Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Messenger RNAs and cDNAs for individual cloned P2Y(1), P2Y2 and P2Y(6) nucleotide receptors have been expressed by micro-injection into dissociated rat superior cervical sympathetic neurones and the effects of stimulating the expressed receptors on voltage-activated N-type Ca(2+) currents and M-type K(+) currents recorded. Both currents were reduced by stimulating all three receptors, with the following mean IC(50) values: P2Y(1) (agonist: ADP) - I(K(M)) 6.9 nM, I(Ca) 8.2 nM; P2Y(2) (agonist: UTP) - I(K(M)) 1.5 microM, I(Ca) 0.5 microM; P2Y(6) (agonist: UDP) - I(K(M)) 30 nM, I(Ca) 5.9 nM. Inhibition of I(K(M)) was voltage-independent and insensitive to Pertussis toxin; inhibition of I(Ca) showed both voltage-sensitive and insensitive, and Pertussis toxin-sensitive and insensitive components. It is concluded that these P2Y receptors can couple to more than one G protein and thereby modulate more than one ion channel. It is suggested that these effects on K(M) and Ca(N) channels may induce both postsynaptic excitory and presynaptic inhibitory responses.
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PMID:Inhibition of potassium and calcium currents in neurones by molecularly-defined P2Y receptors. 1086 97

Experiments were performed to characterize the P2 purinoceptor subtype responsible for cytoplasmic calcium mobilization in cells from the initial part of rabbit distal convoluted tubule (DCT). Free calcium concentration was measured in a DCT cell line (DC1) with the probe fura 2. Both ATP and UTP increased cytosolic Ca(2+) concentration ([Ca(2+)](i); EC(50) 3 and 6 microM, respectively). The order of potency for nucleotide analogs was ATP = UTP > adenosine 5'-O-[thiotriphosphate] >> ADP > UDP, which is consistent with the pharmacology of the P2Y2 receptor subtype. The increased [Ca(2+)](i) responses to ATP and UTP were strongly inhibited by suramin. Pretreatment of cells with pertussis toxin (PTX) attenuated the action of both nucleotides. Inhibition of phospholipase C with U-73122 totally blocked the [Ca(2+)](i) response to ATP. Thus ATP- and UTP-stimulated [Ca(2+)](i) mobilization in DC1 cells appears to be mediated via the activation of P2Y2 purinoceptors coupled to a G protein mechanism that is partially sensitive to PTX. Calcium flux measurements showed that lanthanum- and nifedipine-sensitive calcium channels are involved in the [Ca(2+)](i) response to ATP.
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PMID:Extracellular ATP increases [CA(2+)](i) in distal tubule cells. I. Evidence for a P2Y2 purinoceptor. 1089 91

1. The mobilization of Ca2+ by purinoceptor activation and the relative contributions of intra- and extracellular sources of Ca2+ were investigated using microfluorimetric measurements of fura-2 loaded in cultured neurones from rat intracardiac ganglia. 2. Reverse transcriptase-polymerase chain reaction (RT-PCR) revealed expression of mRNA for the G protein-coupled P2Y2 and P2Y4 receptors. 3. Brief application of either 300 microM ATP or 300 microM UTP caused transient increases in [Ca2+]i of 277 +/- 22 nM and 267 +/- 39 nM, respectively. Removal of external Ca2+ did not significantly reduce these [Ca2+]i responses. 4. The order of purinoceptor agonist potency for [Ca2+]i increases was ATP = UTP > 2-MeSATP > ADP >> adenosine, consistent with the profile for P2Y2 purinoceptors. ATP- and UTP-induced rises in [Ca2+]i were completely and reversibly blocked by 10 microM PPADS (a P2 purinoceptor antagonist) and partially inhibited by 100 microM suramin (a relatively non-specific purinoceptor antagonist). 5. In the presence of the endoplasmic reticulum Ca2+-ATPase inhibitor cyclopiazonic acid (10 microM) in Ca2+-free media, the [Ca2+]i responses evoked by ATP were progressively decreased and abolished. 6. ATP- and UTP-induced [Ca2+]i rises were insensitive to pertussis toxin, caffeine (5 mM) and ryanodine (10 microM) but were significantly reduced by U-73122, a phospholipase C (PLC) inhibitor. 7. In fura-2-loaded cells, perforated patch whole-cell recordings show that ATP and UTP evoked slow outward currents at -60 mV, concomitant with the rise in [Ca2+]i, in approximately 30 % of rat intracardiac neurones. 8. In conclusion, these results suggest that in r intracardiac neurones, ATP binds to P2Y2 purinoceptors to transiently raise [Ca2+]i and activate an outward current. The signalling pathway appears to involve a PTX-insensitive G protein coupled to PLC generation of IP3 which triggers the release of Ca2+ from a ryanodine-insensitive Ca2+ store(s).
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PMID:P2Y purinoceptor activation mobilizes intracellular Ca2+ and induces a membrane current in rat intracardiac neurones. 1089 18

