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)

Muscarinic stimulation of fura 2-loaded smooth muscle cells evoked a rapidly inactivating Ca(2+)-activated Cl- current [ICl(Ca)] and a sustained nonselective cation current (Icat) as well as a transient (delta Ca(tran)) and a sustained (delta Ca(sus)) elevation of cytosolic Ca2+ concentration ([Ca2+]i). Caffeine and inositol 1,4,5-trisphosphate induced delta Ca(tran) and ICl(Ca) but not Icat or delta Ca(sus). M2 receptor antagonism blocked muscarinic activation of Icat and delta Ca(sus) but not ICl(Ca) and delta Ca(tran). M3 antagonism blocked activation of ICl(Ca) and Icat and a rise in [Ca2+]i, but application of caffeine with methacholine restored Icat and delta Ca(sus). After depletion of intracellular Ca2+ stores, methacholine failed to induce Icat or a [Ca2+]i increase and, in pertussis toxin-treated cells, ICl(Ca) and delta Ca(tran) but not Icat or delta Ca(sus) were evoked. Anti-G alpha i-1/G alpha i-2 antibodies and anti-G alpha i-3/ G(o) alpha antibodies blocked Icat but did not affect ICl(Ca). Anti-Gq alpha/ G alpha 11 antibodies greatly inhibited ICl(Ca) but did not affect Icat. Activation of M2 receptors leads to the opening of nonselective cation channels through Gi/G(o) proteins in smooth muscle cells, resulting in a sustained rise in [Ca2+]i. Arise in [Ca2+]i is necessary but not sufficient for activation of nonselective cation channels.
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PMID:M2 receptor activation of nonselective cation channels in smooth muscle cells: calcium and Gi/G(o) requirements. 927 47

We investigated the muscarinic activation of Ca(2+)-activated Cl- currents [ICl(Ca)] in voltage-clamped equine tracheal myocytes. The threshold of cytosolic free Ca2+ concentration ([Ca2+]i) required for activation of ICl(Ca) was 202 +/- 22 nM, and full activation of the current occurred at 771 +/- 31 nM. Hexahydro-sila-difenidol (M3 antagonist) inhibited the methacholine-induced phasic [Ca2+]i increase and ICl(Ca) in a concentration-dependent manner, whereas methoctramine (M2 antagonist) only slightly attenuated the [Ca2+]i increase and ICl(Ca) (14.8 and 21.4%, respectively), consistent with incomplete selectivity. Dialysis of heparin (10 mg/ml) blocked methacholine-induced [Ca2+]i and ICl(Ca) but had no effect on the caffeine-induced Ca2+ release or ICl(Ca); inositol 1,4,5-trisphosphate (100 microM) induced ICl(Ca) and blocked the methacholine current. Conversely, ruthenium red (50 microM) prevented the caffeine-induced [Ca2+]i release and ICl(Ca) but had no effect on methacholine-induced [Ca2+]i or current. Intracellular dialysis of the calmodulin antagonist N-(6-aminohexyl)-1-naphthalenesulfonamide (W-7, 500 microM) or the Ca2+/calmodulin-dependent protein kinase inhibitor KN93 (5 microM) had no effect on the [Ca2+]i increase or ICl(Ca). Pertussis toxin (0.5 mg/ml) did not affect the increase in [Ca2+]i or ICl(Ca). Dialysis with antibodies directed against the alpha-subunit of Gq/G11 (Gq alpha/ G alpha 11) blocked the methacholine-induced ICl(Ca) in a concentration-dependent manner, whereas anti-G alpha i-1/G alpha 1-2 antibodies (1:35) and anti-G alpha i-3/G(o) alpha antibodies (1:35) were without effect. The results indicate that stimulation of phospholipase C via M3/Gq proteins is the predominant signaling pathway for the activation of ICl(Ca); at high agonist concentrations, Ca(2+)-induced Ca2+ release does not appear to play a prominent role in muscarinic signaling.
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PMID:Muscarinic signaling pathway for calcium release and calcium-activated chloride current in smooth muscle. 927 48

