and KA was studied and found to be enhanced by addition of the non-metabolizable cGMP analogue 8-Br-cGMP. On the contrary, the toxicity of QA and AMPA was not affected by 8-Br-cGMP. Pertussis toxin augmented the toxicity elicited by glutamate, NMDA, KA and QA but not that induced by AMPA. On the other hand, only glutamate and KA induced toxicity was potentiated by cholera toxin, which also enhanced the stimulatory effect of glutamate and NMDA but not that of KA on the cellular cGMP content. The toxicity as well as the effects on intracellular cGMP levels could be antagonized by the specific excitatory amino acid (EAA) antagonists.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Possible role of cGMP in excitatory amino acid induced cytotoxicity in cultured cerebral cortical neurons. 137 1

A large number of neurotransmitters have now been shown to reduce the amplitude and slow the activation kinetics of whole cell HVA ICa in a great diversity of neurons. These transmitters include L-glutamate (AMPA/kainate, metabotropic and NMDA receptors), GABA (via GABAB receptors, NA (via alpha 2 receptors), 5-HT, NA (via alpha 2 receptors), DA and several peptides. Both whole-cell and single-channel studies have demonstrated that the N-channel is the most common channel type to be blocked by transmitters, although an inhibition of the L-type channel has also occasionally been reported. The suppression of the N-type Ca current was commonly shown to be voltage-dependent, with a relief at large positive voltages. Strong evidence has been put forward showing that the transmitter action is mediated by a G-protein, with GDP-beta-S blocking transmitter action, and GTP-gamma-S directly inhibiting the Ca channel. Moreover, pertussis toxin blocked the transmitter action in most neurons, and following such block, injection of the G-protein Go restored transmitter action. A direct link between the G-protein and the Ca channel has been widely theorized to mediate the action of transmitters on certain neurons. There is also some evidence that certain transmitters in specific neurons mediate calcium channel inhibition through a 2nd messenger, perhaps protein kinase C. Transmitters have also been found, although uncommonly, to inhibit HVA L-type and LVA T-type channels. In addition, an enhancement of both HVA and LVA Ca currents by transmitters has been demonstrated, and substantial evidence exists for mediation of this action by cAMP.
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PMID:Modulation of vertebrate neuronal calcium channels by transmitters. 168 17

Signal transduction for the characteristic long-term desensitization of glutamate receptors in Purkinje cells was investigated with wedge recordings from rat cerebellar slices. Long-term desensitization was induced specifically in the AMPA-selective subtype of glutamate receptors following brief exposure to 100 microM quisqualate. It was abolished either by treatment of the rat with pertussis toxin or by perfusion of a slice with BAPTA-AM, L-NMMA, hemoglobin, or inhibitor of PKG. Brief application of AMPA alone did not cause desensitization, but in combination with t-ACPD, sodium nitroprusside, or 8-bromo-cGMP, AMPA produced desensitization similar to that induced by quisqualate. These results indicate that the desensitization arises from activation of AMPA receptors in association with activation of metabotropic glutamate receptors, the latter leading to Ca2+ elevation to nitric oxide (NO) production to cGMP synthesis, and eventually to activation of PKG.
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PMID:Messengers mediating long-term desensitization in cerebellar Purkinje cells. 196 3

We measured changes in the molar concentration of cytosolic Ca2+ ([Ca2+]i) in individual astrocytes in culture produced by the glutamate analog quisqualate (QA) and related substances by using fura-2 digital fluorescence microscopy. In cells cultured from the cortex, hippocampus, and cerebellum, the QA analog alpha-amino-3-hydroxy-5-methyl-isoxazole-4-propionate (AMPA; 10 microM) produced a slow increase in [Ca2+]i that was modest in amplitude (approximately 200 nM). These effects were completely abolished by 10 microM 6-nitro-7-cyano-quinoxaline-2,3-dione (CNQX). In cerebellar astrocytes, similar effects were produced by QA. However, in cortical and hippocampal astrocytes, the response to QA was much more complex. In these cells, QA produced an initial [Ca2+]i spike that was followed by a sustained influx of Ca2+ ("plateau"). In the absence of extracellular Ca2+, this plateau was abolished but the spike remained. CNQX did not block the spike and only slightly reduced the size of the plateau in some cells. Ni2+ (10 microM) but not nimodipine (10 microM) reduced the amplitude of the plateau. Pretreatment with 100 nM phorbol 12-myristate 13-acetate for 15 min abolished the spike but not the plateau portion of the QA response. Treatment with pertussis toxin at 250 ng/ml for 12-16 hr failed to alter the response. In some instances, the latency of the QA response differed considerably for individual cells in a group. It appeared that the response began in one cell and then spread to neighboring cells. Thus, QA appears to trigger a complex response in some astrocytes consisting of Ca2+ mobilization from intracellular stores and also Ca2+ influx resulting from the activation of AMPA-sensitive and -insensitive pathways.
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PMID:Glutamate receptors activate Ca2+ mobilization and Ca2+ influx into astrocytes. 197 Jun 37