Adenosine and its endogenous precursor ATP are main components of the purinergic system that modulates cellular and tissue functions via specific adenosine and ATP receptors (P1 and P2 receptors), respectively. Although adenosine inhibits excitability and ATP functions as an excitatory transmitter in the central nervous system, little is known about the ability of P1 and P2 receptors to form new functional structures such as a heteromer to control the complex purinergic cascade. Here we have shown that G(i/o) protein-coupled A1 adenosine receptor (A1R) and Gq protein-coupled P2Y1 receptor (P2Y1R) coimmunoprecipitate in cotransfected HEK293T cells, suggesting the oligomeric association between distinct G protein-coupled P1 and P2 receptors. A1R and P2Y2 receptor, but not A1R and dopamine D2 receptor, also were found to coimmunoprecipitate in cotransfected cells. A1R agonist and antagonist binding to cell membranes were reduced by coexpression of A1R and P2Y1R, whereas a potent P2Y1R agonist adenosine 5'-O-(2-thiotriphosphate) (ADPbetaS) revealed a significant potency to A1R binding only in the cotransfected cell membranes. Moreover, the A1R/P2Y1R coexpressed cells showed an ADPbetaS-dependent reduction of forskolin-evoked cAMP accumulation that was sensitive to pertussis toxin and A1R antagonist, indicating that ADPbetaS binds A1R and inhibits adenylyl cyclase activity via G(i/o) proteins. Also, a high degree of A1R and P2Y1R colocalization was demonstrated in cotransfected cells by double immunofluorescence experiments with confocal laser microscopy. These results suggest that oligomeric association of A1R with P2Y1R generates A1R with P2Y1R-like agonistic pharmacology and provides a molecular mechanism for an increased diversity of purine signaling.
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PMID:Heteromeric association creates a P2Y-like adenosine receptor. 1139 Sep 75

