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)

1. Whole cell voltage-clamp techniques were used in the CA1 region of rat hippocampal slices to study presynaptic and postsynaptic gamma-aminobutyric acid B (GABAB) response mechanisms. The effects of the protein kinase C activator phorbol 12,13-diacetate (PDA), barium (Ba2+), and pertussis toxin were compared on the presynaptic and postsynaptic GABAB actions of bath-applied baclofen and paired-pulse depression (PPD) of the monosynaptic GABAA inhibitory postsynaptic current (IPSC). The magnitude of PPD was dependent on the amplitude of the first response. PPD was predominantly a GABAB-mediated effect, as it was very much reduced by the GABAB antagonist CGP 35348. 2. PDA enhanced monosynaptic GABAA IPSCs through an apparently presynaptic mechanism. Iontophoretic GABAA responses were unaffected, and there was no change in EIPSC. PDA increased the frequency of spontaneous, tetrodotoxin-insensitive IPSCs without significantly affecting their amplitudes. The inactive phorbol ester, 4 alpha-PDA did not alter IPSCs. After PDA application, stimulus intensity was adjusted to produce responses of comparable amplitude to control responses. PDA had a marked and reversible depressant effect on the postsynaptic GABAB response and caused a lesser, but still significant, reduction in the baclofen-induced reduction of monosynaptic IPSCs. PDA had no effect on PPD. 3. Ba2+ dramatically reduced postsynaptic GABAB responses; it had no effect on PPD. Ba2+ tended to decrease the presynaptic baclofen reduction of IPSCs, although this was not statistically significant. 4. Pertussis toxin, injected 2-3 days earlier into the intact hippocampus, blocked all three GABAB responses equally (approximately 70% decrease). 5. We conclude that presynaptic and postsynaptic GABAB mechanisms are mediated by G proteins that couple to different mechanisms. Discrepancies with previous work are evidently due to the use of different tissue preparations and different target responses. Even though protein kinase C activation caused a partial reduction in the presynaptic effect of baclofen, its lack of effect on PPD makes a significant role for protein kinase C in modulation of PPD unlikely.
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PMID:Differences between presynaptic and postsynaptic GABAB mechanisms in rat hippocampal pyramidal cells. 788 61

1. The metabotropic glutamate (mGlu) response was investigated in dissociated rat hippocampal CA1 pyramidal neurones using conventional and nystatin-perforated whole-cell modes of the patch recording configuration. 2. In the perforated patch recording configuration, the application of glutamate (Glu), quisqualate (QA), aspartate (Asp) and N-methyl-D-aspartate (NMDA) induced a slow outward current superimposed on a fast ionotropic inward current, whereas alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionate (AMPA) and kainate (KA) induced only an ionotropic inward current at a holding potential (VH) of -20 mV. A specific agonist of the mGlu receptor (mGluR), trans-1-aminocyclopentane-1,3-dicarboxylate (tACPD), induced an outward current in approximately 80% of the neurones tested. Asp- and NMDA-induced outward currents were antagonized by D-2-amino-5-phosphonopentanoate (D-AP5) whereas Glu-, QA- and tACPD-induced outward currents were not antagonized by 6-cyano-7-nitroquinoxaline-2,3-dione (CNQX), 6,7-dinitroquinoxaline-2,3-dione (DNQX) and D-AP5, indicating that the mGlu response is an outward current component. 3. L-2-Amino-3-phosphonopropionate (L-AP3) and DL-2-amino-4-phosphonobutyrate (AP4) did not block the mGlu response. 4. The relative potencies of mGlu agonists were QA > Glu > tACPD. The threshold and EC50 values of metabotropic outward currents were 10-100 times lower than those of the ionotropic inward current (iGlu response). 5. The reversal potential of the mGlu response (EmGlu) was close to EK (K+ equilibrium potential), and it shifted 59.5 mV for a tenfold change in extracellular K+ concentration. 6. In Ca(2+)-free external solution, the mGlu response was elicited by an initial application of Glu, but subsequent applications failed to induce the response. There was also an increase in the intracellular free Ca2+ concentration ([Ca2+]i) during the application of Glu and QA but not of AMPA, indicating Ca2+ release from an intracellular Ca2+ store. 7. During the activation of a Ca(2+)-dependent K+ current (IK(Ca)) by inositol trisphosphate (IP3) in the internal solution, the mGlu response was suppressed. Addition of GDP-beta-S, neomycin or heparin to the internal solution also suppressed the mGlu response, but staurosporine had no effect. The mGlu response was abolished by pretreatment with either caffeine or ryanodine, but treatment with pertussis toxin (IAP) for 6-8 h had no effect. 8. The mGlu response was suppressed by tetraethylammonium, but not by either apamin or iberiotoxin, suggesting that intermediate-conductance Ca(2+)-dependent K+ (KCa+) channels are involved.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Metabotropic glutamate response in acutely dissociated hippocampal CA1 pyramidal neurones of the rat. 791 30

