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Query: UMLS:C0043167 (
pertussis
)
19,595
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
K(+)-evoked acetyl[3H]choline ([3H]
ACh
) release was inhibited in a concentration-dependent manner by apomorphine and the D2 agonist quinpirole in striatal slices prepared from euthyroid and hypothyroid rats. However, there was a significant increase in the maximum inhibition observed with both agonists in the hypothyroid compared with the euthyroid group, which paralleled the increased D2 agonist sensitivity reported for stereotyped behavior. The D2 antagonist raclopride decreased, and the D1 antagonist SCH 23390 increased, the inhibition of [3H]
ACh
release by apomorphine, confirming an inhibitory role for D2 receptors and an opposing role for D1 receptors. Because there is no difference in D1 or D2 receptor concentration between the euthyroid and hypothyroid groups, it is suggested that thyroid hormone modulation of D2 receptor sensitivity affects a receptor-mediated event. Following intrastriatal injection of
pertussis
toxin (PTX), apomorphine no longer inhibited [3H]
ACh
release. In fact, increased [3H]-
ACh
release was observed, an effect reduced by SCH 23390, providing evidence that D1 receptors enhance [3H]-
ACh
release, and confirming that a PTX-sensitive G protein mediates the D2 response. As it has been reported that thyroid hormones modulate G protein expression, this mechanism may underlie their effect on dopamine agonist-mediated inhibition of
ACh
.
...
PMID:Dopamine agonist-mediated inhibition of acetylcholine release in rat striatum is modified by thyroid hormone status. 810 83
Acetylcholine
activates inwardly rectifying potassium channels (IK.
ACh
) in the heart through muscarinic receptor binding and activation of
pertussis
-toxin-sensitive G proteins. Experiments showing that only the beta gamma-subunit (G beta gamma) activates IK.
ACh
(ref. 4) were challenged by reports that only the activated alpha-subunit (G alpha) was effective. Here we examine IK.
ACh
regulation using purified brain and recombinant G-protein subunits. Six recombinant G beta gamma-subunits activated IK.
ACh
with apparent half-maximal activation concentrations of 3-30 nM. Activation of IK.
ACh
by recombinant G alpha-GTP gamma S was observed, but this was probably due to release of GTP gamma S from the protein. Importantly, IK.
ACh
activity elicited by GTP gamma S was inhibited by purified brain and recombinant G alpha-GDP, suggesting that native G beta gamma plays a major role in this pathway. We conclude that G beta gamma is a primary regulator of IK.
ACh
activity.
...
PMID:Recombinant G-protein beta gamma-subunits activate the muscarinic-gated atrial potassium channel. 814 26
Outer hair cells (OHC) of the mammalian cochlea are thought to preprocess the sound signal by active movements, which can be induced by electrical or chemical stimulation, e.g. depolarization evoked by high [K+] or increased cytoplasmic [Ca2+]. Extracellular ATP has been found to induce cytoplasmic [Ca2+] increases in OHC but involved mechanisms have not been elucidated. Cytoplasmic [Ca2+] was measured in non-enzymatically isolated single OHC using Fura-2 microspectrometry. Results, using ATP/derivatives and other P2-purinergic receptor (P2R) ligands, as well as Ca(2+)-channel blockers and
pertussis
toxin, revealed several signal transduction pathways that increase cytoplasmic [Ca2+] in OHC: a P2-purinergic receptor (P2R)--G-protein--effector (phospholipase C or an ion channel) system and a voltage-dependent Ca2+ channel. Agonist potency studies denote a pattern analogous to that found in skeletal muscle, i.e. ATP-alpha-S > ATP = 2-methyl-S-ATP >> ADP > alpha,beta-methylene-ATP, but no activation by ADP beta F or UTP, leaving a choice of P2y or P2zR subtypes. The latter possibility gained strength from calculations showing that up to 8% of ATP may have formed the P2zR agonist ATP4- in the experimental medium. Experiments in Ca(2+)-free medium and with
pertussis
toxin revealed that the main Ca2+ source was intracellular.
Pertussis
toxin did not affect [Ca2+] increase induced by carbachol.