1. This study was aimed at characterizing ATP-induced rises in cytosolic free calcium ion, [Ca2+]i, in a population of rat striatal astrocytes loaded with the fluorescent Ca2+ probe Fura2, by means of fluorescence spectrometry. 2. ATP triggered a fast and transient elevation of [Ca2+]i in a concentration-dependent manner. The responses of the purine analogues 2-methylthio-ATP (2-meSATP), adenosine-5'-O-(2-thiodiphosphate) (ADP beta S), as well as uridine-5'-triphosphate (UTP) resembled that of ATP, while alpha, beta-methylene-ATP (alpha, beta-meATP) and beta, gamma-methylene-ATP (beta, gamma-meATP) were totally ineffective. 3. Suramin (50 microM) had only a minor effect on the ATP response, whereas pyridoxal phosphate-6-azophenyl-2',4'-disulphonic acid (PPADS) (5 microM) significantly depressed the maximum response. 4. Extracellular Ca2+ did not contribute to the observed [Ca2+]i rise: removing calcium from the extracellular medium (with 1 mM EGTA) or blocking its influx by means of either Ni2+ (1 mM) or Mn2+ (1 mM) did not modify the nucleotide responses. 5. Furthermore, after preincubation with 10 microM thapsigargin, the nucleotide-evoked [Ca2+]i increments were completely abolished. In contrast, 10 mM caffeine did not affect the responses, suggesting that thapsigargin-, but not caffeine/ryanodine-sensitive stores are involved. 6. Both application of the G-protein blocker guanosine-5'-O-(2-thiodiphosphate) (GDP beta S) (1 mM) and preincubation with pertussis toxin (PTx) (350 ng ml-1) partially inhibited the nucleotide-mediated responses. Moreover, the phospholipase C (PLC) inhibitor U-73122, but not its inactive stereoisomer U-73343 (5 microM), significantly reduced the ATP-evoked [Ca2+]i rise. 7. In conclusion, our results suggest that, in rat striatal astrocytes, ATP-elicited elevation of [Ca2+]i is due solely to release from intracellular stores and is mediated by a G-protein-linked P2Y receptor, partially sensitive to PTx and coupled to PLC.
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PMID:Characterization of the Ca2+ responses evoked by ATP and other nucleotides in mammalian brain astrocytes. 928 6