1. Voltage- and current-clamp intracellular recordings were performed on rat CA3 hippocampal pyramidal cells in a slice preparation. 2. Under current-clamp conditions, 5-hydroxytryptamine (5-HT) or baclofen (BAC) perfusion hyperpolarized CA3 cells. 3. Under single-electrode voltage-clamp conditions, 5-HT perfusion elicited an outward current flow that was blocked by 2 mM BaCl2 but not by 100 microM CdCl2. 4. The Emax of the current response in CA3 was larger than that elicited in CA1 and the potency was less in CA3 than CA1. 5. Increasing the external potassium concentration shifted the reversal potential for the 5-HT-mediated response. 6. The potassium current exhibited inward rectification. 7. The BAC- and 5-HT-mediated currents were not additive. 8. Pertussis-toxin (PTX) treatment blocked both 5-HT- and BAC-elicited hyperpolarizations. 9. On the basis of these results, we conclude that 5-HT hyperpolarized hippocampal CA3 pyramidal cells by increasing an inward-rectifying potassium conductance. Furthermore both the 5-HT1A and gamma-aminobutyric acidB (GABAB) receptors are linked to potassium channels via a PTX-sensitive G protein.
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PMID:5-HT1A receptor linked to inward-rectifying potassium current in hippocampal CA3 pyramidal cells. 793 9

Interleukin-1 beta depresses the voltage-gated Ca2+ channel currents in acutely dissociated guinea-pig hippocampal CA1 neurons. This depression is observed with pathophysiological concentrations found in the cerebrospinal fluid (> or = 1.0 pg interluekin-1 beta/10 microliters). Interleukin-1 receptor antagonist (in concentrations 25-fold higher than interleukin-1 beta) completely blocked the interleukin-1 beta-induced depression of the Ca2+ channel current. This suggests that interleukin-1 beta action is through a specific interaction with an interleukin-1 membrane receptor site. The application of other cytokines and growth factors (interleukin-6, epidermal growth factor, and basic fibroblast growth factor), or bacterial lipopolysaccharide (endotoxin) had no effect, indicating specificity of action of interleukin-1 beta. The depression of the Ca2+ channel current by interleukin-1 beta was prevented by the extracellular application of pertussis toxin, and by the intracellular application of GDP[beta S], H-7, staurosporine or bisindolylmaleimide. Application of phorbol 12-myristate 13-acetate also depressed the Ca2+ channel current, but this phorbol ester-induced depression was not additive to that induced by interleukin-1 beta. These results suggest mediation of interleukin-1 beta action through a pertussis toxin-sensitive G-protein coupled interleukin-1 receptor associated with the activation of protein kinase C. The depression of the Ca2+ channel current by interleukin-1 beta may be involved in the regulation of neuronal excitability during pathological conditions and in the induction and/or progression of neurodegenerative processes.
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PMID:Interleukin-1 beta inhibits Ca2+ channel currents in hippocampal neurons through protein kinase C. 813 77