Acetylcholine
, administered a few seconds before ATP, did not affect total cytoplasmic [Ca2+] increases. Induced cytoplasmic [Ca2+] increases were high enough (> 500 nM at 50 microM ATP/derivatives) to hyperpolarize the OHC membrane by opening K(+)-channels and decreased little with time.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:ATP-induced cytoplasmic [Ca2+] increases in isolated cochlear outer hair cells. Involved receptor and channel mechanisms. 815 3
Acetylcholine
(
ACh
) binding to atrial muscarinic receptors activates an inwardly rectifying K+ current (IK[
ACh
]) via a
pertussis
toxin-sensitive GTP-binding protein (GK). The muscarinic K+ channel (termed GIRK1) has been cloned, and the nucleotide sequence contains nine consensus sites for protein kinase C (PKC) phosphorylation (16). Dephosphorylation of the muscarinic K+ channel has been implicated in rapid IK[
ACh
] desensitization in the presence of agonist (13). Staurosporine is a widely used membrane-permeant inhibitor of PKC and other protein kinases (7), including G protein-coupled receptor kinases. We investigated the role of phosphorylation in the regulation of IK[
ACh
] by examining the effect of a variety of protein kinase inhibitors. Staurosporine produced a rapid and reversible dose-dependent decrease in IK[
ACh
], activated by either GTP or guanosine 5'-O-(3-thiotriphosphate) (GTP gamma S). Other PKC inhibitors, including calphostin C and K-252b, were without effect on GTP gamma S-activated IK[
ACh
]. In excised patches of atrial membrane under nonphosphorylating conditions (0 ATP, 1 mM 5'-adenylylimidodiphosphate), staurosporine reversibly reduced muscarinic K+ channel activity without altering single-channel current amplitude. These results suggest that staurosporine inhibits IK[
ACh
] by a mechanism independent of intracellular protein kinases.
...
PMID:Protein kinase-independent inhibition of muscarinic K+ channels by staurosporine. 817 60
Acetylcholine
(ACh) is known to increase K+ conductance in the atrium and in pacemaker tissues in the heart. This effect has not been well defined in mammalian ventricular tissues. We have identified and characterized the ACh-sensitive muscarinic K+ channel [IK(ACh)] activity in isolated human, cat, and guinea pig ventricular myocytes using the patch-clamp technique. Application of ACh increased whole cell membrane current in human ventricular myocytes. Current-voltage relationship of the ACh-induced current in ventricle exhibited inward-rectification whose slope conductance was smaller than that in atrium. In single-channel recording from cell-attached patches, IK(ACh) activity was observed when ACh was included in the solution. The channel exhibited a slope conductance of 43 +/- 2 pS. Open times were distributed according to a single exponential function with mean open lifetime of 1.8 +/- 0.3 ms. The channel had conductance and kinetic characteristics similar to human atrial IK(ACh), which had a slope conductance of 43 +/- 3 pS and mean open lifetime of 1.6 +/- 0.3 ms. However, concentration of ACh at half-maximal stimulation (KD) of the channel in ventricle was greater (KD = 0.13 microM) than that in atrium (KD = 0.03 microM). Adenosine caused activation of the same K+ channel. After formation of an excised inside-out patch, channel activity disappeared. Application of GTP (100 microM) or GTP gamma S (100 microM) to the solution caused reactivation of the channel. When myocytes were preincubated with
pertussis
toxin (PTX), ACh failed to activate these channels, indicating that the PTX-sensitive G protein, Gi, is essential for activation of IK(ACh). IK(ACh) channel activity was also found in cat and guinea pig ventricular myocytes. We conclude that ACh directly activates the IK(ACh) in mammalian ventricular myocytes via Gi in a fashion almost identical to atrial myocytes.
...
PMID:Acetylcholine-sensitive muscarinic K+ channels in mammalian ventricular myocytes. 820 80
Acetylcholine
(
ACh
)-induced contraction of esophageal circular smooth muscle cells was inhibited by the M2 muscarinic antagonist methoctramine. In lower esophageal sphincter (LES) cells contraction was inhibited by the M3 antagonist p-fluoro-hexa-hydro-sila-difenidol (pF-HSD).