1. The role of bradykinin receptors in the regulation of sympathetic transmitter release was investigated in primary cultures of neurones dissociated from superior cervical ganglia of neonatal rats. These cultures were loaded with [3H]-noradrenaline and the outflow of radioactivity was determined under continuous superfusion. 2. Bradykinin (100 nmol l[-1] applied for 10 min) caused a transient increase in tritium outflow that reached a peak within four minutes after the beginning of the application and then declined towards the baseline, despite the continuing presence of the peptide. ATP (100 micromol l[-1]) and nicotine (10 micromol l[-1]) caused elevations in 3H outflow with similar kinetics, whereas outflow remained elevated during a 10 min period of electrical field stimulation (0.5 ms, 50 mA, 50 V cm[-1], 1.0 Hz). 3. When bradykinin was applied for periods of 2 min, the evoked 3H overflow was half-maximal at 12 nmol l(-1) and reached a maximum of 2.3% of cellular radioactivity. The preferential B1 receptor agonist des-Arg9-bradykinin failed to alter 3H outflow. The B2 receptor antagonists, [D-Phe7]-bradykinin (1 micromol l[-1]) and Hoe 140 (10 nmol l[-1]), per se did not alter 3H outflow, but shifted the concentration-response curve for bradykinin-evoked 3H overflow to the right by a factor of 7.9 and 4.3, respectively. 4. Bradykinin-induced overflow was abolished in the absence of extracellular Ca2+ and in the presence of either 1 micromol l(-1) tetrodotoxin or 300 micromol l(-1) Cd2+, as was electrically-induced overflow. Activation of alpha2-adrenoceptors by 1 micromol l(-1) UK 14,304 reduced both bradykinin- and electrically-triggered overflow. The Ca2+-ATPase inhibitor thapsigargin (0.3 micromol l[-1]) failed to alter either type of stimulated overflow. Caffeine (10 mmol l[-1]) enhanced bradykinin-induced overflow, but reduced overflow triggered by electrical field stimulation. 5. Inclusion of Ba2+ (0.1 to 1 mmol l[-1]) in the superfusion medium enhanced electrically induced overflow by approximately 100% and potentiated bradykinin-triggered overflow by almost 400%. Application of 1 mmol l(-1) Ba2+ for periods of 2 min triggered 3H overflow, and this overflow was abolished by 1 micromol l(-1) tetrodotoxin and enhanced by 10 mmol l(-1) caffeine. In contrast, inclusion of tetraethylammonium (0.1 to 1 mmol l[-1]) in the superfusion buffer caused similar increases of bradykinin- and electrically evoked 3H overflow (by about 100%), and tetraethylammonium, when applied for 2 min, failed to alter 3H outflow. 6. Treatment of cultures with 100 ng ml(-1) pertussis toxin caused a significant increase in bradykinin-, but not in electrically-, evoked tritium overflow. Treatment with 100 ng ml(-1) cholera toxin reduced both types of stimulated 3H overflow. 7. These data reveal bradykinin as a potent stimulant of action potential-mediated and Ca2+-dependent transmitter release from rat sympathetic neurones in primary cell culture. This neurosecretory effect of bradykinin involves activation of B2-receptors, presumably linked to pertussis- and cholera toxin-insensitive G proteins, most likely members of the Gq family. Results obtained with inhibitors of muscarinic K+ (KM) channels, like caffeine and Ba2+, indicate that the secretagogue action of bradykinin probably involves inhibition of these K+ channels.
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PMID:Noradrenaline release from rat sympathetic neurones triggered by activation of B2 bradykinin receptors. 935 1

We have recently reported that mastoparan, a peptide toxin isolated from wasp venom, induces apoptosis in cultured cerebellar granule neurons that can be blocked by cholera toxin, an activator of Gs. Measurements of intracellular free calcium concentration ([Ca2+]i) reveal that mastoparan induces a dramatic elevation of [Ca2+]i that is frequently followed by enhanced leakage of fura-2 out of the neurons, suggesting that this rise in [Ca2+]i may be due to a more generalized change in membrane permeability. However, the mastoparan-induced initial elevation of [Ca2+]i is maintained in the absence of extracellular Ca2+, suggesting that the rise of [Ca2+]i is from intracellular stores. This conclusion is supported by the observation that depletion of [Ca2+]i stores by pretreatment with either caffeine or thapsigargin attenuates both the rise in [Ca2+]i and cell death induced by mastoparan. Phospholipase C (PLC) inhibitors, neomycin and U73122 block mastoparan-induced increases of [Ca2+]i and protect against neuronal death. Pretreatment with cholera toxin, but not pertussis toxin, reduced the mastoparan-induced rise in [Ca2+]i. Taken together, our data suggest that mastoparan initiates cell death in cerebellar granule neurons by inducing Ca2+ release from intracellular stores, probably via activation of PLC and IP3. A secondary or parallel process results in disruption of plasma membrane integrity and may be ultimately responsible for the death of these neurons by mastoparan.
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PMID:Mastoparan-induced apoptosis of cultured cerebellar granule neurons is initiated by calcium release from intracellular stores. 940 38