We previously found that oscillatory fluid flow activated MC3T3-E1 osteoblastic cell Ca(2+)(i) mobilization via the inositol 1,4,5-trisphosphate pathway in the presence of 2% fetal bovine serum (FBS). However, the molecular mechanism of fluid flow-induced Ca(2+)(i) mobilization is unknown. In this study, we first demonstrated that oscillatory fluid flow in the absence of FBS failed to increase [Ca(2+)](i) in MC3T3-E1 cells. Apyrase (10 units/ml), which rapidly hydrolyzes 5' nucleotide triphosphates to monosphophates, prevented the fluid flow induced increases in [Ca(2+)](i) in the presence of FBS. Adding ATP or UTP to flow medium without FBS restored the ability of fluid flow to increase [Ca(2+)](i), suggesting that ATP or UTP may mediate the effect of fluid flow on [Ca(2+)](i). Furthermore, adenosine, ADP, UDP, or adenosine 5'-O-(3-thiotriphosphate) did not induce Ca(2+)(i) mobilization under oscillatory fluid flow without FBS. Pyridoxal phosphate 6-azophenyl-2,4'-disulfonic acid, an antagonist of P2X purinoceptors, did not alter the effect of fluid flow on the Ca(2+)(i) response, whereas pertussis toxin, a G(i/o)-protein inhibitor, inhibited fluid flow-induced increases in [Ca(2+)](i) in the presence of 2% FBS. Thus, by the process of elimination, our data suggest that P2Y purinoceptors (P2Y2 or P2Y4) are involved in the Ca(2+)(i) response to fluid flow. Finally, a decreased percentage of MC3T3-E1 osteoblastic cells treated with P2Y2 antisense oligodeoxynucleotides responded to fluid flow with an increase in [Ca(2+)](i), and an increased percentage of ROS 17/2.8 cells, which do not normally express P2Y2 purinoceptors, transfected with P2Y2 purinoceptors responded to fluid flow in the presence of 2% FBS, confirming that P2Y2 purinoceptors are responsible for oscillatory fluid flow-induced Ca(2+)(i) mobilization. Our findings shed new light of the molecular mechanisms responsible for oscillatory fluid flow-induced Ca(2+)(i) mobilization in osteoblastic cells.
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PMID:P2Y purinoceptors are responsible for oscillatory fluid flow-induced intracellular calcium mobilization in osteoblastic cells. 1237 32

Previous reports on heterologously-expressed human P2Y11 receptors have indicated that ATP, but not UTP, is an agonist stimulating both phosphoinositidase C and adenylyl cyclase. Consistent with these findings, we report that in 1321N1 cells expressing human P2Y11 receptors, UTP stimulation did not lead to accumulation of inositol(poly)phosphates under conditions in which ATP gave a robust, concentration-dependent effect. Unexpectedly, however, both UTP and ATP stimulated increases in cytosolic Ca2+ concentration ([Ca2+]c), with both nucleotides achieving similar EC50 and maximal responses. The responses to maximally effective concentrations of ATP and UTP were not additive. The [Ca2+]c increase in response to UTP was less dependent on extracellular Ca2+ than was the response to ATP. AR-C67085 (2-propylthio-beta,gamma-difluoromethylene-d-ATP, a P2Y11-selective agonist), adenosine 5'-O-(3-thiotriphosphate), and benzoyl ATP were all full agonists with potencies similar to those of ATP and UTP. In desensitization experiments, exposure to ATP resulted in loss of the UTP response; this response was more sensitive to desensitization than that of ATP. Pertussis toxin pretreatment attenuated the response to UTP but left the ATP response unaffected. The presence of 2-aminoethyl diphenylborate differentially affected the responses of ATP and UTP. No mRNA transcripts for P2Y2 or P2Y4 were detectable in the P2Y11-expressing cells. We conclude that UTP is a Ca2+-mobilizing agonist at P2Y11 receptors and that ATP and UTP acting at the same receptor recruit distinct signaling pathways. This example of agonist-specific signaling is discussed in terms of agonist trafficking and differential signal strength.
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PMID:Characterization of a Ca2+ response to both UTP and ATP at human P2Y11 receptors: evidence for agonist-specific signaling. 1276 46