Pertussis
toxin (PTX) reduced
ACh
-induced contraction of esophageal but not of LES cells, which suggested that different receptor-linked G proteins are involved. Antibodies against G13 antagonized contraction of esophageal cells and G9-G11 antibodies antagonized contraction of LES cells. The phosphatidylinositol-specific phospholipase C (PLC) inhibitors, U-73122 and neomycin, reduced
ACh
-induced contraction of LES but not of esophageal cells. Conversely, propranolol and p-chloromercuribenzoic acid (pCMB), which inhibit a phosphatidylcholine-specific phospholipase D (PLD)-dependent pathway, reduced contraction of esophageal but not of LES muscle cells. At 1 and 5 sec after the administration of
ACh
(10(-5) M), inositol 1,4,5-trisphosphate (IP3) increased only in LES muscle, which suggested that contraction results from PLC-induced IP3 production in the LES but not in the esophagus. The IP3 receptor antagonist heparin, and depletion of intracellular Ca++ stores by thapsigargin or A23187, inhibited
ACh
-induced contraction of LES but not of esophageal muscle. It was concluded that
ACh
-induced esophageal contraction depends preferentially on M2 receptors, a PTX-sensitive G13 protein, phosphatidylcholine-specific PLD and production of diacylglycerol (DAG) and is independent of IP3 formation and the release of intracellular Ca++. Conversely, LES contraction is mediated through M3 receptors, a PTX-insensitive G9-G11 protein, activation of PLC, IP3 formation and the release of intracellular Ca++.
...
PMID:Distinct muscarinic receptors, G proteins and phospholipases in esophageal and lower esophageal sphincter circular muscle. 826 81
1.
Acetylcholine
(
ACh
) produces two membrane current changes when applied to NG108-15 mouse neuroblastoma x rat glioma hybrid cells transformed (by DNA transfection) to express m1 muscarinic receptors: it activates a Ca(2+)-dependent K+ conductance, producing an outward current, and it inhibits a voltage-dependent K+ conductance (the M conductance), thus diminishing the M-type voltage-dependent K+ current (IK(M)) and producing an inward current. The present experiments were undertaken to find out how far inhibition of IK(M) might be secondary to stimulation of phospholipase C, by recording membrane currents and intracellular Ca2+ changes with indo-1 using whole-cell patch-clamp methods. 2. Bath application of 100 microM
ACh
reversibly inhibited IK(M) by 47.3 +/- 3.2% (n = 23). Following pressure-application of 1 mM
ACh
, the mean latency to inhibition was 420 ms at 35 degrees C and 1.79 s at 23 degrees C. Latencies to inhibition by Ba2+ ions were 148 ms at 35 degrees C and 92 ms at 23 degrees C. 3. The involvement of a G-protein was tested by adding 0.5 mM GTP-gamma-S or 10 mM potassium fluoride to the pipette solution. These slowly reduced IK(M), with half-times of about 30 and 20 min respectively, and rendered the effect of superimposed
ACh
irreversible. Effects of
ACh
were not significantly changed after pretreatment for 24 h with 500 ng ml-1
pertussis
toxin or on adding up to 10 mM GDP-beta-S to the pipette solution. 4. The role of phospholipase C and its products was tested using neomycin (to inhibit phospholipase C), inositol 1,4,5-trisphosphate (InsP3) and inositol 1,3,4,5-tetrakisphosphate (InsP4), heparin, and phorbol dibutyrate (PDBu) and staurosporin (to activate and inhibit protein kinase C respectively). Both neomycin (1 mM external) and InsP3 (100 microM intrapipette) inhibited the
ACh
-induced outward current and/or intracellular Ca2+ transient but did not block
ACh
-induced inhibition of IK(M). Intrapipette heparin (1 mM) blocked activation of IK(Ca) and reduced Ach-induced inhibitions of IK(M), but also reduced inhibition of ICa via endogeneous m4 receptors. PDBu (with or without intrapipette ATP) and staurosporin had no significant effects.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:On the mechanism of M-current inhibition by muscarinic m1 receptors in DNA-transfected rodent neuroblastoma x glioma cells. 827 Nov 96
[3H]
Acetylcholine
release elicited with 360 pulses/3 Hz from slices of rabbit hippocampus is facilitated in the presence of the muscarine (M) receptor antagonist atropine (indicating the existence of autoinhibition) and diminished by the M receptor agonists carbachol and oxotremorine. N-Ethylmaleimide (30 microM) and
pertussis
toxin (8 micrograms/ml) counteracted antagonist-induced facilitation and agonist-induced inhibition of release, suggesting that a
pertussis
toxin-sensitive GTP-binding protein is involved in the chain of events mediating activation of M receptors to inhibition of release. Neither 8-bromo-cyclic AMP (300 microM), a membrane analogue of cyclic AMP, nor rolipram (10 microM), a phosphodiesterase inhibitor, affected electrically evoked release of [3H]acetylcholine. They also did not influence the oxotremorine-induced inhibition of transmitter release. In conclusion, no evidence was found for the assumption that activation of M autoreceptors is linked to inhibition of adenylate cyclase.