During Ca2+-activated C- current oscillations a mechanical deformation of the Xenopus laevis oocyte by a fluid stream evokes transient inward currents of high amplitude (stream evoked inward current, Ii,st). This current can be observed either in native or RNA-injected oocytes expressing ligand-controlled ion channels from rat brain. Ii,st reversed at the equilibrium potential of chloride and was blocked by 9-anthracene carboxylic acid (2 mM). Power spectral analysis of the oscillations did not reveal a correlation between the features of the oscillations and the amplitude of Ii,st. Antagonists of stretch-activated cation channels [gadolinium (100 microM) and lanthanum (1mM)] did not block Ii,st. Calcium channel blockers [cobalt and manganese (10 mM)] did not inhibited Ii,st and Ii,st could also be elicited in calcium-free medium. Preloading oocytes with pertussis toxin (PTX) for 17 h prevented current oscillations and Ii,st caffeine (10 mM), an antagonist of the liberation of calcium from intracellular stores, inhibited Ii,st. Our results proride evidence for modulation of the mechanosensitivity of chloride currents by activation of intracellular second messenger cascades.
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PMID:Characterization of ion currents elicited by a stream of fluid during spontaneous and ligand-induced chloride current oscillation in Xenopus laevis oocytes. 956 Apr 46

1. On going work in our laboratory has shown that adenosine modulates ethanol-induced motor incoordination (EIMI) when given systemically as well as directly into the cerebral ventricles, cerebellum and corpus striatum of the rat and/or mouse. 2. The objective of this study was to determine what effect adenosine agonists and antagonists would have within the rat motor cortex on EIMI. 3. The participation of the motor cortex in EIMI was suggested when microinfusion of the anti-ethanol compound, Ro15-4513, an inverse agonist of the benzodiazepine binding site, directly into the motor cortex significantly attenuated EIMI. Further, the adenosine agonists N6-cyclohexyladenosine (CHA) and 2-p-(2-carboxyethyl)-phenethylamino-5'-N-carboxaminoadenosine++ + hydrochloride (CGS-21680) significantly accentuated EIMI in a dose-related manner. The adenosine A1 receptor-selective agonist, CHA, appeared most potent in this modulatory effect when compared to the A2-selective agonist, CGS-21680. 4. The extent of diffusion of the adenosine drugs within the cortical tissue after their microinfusion was also checked by measuring the dispersion of microinfused [3H]CHA. The [3H]CHA dispersion study indirectly confirmed that the results of the present investigation were based on the effect of adenosine drugs within the motor cortex only. 5. Accentuation by the A1- and A2-selective adenosine agonists was significantly attenuated by the A1-selective antagonist 8-cyclopentyl-1,3-dipropylxanthine (DPCPX) but not by the A2 receptor-selective antagonist 8-(3-chlorostyryl)caffeine (CSC) further suggesting modulation mainly by the A1-subtype. 6. Pretreatment of the motor cortex with pertussis toxin (PT) significantly reduced the capacity of both A1- and A2-selective adenosine agonists to accentuate EIMI suggesting the involvement of a PT-sensitive Gi/Go protein. 7. These data support earlier work which showed that adenosine modulates EIMI within the central nervous system (CNS), most likely via the A1 receptor, and moreover, extend that work by including the motor cortex as a brain area participating in the adenosinergic modulation of ethanol-induced motor impairment.
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PMID:Adenosinergic modulation of ethanol-induced motor incoordination in the rat motor cortex. 968 75

As metabotropic glutamate receptor type 1 (mGluR1) is known to couple L-type Ca2+ channels and ryanodine receptors (RyR, Chavis et al., 1996) in cerebellar granule cells, we examined if such a coupling could activate a Ca2+-sensitive K+ channel, the big K+ (BK) channel, in cultured cerebellar granule cells. We observed that (+/-)-1-amino-cyclopentane-trans-1,3-dicarboxylic acid (t-ACPD) and quisqualate (QA) stimulated the activity of BK channels. On the other hand, (2S, 3S, 4S)-alpha-carboxycyclopropyl-glycine (L-CCG-I) and L-(+)-2-amino-4-phosphonobutyrate (L-AP4) had no effect on BK channels, indicating a specific activation by group I mGluRs. Group I mGluRs stimulation of the basal BK channel activity was mimicked by caffeine and both effects were blocked by ryanodine and nifedipine. Interestingly, carbachol stimulated BK channel activity but through a pertussis toxin (PTX)-sensitive pathway that was independent of L-type Ca2+ channel activity. Our report indicates that unlike the muscarinic receptors, group I mGluRs activate BK channels by mobilizing an additional pathway involving RyR and L-type Ca2+ channels.
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PMID:Modulation of big K+ channel activity by ryanodine receptors and L-type Ca2+ channels in neurons. 974 60

