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)

cAMP binds to surface receptors of Dictyostelium discoideum cells, transducing the signal to adenylate cyclase, guanylate cyclase and to chemotaxis. The activation of adenylate cyclase is maximal after 1 min and then declines to basal levels due to desensitization, which is composed to two components: a rapidly reversible adaptation process, and a slowly reversible down-regulation of cAMP receptors. Adaptation is correlated with receptor phosphorylation. The chemotactic response and the cAMP-induced cGMP response were not significantly altered in D. discoideum cells pretreated with pertussis toxin. The initial increase of cAMP levels was identical in control and toxin treated cells, suggesting that activation of adenylate cyclase was also not affected. However, cAMP synthesis continued in toxin treated cells, due to a strongly diminished desensitization. Pertussis toxin inhibited the adaptation of adenylate cyclase stimulation, but not the down-regulation or phosphorylation of the cAMP receptors. Adenylate cyclase in D. discoideum membranes can be stimulated or inhibited by GTP, depending on the conditions used. Pertussis toxin did not affect the stimulation of adenylate cyclase but nullified the inhibition. In membranes from desensitized control cells, stimulation of adenylate cyclase by GTP was lost, whereas inhibition was retained. Stimulation of adenylate cyclase in membranes from desensitized pertussis toxin treated cells was diminished but not absent. These results indicate that receptor phosphorylation is not sufficient for adaptation of adenylate cyclase, and that a pertussis toxin substrate, possibly Gi, is also involved in this process.
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PMID:Pertussis toxin inhibits cAMP-induced desensitization of adenylate cyclase in Dictyostelium discoideum. 215 82

Homologous desensitization of muscarinic acetylcholine receptors (mAChR) was studied using primary cultures of corticostriatal neurons from neonatal rats. Prolonged incubation with carbachol attenuated phospholipase C responsiveness to muscarinic agonists and decreased the number of cell surface mAChR, as measured by binding of N-[3H] methylscopolamine to neuronal monolayers. When neurons were exposed to carbachol for 15 min, 40% of the mAChR lost from the membrane domain was recovered in the cytosol; a decrease of the total neuronal receptors was detected following an incubation with the agonist lasting longer than 15 min. Both 8-Br-cyclic AMP and forskolin neither affected N-[3H]methylscopolamine binding to cell monolayers or did they prevent the agonist-mediated mAChR desensitization. 8-Br-cyclic GMP also failed to decrease mAChR number. Pertussis toxin failed to prevent the homologous desensitization of mAChR under conditions that blocked the agonist-mediated inhibition of forskolin-stimulated cyclic AMP formation. The phorbol ester 12-O-tetradecanoyl-phorbol-12, 13-acetate induced a concentration-dependent decrease of N-[3H]methylscopolamine binding to neuronal monolayers. However, the protein kinase C inhibitors sphingosine and the ganglioside monosialosyl-gangliotetraglicosylceramide inhibited the 12-O-tetradecanoyl-phorbol-12,13-acetate-induced but not the agonist-induced desensitization of mAChRs. Furthermore, incubation with muscarinic agonists failed to translocate protein kinase C from cytosol to plasma membranes, as measured by binding of the phorbol ester [3H]-4-beta-phorbol-12,13-dibutyrate to neuronal monolayers. In corticostriatal neurons the agonist-induced desensitization and internalization of mAChR involves neither protein kinase C and protein kinase A activation nor changes in cyclic GMP and cyclic AMP content.
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PMID:Molecular mechanisms of homologous desensitization and internalization of muscarinic receptors in primary cultures of neonatal corticostriatal neurons. 215 46