Nucleotides are released during vascular injury from activated platelets and broken cells, which could stimulate human neutrophils. In this study, we characterized the P2Y receptors and investigated the functional effects of extracellular nucleotides on human neutrophils. Pharmacological characterization using selective agonists and pertussis toxin revealed that human neutrophils express only functional P2Y2 receptors. However, P2Y2 receptor agonists ATP or uridine triphosphate (UTP) caused intracellular Ca2+ increases in isolated human neutrophils with an EC50 of 1 microM but failed to cause release of primary granules from human neutrophils. ATP and UTP were equally potent in causing elastase release from human neutrophils in the presence of exogenous soluble fibrinogen, whereas ADP and UDP were without effect. We investigated whether nucleotides depend on generated arachidonic acid metabolites to cause degranulation. However, phenidone and MK-886, inhibitors of the 5-lipoxygenase pathway, failed to block nucleotide-induced intracellular calcium mobilization and elastase release. ATP and UTP caused activation of p38 MAPK and ERK1/2 in human neutrophils. In addition, the inhibitors of the MAPK pathway, SB-203580 and U-0126, inhibited nucleotide-induced elastase release. We conclude that fibrinogen is required for nucleotide-induced primary granule release from human neutrophils through the P2Y2 receptor without a role for arachidonic acid metabolites. Both ERK1/2 and p38 MAPK play an important role in nucleotide-induced primary granule release from human neutrophils.
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PMID:Molecular mechanism of nucleotide-induced primary granule release in human neutrophils: role for the P2Y2 receptor. 1461 90

The cystic fibrosis (CF) transmembrane conductance regulator (CFTR) is a cAMP-dependent Cl(-) channel that is defective in CF disease. CFTR activity has been shown to be regulated by the G(q)/phospholipase C-linked P2Y2 subtype of P2Y nucleotide receptors (P2YR) in various systems. Here, we tested whether other P2YR may exert a regulation on CFTR activity and whether CFTR may in turn exert a regulation on P2YR signaling. Using reverse transcriptase-polymerase chain reactions, antisense oligodeoxynucleotide knockdown, and measurements of intracellular calcium concentration ([Ca(2+)](i)), we showed that, in addition to P2Y2R, Chinese hamster ovary (CHO) cells also express functional P2Y1R. P2Y1R were activated by 2-methylthioadenosine 5'-diphosphate > 2-methylthioadenosine-5'-triphosphate > ADP with an EC(50) of 30 nM, 0.2 microM, and 0.8 microM, respectively. Activation of P2Y1R increased [Ca(2+)](i), which was prevented by the P2Y1R antagonists pyridoxalphosphate-6-azophenyl-2',4'-disulfonic acid (PPADS) (10 microM) and N6-methyl 2'-deoxyadenosine 3',5'-bisphosphate (MRS2179) (10 microM) and by pretreatment with P2Y1R antisense oligodeoxynucleotides. In CHO-K1 and CHO-KNUT (mock-transfected) cells lacking CFTR, both P2Y1R and P2Y2R caused [Ca(2+)](i) mobilization via pertussis toxin (PTX)-insensitive G(q/11)-proteins. In contrast, in CFTR-expressing CHO cells (CHO-BQ1), the P2Y1R response was completely PTX-sensitive, indicating that P2Y1R couples to G(i/o)-proteins, whereas the P2Y2R response remained PTX-insensitive. In CHO-BQ1 cells, P2Y1R activation by ADP (100 microM) failed to inhibit both forskolin (1 microM)-induced CFTR activation, measured using iodide ((125)I) efflux, and forskolin (0.1-10 microM)-evoked cAMP increase. Together, our results indicate that, in contrast to P2Y2R, P2Y1R does not modulate CFTR activity in CHO cells and that CFTR expression may alter the G-protein-coupling selectivity of P2Y1R.
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PMID:Pharmacological and signaling properties of endogenous P2Y1 receptors in cystic fibrosis transmembrane conductance regulator-expressing Chinese hamster ovary cells. 1474 36