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

Glutamate sensitivity development and interactions of somatostatin (SRIF) with AMPA/Kainate receptor-mediated glutamate responses were studied in dissociated hypothalamic neurons from 16-day-old mouse embryos grown in vitro. Only 18% of functionally innervated cells could be found at 6-9 DIV whereas the percentage of innervated neurons progressively increased thereafter to reach 100% at 19-22 DIV. The glutamate sensitivity, estimated from glutamate-induced peak inward current, was very low at 6-9 DIV, sharply increased at 11-14 DIV and developed at a low increase rate thereafter. SRIF either unaffected glutamate peak current (27% of the cells), or significantly decreased (50%) or increased it (23%). Pertussis Toxin pretreatment abolished the SRIF-induced decrease of the glutamate response without affecting the excitatory effect. The number of glutamate responsive neurons inhibited by SRIF increased with time in culture whereas that of neurons responding to SRIF by an increased glutamate response was not statistically modified by functional innervation. The present data suggest that increased glutamate sensitivity coincides with the onset of functional synaptogenesis in mouse hypothalamic neurons in culture. SRIF can modulate glutamate sensitivity of hypothalamic neurons with either synergistic or antagonistic effects. Since glutamate has been shown to stimulate SRIF synthesis and secretion from hypothalamic neurons, the reverse capacity of SRIF to modulate the glutamate response suggests that both transmitters exhibit complex reciprocal interactions.
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PMID:Modulation by somatostatin of glutamate sensitivity during development of mouse hypothalamic neurons in vitro. 765 5

The effect of metabotropic glutamate receptor activation on Ca dihydropyridine (DHP)-sensitive channels recorded in the presence of 1 microM Bay K 8644 was examined on cultured cerebellar granule cells using the patch-clamp technique in the cell-attached configuration. Bath-applied agonist (trans-ACPD, 1S,3R-, and 1R,3S-ACPD isomers, and glutamate or quisqualate in the presence of CPP and CNQX) evoked an increase in Ca channel activity with a variable latency of 8.9 +/- 8.6 sec in 40% of the recorded cells. Neither L-CCG1, L-AP3, L-AP4, nor AMPA or NMDA activated Ca channels. Two dihydropyridine-sensitive channels present in this cell type were activated by trans-ACPD: the classical 24 pS L-type channel and a smaller-conductance 7 pS channel. The effect was shown to be mediated by neither intracellular Ca2+ nor a pertussis toxin (PTX)-sensitive G protein. Interestingly treatment with BAPTA-AM increased the number of responding patches and the activity was more sustained throughout the drug application. After overnight PTX treatment, activation of the Ca channels persisted even after washout of the agonist. These results indicate that mGluR1/mGluR5 probably mediate the facilitation of dihydropyridine-sensitive Ca channels.
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PMID:Facilitatory coupling between a glutamate metabotropic receptor and dihydropyridine-sensitive calcium channels in cultured cerebellar granule cells. 782 24