We have recently shown that atrial natriuretic factor (ANF) inhibits adenylate cyclase activity in rat platelets where only one population of ANF receptors (ANF-R2) is present, indicating that ANF-R2 receptors may be coupled to the adenylate cyclase/cAMP system. In the present studies, we have used ring-deleted peptides which have been reported to interact with ANF-R2 receptors also called clearance receptors (C-ANF) without affecting the guanylate cyclase/cGMP system, to examine if these peptides can also inhibit the adenylate cyclase/cAMP system. Ring-deleted analog C-ANF4-23 like ANF99-126 inhibited the adenylate cyclase activity in a concentration-dependent manner in rat aorta, brain striatum, anterior pituitary, and adrenal cortical membranes. The maximal inhibition was about 50-60% with an apparent Ki between 0.1 and 1 nM. In addition, C-ANF4-23 also decreased the cAMP levels in vascular smooth muscle cells in a concentration-dependent manner without affecting the cGMP levels. The maximal decrease observed was about 60% with an apparent Ki of about 1 nM. Furthermore, C-ANF4-23 was also able to inhibit cAMP levels and progesterone secretion stimulated by luteinizing hormone in MA-10 cell line. Other smaller fragments of ANF with ring deletions were also able to inhibit the adenylate cyclase activity as well as cAMP levels. Furthermore, the stimulatory effects of various agonists such as 5'-(N-ethyl)carboxamidoadenosine, dopamine, and forskolin on adenylate cyclase activity and cAMP levels were also significantly inhibited by C-ANF4-23. The inhibitory effect of C-ANF4-23 on adenylate cyclase was dependent on the presence of GTP and was attenuated by pertussis toxin treatment. These results indicate that ANF-R2 receptors or so-called C-ANF receptors are coupled to the adenylate cyclase/cAMP signal transduction system through inhibitory guanine nucleotide regulatory protein.
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PMID:Ring-deleted analogs of atrial natriuretic factor inhibit adenylate cyclase/cAMP system. Possible coupling of clearance atrial natriuretic factor receptors to adenylate cyclase/cAMP signal transduction system. 216 Apr 62

Neuropeptide Y (NPY) is released from an extensive network of postganglionic sympathetic perivascular neurons. NPY has been shown to affect vascular tone postsynaptically by 1) directly stimulating contraction; 2) inhibiting vasorelaxation; and 3) potentiating contraction elicited by exogenous vasoconstrictors. The molecular mechanisms mediating these effects of NPY are undefined. Therefore, we examined the possibility that NPY could stimulate smooth muscle contraction through myosin light chain phosphorylation in cultured porcine aortic smooth muscle cells. NPY (100 nM) caused a rapid, transient increase in myosin light chain (MLC) phosphorylation, an important regulatory event in the initiation of smooth muscle contraction. NPY-stimulated MLC phosphorylation was prevented by preincubation of cells with pertussis toxin and was independent of extracellular Ca2+. In parallel studies, NPY alone had no detectable effect on cellular cAMP or cGMP content; however, NPY potently inhibited forskolin-stimulated cAMP accumulation (IC50 = 0.03 nM) through a pertussis toxin-sensitive pathway. NPY had no detectable effect on basal phosphoinositide hydrolysis or protein kinase C activation but enhanced angiotensin II-stimulated production of inositol phosphates and activation of protein kinase C. These results indicate that NPY-stimulated MLC phosphorylation can occur in the absence of detectable changes in cAMP content, cGMP content, inositol phosphate production, or protein kinase C activation; however, the interactions between NPY and other vasoactive agents may be mediated by the indirect effects of NPY on adenylate cyclase activity and phosphoinositide hydrolysis.
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PMID:Neuropeptide Y stimulation of myosin light chain phosphorylation in cultured aortic smooth muscle cells. 217 Apr 10