...
PMID:Muscarine receptors regulating electrically evoked release of acetylcholine in hippocampus are linked to pertussis toxin-sensitive G proteins but not to adenylate cyclase. 836 Jun 71
L-type Ca2+ current (ICa) was measured in cultured atrial myocytes from hearts of adult guinea-pigs using whole-cell voltage clamp. Potentiation of ICa induced by beta-adrenergic stimulation (isoprenaline 2.10(-7) M) could be completely antagonized by diluted sera (1:100 v/v). Half-maximal inhibition of beta-receptor-stimulated ICa occurred at about 1:1000. Basal ICa was not affected by serum. Atropine in a concentration (10(-6) M) that completely antagonized the anti-adrenergic effect of acetylcholine (
ACh
, 2.10(-6) M) did not interfere with the effect of serum. In cells dialysed with cyclic adenosine monophosphate (cAMP)-containing (10(-4) M) pipette solution, potentiated ICa was insensitive to both
ACh
and serum. Preincubation of the myocytes with
pertussis
toxin almost completely abolished the anti-adrenergic effects of both
ACh
and serum. The potency of serum was not reduced by dialysis. It is concluded that serum contains a factor which, like
ACh
, inhibits beta-receptor-stimulated adenylyl cyclase via Gi-protein.
...
PMID:Serum contains a potent factor that decreases beta-adrenergic receptor-stimulated L-type Ca2+ current in cardiac myocytes. 839 81
1. We investigated the mechanism of signal transduction during the effect of muscarinic receptor stimulation on Ca2+ transients, tension, Ca2+ sensitivity and the cross-bridge cycling rate (CCR). 2. Membrane-permeable derivatives of cyclic GMP (8-bromo-cyclic GMP and dibutyryl cyclic GMP) did not cause any significant changes in the peaks of Ca2+ transients and tension and the time courses of either signal modulated by isoprenaline (Iso) (0.1 microM). 3. Nitroprusside (0.1-1 mM) likewise did not change the peaks or the time courses of Ca2+ transients and tension in the Iso-treated preparations. 4. In papillary muscles excised from ferrets treated with
pertussis
toxin (islet-activating protein, IAP), which is known to abolish the function of GTP-binding proteins (Gi, Go and Gt), similar changes in Ca2+ transients and tension produced by treatment with Iso (0.1 microM) were noted as in non-IAP-treated preparations. However, no effects of acetylcholine (
ACh
; 1 microM) on either signal were observed. 5. The relation between [Ca2+]i and tension measured during the steady state of tetanic contraction was shifted to the right by Iso (0.1 microM), and cyclic GMP derivatives (1 mM) did not change the altered relation. In the IAP-treated preparations,
ACh
(1 microM) did not influence the relation altered by Iso (0.1 microM). 6. Cyclic GMP derivatives (1 mM) did not alter the Iso (0.1 microM)-increased CCR measured by perturbation analysis.
ACh
(1 microM) did not restore the Iso-increased CCR in the IAP-treated preparations. 7. These results suggest that signal transduction in muscarinic receptor stimulation is primarily mediated by inhibition of adenylate cyclase via IAP-sensitive GTP-binding proteins, and that cyclic GMP does not play an important role in the effect of muscarinic receptor stimulation on Ca2+ transients, tension, Ca2+ sensitivity or CCR.
...
PMID:Mechanism of the effects of acetylcholine on the contractile properties and Ca2+ transients in ferret ventricular muscles. 839 24
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