1. 1-aminocyclopentane-trans-1,3-dicarboxylic acid (t-ACPD), a racemic mixture of 1-aminocyclopentane-1S,3R-dicarboxylic acid and 1-aminocyclopentane-1R,3S-dicarboxylic acid, a selective agonist of the metabotropic glutamate receptor, was applied to mouse Purkinje neurons (PNs) in culture. Measurements of free intracellular Ca2+ were made using fura-2 microfluorimetric imaging and of membrane current using perforated-patch voltage-clamp recording in separate experiments. 2. Brief pulses of t-ACPD (< or = 100 microM, 1-5 s) consistently produced a large (200-600 nM) increase in dendritic Ca2+ that was sometimes followed by a somatic increase. The dendrites typically returned to basal Ca2+ levels within 10-30 s. 3. Ca2+ increases produced by t-ACPD were measured in Ca(2+)-free external saline [0.5 mM ethylene glycol-bis(beta-amino-ethyl ether)-N,N,N',N'-tetraacetic acid (EGTA)], suggesting that they result from intracellular mobilization rather than influx. In addition, Ca2+ increases were not attenuated by a mixture of DL-AP5 and 6-cyano-7-nitroquinoxaline-2,3-dione (CNQX) [antagonists of N-methyl-D-aspartate (NMDA) and AMPA/kainate receptors, respectively], but were almost entirely eliminated by L-AP3 (100 microM), a putative metabotropic receptor antagonist or by preincubation of the cultures in pertussis toxin. 4. Brief pulses of t-ACPD (10 microM) produced a small inward current that was associated with an increase in membrane conductance. This current was reversibly blocked by L-AP3 but not by treatments that attenuate some voltage-gated K+ currents. Thus this current is unlikely to underlie the depolarization that is produced by metabotropic agonists in hippocampal pyramidal cells by K(+)-channel closure. 5. The t-ACPD induced inward current was attenuated by substitution of external Na+ with Li+ or choline, or by application of the membrane-permeable Ca2+ chelator, bis-(2-aminophenoxy)-N,N,N',N'- tetraacetic acid (BAPTA)/AM. One mechanism that could mediate this current is electrogenic Nao/Cai exchange, triggered by Ca2+ mobilization.
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PMID:Trans-ACPD, a metabotropic receptor agonist, produces calcium mobilization and an inward current in cultured cerebellar Purkinje neurons. 806 63

Modulation of excitatory glutamatergic transmission at corticostriatal synapses by a metabotropic glutamate receptor (mGluR) was examined using a newly developed cell culture preparation in which small explants of cortical tissue are grown in co-culture with isolated striatal neurons. Electrical stimulation of cortical tissue evoked excitatory postsynaptic currents (eEPSCs) observed during tight-seal, whole-cell recordings from striatal neurons. Transmission was mediated by activation of AMPA/kainate-type glutamate receptors. The mGluR agonists, 1SR,3RS-ACPD and DCG-IV, reduced eEPSC amplitude. The effect of 1SR,3RS-ACPD increased in a concentration-dependent manner. Application of phorbol diacetate (PDAc) potentiated eEPSC amplitude and reduced the inhibitory effect of mGluR activation. Pretreatment with pertussis toxin (PTX) also reduced inhibition by 1SR,3RS-ACPD. Under conditions in which transmission was independent of the function of voltage-gated calcium channels, mGluR activation reduced the frequency of occurrence of miniature EPSCs (mEPSCs), but did not alter mEPSC amplitude. This effect of mGluR activation was reduced by PDAc treatment. mGluR activation modulates glutamatergic transmission via a presynaptic autoreceptor at corticostriatal synapses in this newly-developed corticostriatal co-culture preparation as in striatal slices. Modulation of transmission occurs whether or not transmission involves activation of voltage-gated calcium channels. Furthermore, many of the characteristics of mGluR modulation of eEPSCs are shared by mGluR modulation of mEPSCs. These findings indicate that mechanisms downstream from calcium entry may contribute to modulation of synaptic transmission by mGluR autoreceptors.
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PMID:Metabotropic glutamate receptor modulation of synaptic transmission in corticostriatal co-cultures: role of calcium influx. 853 75

AMPA/kainate receptor activation in cultured oligodendrocyte precursor cells from embryonic mouse cortex leads to a blockade of delayed rectifying K+ currents. In the present study, we provide evidence using the patch-clamp technique in the whole-cell configuration that the mechanism linking kainate receptor activation and K+ conductance blockade is due to the receptor-mediated Na+ entry: 1) The blockade was not observed in Na(+)-free bathing solution nor when intracellular [Na+] was elevated by dialzying the cell with a pipette solution containing high [Na+]. 2) Elevation of intracellular [Na+] alone led to a blockade of outward currents in contrast to cells dialyzed by sucrose. High [Li+]i also reduced the outward currents, and in Li(+)-containing bathing solution the kainate-induced blockade of K+ channels was more pronounced. Probably, Li+ accumulates intracellularly after permeation through the receptor pore due to slower extrusion mechanisms. Experiments with GTP gamma S or GDP beta S and pertussis toxin indicated that GTP-binding protein-mediated mechanisms were not of importance for the kainate-induced K+ conductance blockade. Our data suggest that in glial precursor cells AMPA/kainate receptor activation leads to an intracellular [Na+] increase which blocks delayed rectifying K+ channels.
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PMID:Blockade of K+ channels induced by AMPA/kainate receptor activation in mouse oligodendrocyte precursor cells is mediated by Na+ entry. 856 44

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