The inhibition of Ca2+ channel currents by endogenous brain steroids was examined in freshly dissociated pyramidal neurons from the adult guinea pig hippocampal CA1 region. The steady-state inhibition of the peak Ca2+ channel current evoked by depolarizing steps from -80 to -10 mV occurred in a concentration-dependent manner with the following IC50 values: pregnenolone sulfate (PES), 11 nM; pregnenolone (PE), 130 nM; and allotetrahydrocorticosterone (THCC), 298 nM. THCC, PE, and PES depressed a fraction of the Ca2+ channel current with a maximal inhibition of 60% of the total current. However, substitution of an acetate group for the sulfate group on PES resulted in a complete loss of activity. Progesterone had no effect (4% inhibition at 100 microM). Intracellular dialysis of PES had no effect on the Ca2+ current; concomitant extracellular perfusion of PES showed normal inhibitory activity, suggesting that the steroid binding site can only be accessed extracellularly. Analysis of tail currents at -80 mV demonstrated that THCC and PES slowed the rate of Ca2+ current activation and deactivation with no change in the voltage dependence of activation. Inhibition of the Ca2+ channel current by THCC and PES was voltage dependent. THCC primarily inhibits the omega-conotoxin (CgTX)-sensitive or N-type Ca2+ channel current. PE was nonselective in inhibiting both the CgTX- and the nifedipine (NIF)-sensitive Ca2+ channel current. These neurosteroids had no effect on the CgTX/NIF-insensitive current. In neurons isolated from pertussis toxin (PTX)-treated animals by chronic intracerebroventricular infusion (1000 ng/24 hr for 48 hr), the Ca2+ channel current inhibition by PES, PE, and THCC was significantly diminished. Intracellular dialysis with GDP-beta-S (500 microM) also significantly diminished the neurosteroid inhibition of the Ca2+ channel current. Intracellular dialysis with the general kinase inhibitors H-7 (100 microM), staurosporine (400 nM), and a 20 amino acid protein kinase inhibitor (1 microM) also significantly prevented the THCC and PES inhibition of the Ca2+ channel current. Intracellular dialysis with the more specific inhibitors of protein kinase C (PKC), the pseudosubstrate inhibitor (PKCI 19-36) (1-2 microM) and bisindolylmaleimide (1 microM) significantly diminished the THCC and PE inhibition of the Ca2+ channel current. Rp- cAMP (100 microM), a specific inhibitor of cAMP-dependent protein kinase (PKA), had no effect on the THCC and PE inhibition of the Ca2+ current.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Neurosteroids modulate calcium currents in hippocampal CA1 neurons via a pertussis toxin-sensitive G-protein-coupled mechanism. 815 51

The involvement of a pertussis toxin (PTX)-sensitive G-protein in the activation of presynaptic GABAB receptor is controversial. In the present study, we reinvestigated the problem using intracellular recordings from CA1 neurons in rat hippocampus slices. We showed that the presynaptic inhibitory effect of baclofen is mediated differently at excitatory and inhibitory synapses. Excitatory (e.p.s.p.) and inhibitory (i.p.s.p.) postsynaptic potentials were strongly antagonized by baclofen in control rats. Three days after administration of PTX into the stratum radiatum of the hippocampus, the inhibitory effect of baclofen on i.p.s.p. was antagonized. In contrast, the inhibitory effect on e.p.s.p. was partly maintained. These results suggest that different sub-types of GABAB receptors exist on nerve terminals with different transduction mechanisms. GABAB receptors located on GABAergic inhibitory terminals are linked to a PTX-sensitive G-protein, whereas those located on excitatory terminals could consist of a PTX-sensitive type and a PTX-insensitive type. In addition, we showed that part of the inhibitory effect of baclofen at excitatory synapses is independent of omega-conotoxin (omega-CgTx)-sensitive N-type Ca2+ channels.
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PMID:Presynaptic inhibitory effect of baclofen on hippocampal inhibitory synaptic transmission involves a pertussis toxin-sensitive G-protein. 838 1