This study was designed to test the hypothesis of whether activation of presynaptic P2X receptor-gated ion channels elicits noradrenaline release from central catecholaminergic terminals. ATP, alpha,beta-methylene-adenosine 5'-triphosphate (alpha,beta-methyleneATP), and ADP elicited concentration-dependent [3H]noradrenaline outflow from superfused rat hippocampal slices with the following rank order of agonist potency: alpha,beta-methyleneATP > ATP > ADP. Among P2 receptor antagonists, pyridoxal-phosphate-6-azophenyl-2',4'-disulphonic acid (30 microM), 4,4',4",4"'-[carbonylbis(imino-5,1,3-benzenetriyl-bis(carbonylimino))]tetrakis-1,3-benzenedisulfonic acid (100 nM), and 8,8'-[carbonybis(imino-3,1-phenylenecarbonylimino)]bis1,3,5-naphthalenetrisulphonic acid (10 microM) significantly inhibited the outflow of [3H]noradrenaline, evoked by ATP, whereas Brilliant Blue G (100 nM), 2'-deoxy-N6-methyladenosine 3',5'-bisphosphate tetraammonium (10 microM), the A1 receptor antagonist 8-cyclopentyl-1,3-dipropylxanthine (250 nM), and the A2A receptor antagonist 3,7-dimethyl-1-propargylxanthine (250 nM) were ineffective. Pretreatment with the Gi protein inhibitor pertussis toxin (2.5 microg/ml) did not change the effect of ATP on [3H]noradrenaline outflow. In contrast, a decrease in extracellular pH from 7.4 to 6.6 significantly attenuated the response by ATP. When extracellular Na+ was replaced by choline chloride and in the presence of the noradrenaline uptake inhibitor desipramine (10 microM), the ATP-evoked [3H]noradrenaline outflow was almost completely abolished, indicating that its underlying mechanism is the sodium-dependent reversal of the noradrenaline transporter. Reverse transcription-polymerase chain reaction analysis revealed that mRNA encoding P2X1, P2X2, P2X3, P2X4, P2X6, P2X7 and P2Y1 receptor subunits were expressed in the brainstem containing catecholaminergic nuclei projecting to the hippocampus, whereas mRNA encoding P2X5, P2Y2, P2Y4, and P2Y6 receptors were absent. Taken together, these results indicate that noradrenergic terminals of the rat hippocampus are equipped with presynaptic facilitatory P2X receptors, displaying a pharmacological profile similar to homomeric P2X1 and P2X3 receptors.
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PMID:P2X receptor activation elicits transporter-mediated noradrenaline release from rat hippocampal slices. 1508 50

Most current cell-based models for examining the regulation of mucin secretion demonstrate low signal-to-noise ratios, making experimental manipulation and data interpretation difficult. Using adenosine triphosphate (ATP) as a mucin secretagogue, we have developed a model of agonist-induced mucin secretion in differentiated human bronchial epithelial cells. Mucin secretory signals were estimated using enzyme-linked lectin assay, and typical signals of 300-400% of baseline were observed in response to a 30-min exposure to ATP (100 microM). ATP and uridine triphosphate equipotently stimulated mucin secretion consistent with mediation via P2Y2 receptor activation. Suramin and AR-C118925XX, a competitive P2Y2 receptor antagonist, inhibited adenosine 5'-o-(3-thiotriphosphate) (ATP-gammaS)-induced mucin secretion. A selective Gq G-protein antagonist (GP-ANT)-2A completely abrogated ATP-gammaS-induced mucin secretion. Pertussis toxin and the G(i/o)-specific, GP-ANT-2, had no effect. The phospholipase C inhibitor, D609, and the protein kinase C inhibitor, calphostin C, substantially inhibited ATP-gammaS-induced mucin secretion. Phorbol myristate acetate also stimulated mucin secretion in a calphostin C-sensitive manner. ATP-gammaS-induced mucin secretion was inhibited by the Ca2+ chelator, 1,2-bis(o-aminophenoxy) ethane-N,N,N',N'-tetra-acetic acid tetra (acetoxymethyl) ester. Ionomycin and thapsigargin both stimulated mucin secretion. Our data are broadly consistent with known G-protein-coupling and downstream signaling events associated with the P2Y2 receptor. The exceptional signal-to-noise ratios obtained using this model have permitted clear evaluation of the involvement of these mechanisms in agonist-induced mucin secretion from differentiated human bronchial epithelial cells.
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PMID:Nucleotide-mediated mucin secretion from differentiated human bronchial epithelial cells. 1523 88


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