The effect of adenosine triphosphate (ATP) on the intracellular Ca2+ concentration ([Ca2+]i) of cultured neurohypophysial astrocytes (pituicytes) was studied by fluorescence videomicroscopy. ATP evoked a [Ca2+]i increase, which was dose dependent in the 2.5-50 microM range (EC50=4.3 microM). The ATP-evoked [Ca2+]i rise was not modified during the first minute following the removal of external Ca2+. Application of 500 nM thapsigargin inhibited the ATP-dependent [Ca2+]i increase. Caffeine (10 mM) and ryanodine (1 microM) did not affect the ATP-induced [Ca2+]i rise. The pituicytes responded to various P2 purinoceptor agonists with the following order of potency: ATP=ATP[gamma-S]=2-MeSATP>/=ADP, where ATP[gamma-S] is adenosine 5'-O-(3-thiotriphosphate) and 2-MeSATP is 2-methylthio-adenosine-5'-triphosphate. Adenosine, AMP, alpha, beta-methylene adenosine-5'-triphosphate (alpha,beta-MeATP), beta, gamma methylene adenosine-5'-triphosphate (beta,gamma-MeATP) and uridine 5'-triphosphate (UTP) were ineffective. The P2 purinoceptor antagonists blocked the ATP-evoked [Ca2+]i increase with the following selectivity: RB-2>suramin>PPADS, where RB-2 is Reactive Blue 2 and PPADS is pyridoxal-phosphate-6-azophenyl-2', 4'-disulphonic acid. The ATP-evoked [Ca2+]i increase was substantially blocked by pertussis toxin treatment, suggesting that it might be mediated by a pertussis-toxin-sensitive G protein. The phospholipase C (PLC) inhibitor U-73122 (0.5 microM) abolished the ATP-evoked [Ca2+]i rise, whereas its inactive stereoisomer U-73343 (0.5 microM) remained ineffective. Our results indicate that, in rat cultured pituicytes, ATP stimulation induces an increase in [Ca2+]i due to PLC-mediated release from intracellular stores through activation of a pertussis-toxin-sensitive, G-protein-linked P2Y receptor.
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PMID:ATP acting on P2Y receptors triggers calcium mobilization in primary cultures of rat neurohypophysial astrocytes (pituicytes). 1008 53

Intracellular calcium mobilization of isolated guinea pig cochlear outer hair cells (OHCs) was investigated using thimerosal, a -SH group oxidizing agent, and fura-2 fluorescence ratio imaging microscopy. In the presence of thimerosal, intracellular Ca2+ concentrations ([Ca2+]i) of OHCs were elevated in a dose-dependent manner. Even in Ca(2+)-free medium, Ca2+ response was still induced. The effects of thimerosal on [Ca2+]i were completely blocked and reversed by dithiothreiotol (DTT). Neither 1-100 microM ryanodine nor 5-20 mM caffeine altered the effects of thimerosal. Pretreatment with pertussis toxin (PTX) for 30 min did not affect the thimerosal-induced increase in [Ca2+]i. The increase in [Ca2+]i when Ca2+ was added during thimerosal application in Ca(2+)-free medium was almost completely blocked by 500 microM LaCl3, while nifedipine did not inhibit further increase in [Ca2+]i caused by thimerosal. Thus, oxidation of the -SH group of the OHC membrane can induce a Ca2+ release from intracellular Ca2+ stores, which are ryanodine- and caffeine-insensitive, and Ca2+ influx through non-specific Ca2+ channels, but not the nifedipine-sensitive Ca2+ channels. The possible oxidation of -SH group gated Ca2+ channels in OHCs is worthy of further study.
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PMID:Thimerosal-induced Ca2+ mobilization in isolated guinea pig cochlear outer hair cells. 1009 57

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