Cultured neurons from the CA1 and CA3 regions of the rat hippocampus were studied by using the whole-cell version of patch clamp. Application of acetylcholine (5-10 microM) or muscarine (20 microM) to a neuron with a holding potential of approximately -70 mV produced a slow inward current. This inward current was inhibited by atropine (1-2 microM). Loading the cell with GTP gamma S caused a change in the muscarinic response. In the control cells the muscarine-induced inward current recovered by 89%. On the other hand, in the GTP gamma S-loaded cells the inward current recovered by only 30%, indicating some irreversibility. Pertussis toxin treatment did not change the muscarine-induced slow inward current. Loading the cells with cyclic AMP (100 microM) plus IBMX (1 mM) (an inhibitor of phosphodiesterase) did not occlude the effect of muscarine. We conclude that the slow inward current is mediated through a pertussis toxin-insensitive G protein, and that cyclic AMP is not a part of the signal transduction cascade. The finding that the GTP gamma S-loaded cells did not show complete irreversibility was discussed in relation to the results of Benson et al. (J. Physiol., 404 (1988) 479-496), which showed that there are two ionic mechanisms responsible for the muscarine-induced depolarization. Occasionally cells were encountered, in which muscarine (or acetylcholine) evoked a large and rapid inward current, followed by the usual slow inward current. The time course of this rapid response was not affected by GTP gamma S.
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PMID:The role of G protein in muscarinic depolarization near resting potential in cultured hippocampal neurons. 839 28

Metabotropic glutamate receptors (mGluRs) form a receptor family that consists of diverse receptor subtypes; now, numbering 8--exclusive of splice variants. (1S,3R)-1-aminocyclopentane-1,3-dicarboxylic acid (1S,3R-ACPD) has been suggested to be a selective agonist for the mGluRs. We have recently reported that, in rat dorsolateral septal nucleus (DLSN) neurones, a 1S,3R-ACPD-preferring inward current (ACPDi) persists in pertussis toxin-treated rats. We now report that this ACPDi-current: (1) persists in DLSN neurones dialyzed with a stable analog of GTP, namely, GTP gamma S; (2) exhibits a negative slope region with inward rectification in its I-V relationship; (3) persists in neurones superfused with tetrodotoxin or low calcium solutions; (4) is dependent upon both sodium and calcium ions; and (5) is independent of a reduction in temperature. Furthermore, pharmacological data suggest that this current may be activated by a unique type of excitatory amino acid (EAA) receptor, i.e. a receptor which prefers "metabotropic" EAA agonists and is insensitive to AP5 or CNQX. Activation by ACPD of inward currents associated with a conductance increase have also been reported at cultured mouse cerebellar Purkinje neurones; in slices of rat hippocampal CA1 neurones and slice cultures of hippocampal CA3 neurones. We suggest that this ACPDi current may play an important role within the CNS in the induction of long-term potentiation and other neurological processes; processes attributed previously to currents associated with NMDA receptor activation.
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PMID:1S,3R-ACPD-preferring inward current in rat dorsolateral septal neurons is mediated by a novel excitatory amino acid receptor. 853 72