1. The effects of activation of muscarinic receptors on the voltage-dependent calcium current, ICa, in parasympathetic neurones were examined. 2. Neurones were enzymatically isolated from the interatrial septum of bull-frog (Rana catesbeiana) heart, and were maintained in short-term (1-6 day) tissue culture. ICa was recorded from the cells using whole-cell patch-clamp methods (Clark, Tse & Giles, 1990). 3. External application of 2 nM to 10 microM acetylcholine (ACh) reduced the amplitude and slowed the time course of activation of ICa. These effects were dependent on membrane potential; they were most pronounced at potentials near the peak of the current-voltage relation for ICa (i.e. +10 to +15 mV), whereas at more-negative potentials (i.e. -15 to -25 mV) the effects on both amplitude and time course were relatively small. 4. Atropine (1 microM) completely blocked the action of 1 microM-ACh, indicating that the effects of ACh on ICa were mediated by activation of muscarinic receptors. 5. Other muscarinic agonists, such as carbamylcholine (0.1-10 microM), DL-muscarine (0.1-2.5 microM) and oxotremorine (5 microM), had similar effects on ICa to ACh. 6. A guanine nucleotide-binding protein (G-protein) is involved in this muscarinic inhibition of ICa. Inclusion of the non-hydrolysable guanosine triphosphate analogue guanosine 5'-O-(3-thiotriphosphate) (GTP-gamma-S; 200 microM) in the intracellular solutions mimicked the effects of ACh, and application of external ACh in the presence of internal GTP-gamma-S produced smaller changes in ICa than in control conditions. Inclusion of another non-hydrolysable analogue, guanosine 5'-O-(2-thiodiphosphate) (GDP-beta-S; 0.5-5 mM), blocked the inhibitory effect of ACh on ICa. 7. The G-protein involved in the inhibition of ICa was sensitive to pertussis toxin (islet-activating protein; IAP). The inhibition of ICa by carbamylcholine (5 microM) was reduced by about 90% after incubating cells for 12-15 h in culture medium containing 200 ng/ml IAP. 8. The possible roles of cyclic AMP or cyclic GMP-dependent protein kinases, or protein kinase C, in the muscarinic inhibition of ICa were tested, but these enzymes appear not to be directly involved.
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PMID:Muscarinic modulation of calcium current in neurones from the interatrial septum of bull-frog heart. 217 Jun 34

STa, the heat-stable enterotoxin of Escherichia coli, stimulates membrane-bound guanylate cyclase in enterocytes, elevates cyclic GMP, and results in intestinal secretion of ions and fluid. Using the T84 colon carcinoma cell line as a model. Weikel et al. reported that phorbol esters enhance STa-stimulated cyclic GMP production by 60-140% [(1990) Infect. Immun. 58, 1402-1407]. In the present report we demonstrate that the acetylcholine analog carbachol enhanced toxin-stimulated cyclic GMP accumulation in intact T84 cells by 50-100% and that this effect was blocked by 10 microM atropine and 10 microM sphingosine. Pertussis toxin treatment of the T84 cells did not affect the subsequent response to carbachol. Carbachol, which elevates intracellular calcium in these cells, may act through protein kinase C to enhance cyclic GMP production.
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PMID:Carbachol mimics phorbol esters in its ability to enhance cyclic GMP production by STa, the heat-stable toxin of Escherichia coli. 217 3

Extracellular ATP, N6-(L-2-phenylisopropyl)adenosine (PIA) and other purinergic agonists inhibited atrial natriuretic peptide (ANP)-induced cGMP accumulation in FRTL-5 thyroid cells. These agonists were functionally classified into three groups. Group 1 agonists represented by ATP inhibited the ANP action in association with phospholipase C activation in a partially islet-activating protein (IAP, pertussis toxin)-sensitive manner. Group 2 including GTP and 8-bromoadenosine 5'-triphosphate acted similarly to Group 1 except for total insensitivity of the former to IAP. The IAP-insensitive portion of Group 1 actions and the actions of Group 2 as well as of A23187, a Ca2+ ionophore which mimicked the Group 2 agonist actions, were almost completely inhibited by phosphodiesterase inhibitors such as M & B 22948 (2-O-propoxyphenyl-8-azapurin-6-one) and 3-isobutyl-1-methylxanthine. Group 3 including PIA and AMP did not affect phospholipase C, but inhibited the ANP performance in an IAP-sensitive fashion. This action of Group 3 and the IAP-sensitive portion of Group 1 actions were insensitive to the phosphodiesterase inhibitors. We conclude that ATP and other Group 1 agonists attenuated the ANP-induced cGMP accumulation by at least two mechanisms: 1) stimulation of cGMP hydrolysis via a phospholipase C-Ca2(+)-phosphodiesterase system and 2) inhibition of cGMP generation, probably by an IAP-sensitive G-protein-mediated inactivation of the ANP-receptor-coupled guanylate cyclase. Group 2 agonists stimulate only the first mechanisms, whereas Group 3 agonists prefer the second one.
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PMID:Inhibition of atrial natriuretic peptide-induced cGMP accumulation by purinergic agonists in FRTL-5 thyroid cells. Involvement of both pertussis toxin-sensitive and insensitive mechanisms. 217 85