Orphanin FQ (OFQ) has recently been reported to be an endogenous ligand for the opioid-like LC132 receptor. The effect of OFQ on high voltage-gated calcium channels (VGCCs) was examined in freshly dissociated rat pyramidal neurons using the whole-cell configuration of the patch-clamp technique. High-threshold Ba2+ currents were reversibly inhibited by OFQ. The depression of the currents was associated with a slowed rate of activation and a change in the activation I-V relationship at step potentials higher than +30 mV. In concentration-response experiments, a mean (+/-SEM) pEC50 value of 7.0 +/- 0.07 and a Hill coefficient of 1.5 +/- 0.08 (n = 5) were obtained. The near-maximum inhibition of the Ba2+ currents by OFQ (1 microM) amounted to 31 +/- 2.2% of control (n = 15). Opioid receptors could not account for the effects of OFQ on VGCCs, because naloxone, a broad spectrum mu-, delta-, and kappa-receptor antagonist, did not reduce the effectiveness of OFQ. When GTP-gamma-S was included in the pipette, the depression of the currents by OFQ was irreversible, whereas currents from neurons preincubated with pertussis toxin were not inhibited by OFQ, consistent with the involvement of a PTX-sensitive G-protein. When selective blockers of VGCCs were used, it was demonstrated that all subtypes of VGCCs were affected by OFQ. In conclusion, the effect of OFQ on VGCCs expressed in hippocampal CA3 and CA1 neurons may play an important role in the regulation of hippocampal cell excitability and neurotransmitter release.
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PMID:Modulation of voltage-gated calcium channels by orphanin FQ in freshly dissociated hippocampal neurons. 882 6

1. The effects of the selective thromboxane A2 (TXA2) receptor agonist I-BOP on neuronal excitability and synaptic transmission were studied in the CAl neurones of rat hippocampal slices by an intracellular recording technique. 2. Superfusion of I-BOP (0.5 microM) resulted in a biphasic change of the excitatory postsynaptic potential (e.p.s.p.), which was blocked by pretreatment with SQ 29548, a specific antagonist of TXA2 receptors. The inhibitory phase of I-BOP on the e.p.s.p. was accompanied by a decrease in neuronal membrane input resistance. 3. The sensitivity of postsynaptic neurones to glutamate receptor agonists, alpha-amino-3-hydroxy-5-methylisoxazole-4-propionic acid (AMPA) or N-methyl-D-aspartate (NMDA), was unchanged by I-BOP (0.5 microM) pretreatment. 4. Bath application of Ba2+ (0.5 mM) prevented both the I-BOP-induced reduction of the neuronal membrane input resistance and the blockade of e.p.s.p. induced by I-BOP. 5. Intracellular dialysis of the hippocampal CA1 neurones with GDP (10 mM) significantly attenuated the I-BOP inhibition of e.p.s.p. and membrane input resistance. Incubation of the slices with either pertussis toxin (PTX, 5 micrograms ml-1 for 12 h) or cholera toxin (CTX, 5 micrograms ml-1 for 12 h) did not affect the biphasic action of I-BOP on the e.p.s.p. or the reduction of membrane input resistance induced by I-BOP. 6. Pretreatment of the slices with the protein kinase C (PKC) inhibitor, NPC-15437 (20 microM), abolished the biphasic modulation by I-BOP (0.5 microM) of the e.p.s.p. Intracellular application of a specific PKC inhibitor, PKCI 19-36 (20 microM), completely inhibited the I-BOP reduction of e.p.s.p. The specific cyclic AMP-dependent protein kinase (PKA) inhibitor, Rp-cyclic adenosine 3',5'-monophosphate (Rp-cyclic AMPS, 25 microM), had no effect on the I-BOP action. 7. In this study we have demonstrated, for the first time, the existence of functional TXA2 receptors in the hippocampus which mediate the effects of a TXA2 agonist on neuronal excitability and synaptic transmission. Activation of the presynaptic TXA2 receptors may stimulate the release of glutamate. Conversely, activation of postsynaptic TXA2 receptors leads to inhibition of synaptic transmission resulting from a decrease in the membrane input resistance of the neurones. The pre- and postsynaptic actions of the TXA2 agonist are both mediated by PTX- and CTX-insensitive G-protein-coupled activation of PKC pathways.
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PMID:Thromboxane A2 agonist modulation of excitatory synaptic transmission in the rat hippocampal slice. 886 65

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