An (ADP-ribose)n glycohydrolase from human erythrocytes was purified approximately 13,000-fold and characterized. On sodium dodecyl sulfate/polyacrylamide gel the purified enzyme appeared homogeneous and had an estimated relative molecular mass (Mr) of 59,000. Amino acid analysis showed that the enzyme had a relatively high content of acidic amino acid residues and low content of basic amino acid residues. Isoelectrofocusing showed that the enzyme was an acidic protein with pI value of 5.9. The mode of hydrolysis of (ADP-ribose)n by this enzyme was exoglycosidic, yielding ADP-ribose as the final product. The Km value for (ADP-ribose)n (average chain length, n = 15) was 5.8 microM and the maximal velocity of its hydrolysis was 21 mumol.min-1.mg protein-1. The optimum pH for enzyme activity was 7.4 KCl was more inhibitory than NaCl. The enzyme activity was inhibited by ADP-ribose and cAMP but not the dibutyryl-derivative (Bt2-cAMP), cGMP or AMP. These physical and catalytic properties are similar to those of cytosolic (ADP-ribose)n glycohydrolase II, but not to those of nuclear (ADP-ribose)n glycohydrolase I purified from guinea pig liver [Tanuma, S., Kawashima, K. & Endo, H. (1986) J. Biol. Chem. 261, 965-969]. Thus, human erythrocytes contain (ADP-ribose)n glycohydrolase II. The kinetics of degradation of poly(ADP-ribose) bound to histone H1 by purified erythrocyte (ADP-ribose)n glycohydrolase was essentially the same as that of the corresponding free poly(ADP-ribose). In contrast, the glycohydrolase showed appreciable activity of free oligo(ADP-ribose), much less activity on the corresponding oligo(ADP-ribose) bound to histone H1. The enzyme had more activity on oligo(ADP-ribose) bound to mitochondrial and cytosolic free mRNA ribonucleoprotein particle (mRNP) proteins than on oligo(ADP-ribose) bound to histone H1. It did not degrade mono(ADP-ribosyl)-stimulatory guanine-nucleotide-binding protein (Gs) and -inhibitory guanine-nucleotide-binding protein (Gi) prepared with cholera and pertussis toxins, respectively. These results suggest that cytosolic (ADP-ribose)n glycohydrolase II may be involved in extranuclear de(ADP-ribosyl)n-ation, but not in membrane de-mono(ADP-ribosyl)ation.
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PMID:Purification and characterization of an (ADP-ribose)n glycohydrolase from human erythrocytes. 237 4

Binding of acetylcholine (ACh) to cardiac muscarinic ACh receptors (mAChR) activates a potassium channel that slows pacemaker activity. Although the time course of this activation suggests a multi-step process with intrinsic delays of 30-100 ms, no second-messenger system has been demonstrated to link the mAChR to the channel. Changes in cyclic nucleotide levels (cyclic AMP and cyclic GMP) do not affect this K channel or its response to muscarinic agonists. Indeed, electrophysiological experiments argue against the involvement of any second messenger that diffuses through the cytoplasm. We report here that coupling of the mAChR in embryonic chick atrial cells to this inward rectifying K channel requires intracellular GTP. Furthermore, pretreatment of cells with IAP (islet-activating protein from the bacterium Bordetella pertussis) eliminates the ACh-induced inward rectification. As IAP specifically ADP-ribosylates two GTP-binding proteins, Ni and No, that can interact with mAChRs, we conclude that a guanyl nucleotide-binding protein couples ACh binding to channel activation. This represents the first demonstration that a GTP-binding protein can regulate the function of an ionic channel without acting through cyclic nucleotide second messengers.
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PMID:GTP-binding proteins couple cardiac muscarinic receptors to a K channel. 241 67

Addition of guanosine 5'-(3-O-thio)triphosphate (GTP gamma S) to the membrane fraction isolated from rabbit peritoneal neutrophils results in the solubilization of several proteins from the membrane. The major proteins are of 180 kDa (myosin) and 43 kDa (actin). The effect is observed with a half-maximum GTP gamma S concentration of 70 microM. The potencies of various nucleotides are compared: GTP gamma S greater than GTP greater than ATP greater than GDP, GMP, cGMP, cAMP. The effect does not require calcium and is not inhibited by using membranes prepared from cells that have been pretreated with pertussis toxin.
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PMID:GTP gamma S-induced solubilization of actin and myosin from rabbit peritoneal neutrophil membrane. 242 86


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