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)

In the present study, we investigated the effects of calmodulin, adenosine 5'-triphosphate (ATP) and pertussis toxin (PT) on phorbol ester (PMA) (a protein kinase C activator) induced inhibition of ANF-stimulated cyclic GMP formation in cells from the human renal cell line, SK-NEP-1. PMA inhibited ANF-stimulated guanylate cyclase activity in particulate membranes by about 65%. Calmodulin reversed this inhibition in a dose dependent manner. ATP potentiated Mg++ but not Mn++ supported guanylate cyclase activity. In PMA treated membranes, ATP potentiating effects were abolished. PMA also inhibited ANF-stimulated cGMP accumulation, but pretreatment with PT prevented this PMA inhibition. PT did not affect basal or ANF-stimulated cGMP accumulation. In conclusion, these results demonstrated that PMA (activated protein kinase C) inhibited ANF stimulation of particulate guanylate cyclase in opposition to the activating effects of calmodulin or ATP in SK-NEP-1 cells. The protein kinase C inhibitory effects appeared to be mediated via a PT-sensitive G protein.
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PMID:The opposing effects of calmodulin, adenosine 5'-triphosphate, and pertussis toxin on phorbol ester induced inhibition of atrial natriuretic factor stimulated guanylate cyclase in SK-NEP-1 cells. 167 90

Treatment of rat thoracic aortic smooth muscle cells (A-10) with sodium fluoride (NaF) resulted in inhibition of beta-adrenergic agonist--and forskolin-induced cAMP and ANF-induced cGMP accumulation and stimulation of diacylglycerol (DAG) accumulation. The concentration of NaF and treatment times required to mediate these inhibitory effects were similar to those observed for stimulation of DAG accumulation. Treatment of the cells with NaF also resulted in a loss of [3H]phorbol dibutyrate (PDBu) binding in the cytosolic portion of the cells. In addition, pre-treatment of the cells with NaF resulted in an increase in the adenylate cyclase activity. Pertussis toxin (PT) pre-treatment of the cells did not significantly affect NaF-mediated effects. Pre-treatment of the cells with protein kinase C (PKC) inhibitor staurosporin partially reversed NaF-mediated inhibition of cyclic nucleotides accumulation. These data suggest that inhibition of the formation of agonist-induced cyclic nucleotides by NaF may be due to the formation of DAG and cAMP which lead to the activation of PKC and cAMP-PK, resulting in phosphorylation of key regulatory protein(s) in the cyclic nucleotides pathway.
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PMID:Possible involvement of protein kinase C and cyclic AMP-dependent protein kinase in the sodium fluoride-mediated inhibition of cyclic nucleotide accumulation in smooth muscle cells. 208 Oct 95

The effect of amiloride on the hormonal regulation of adenylate cyclase was studied in the rat anterior pituitary. The diuretic did not alter basal adenylate cyclase but augmented the enzyme activity in an irreversible manner in the presence of guanosine 5'-O-(thiotriphosphate) (GTP gamma S) stimulated adenylate cyclase at lower concentrations and inhibited at higher concentrations. Amiloride treatment enhanced the stimulatory and abolished the inhibitory phase of GTP gamma S action. In addition, amiloride also attenuated the inhibitory effects of atrial natriuretic factor (ANF 99-126) and angiotensin II on cAMP levels and adenylate cyclase activity. On the other hand, amiloride showed an additive effect on the stimulation exerted by corticotropin-releasing factor and vasoactive intestinal peptide on adenylate cyclase in anterior pituitary and on isoproterenol-stimulated cAMP levels in cultured vascular smooth muscle cells. Pertussis toxin, in the presence of [alpha-32 P]NAD, catalyzed the ADP-ribosylation of two protein bands of Mr 41,000 and 39,000, referred to as Gi and Go, respectively, in the anterior pituitary, and 40,000-Da protein in the aorta, referred to as Gi. Amiloride treatment inhibited the labeling of all these bands in a concentration- and time-dependent manner. Similarly, the pertussis toxin-catalyzed ADP-ribosylation of purified Gi from bovine brain was also inhibited by amiloride treatment. However, amiloride had no significant effect on the cholera toxin-catalyzed ADP-ribosylation of Gs. These data suggest that amiloride interacts with the guanine nucleotide regulatory proteins Gi and Go. Modification of Gi results in the attenuation of hormone-induced adenylate cyclase and cAMP inhibition. However, the interaction between amiloride and Go and the consequent Ca2+ mobilization and phosphatidylinositol turnover have to be investigated.
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PMID:Amiloride interacts with guanine nucleotide regulatory proteins and attenuates the hormonal inhibition of adenylate cyclase. 254 11

C-type natriuretic peptide (CNP) and brain natriuretic peptide (BNP) are members of the natriuretic peptide family, which have been shown to interact with ANP-C/ANF-R2 receptors in addition to ANP-B receptor subtypes. The present study was undertaken to investigate if the interaction of CNP and BNP with ANP-C receptors results in the inhibition of adenylyl cyclase activity. CNP and BNP inhibited adenylyl cyclase activity in heart and brain striatal membranes in a concentration dependent manner with an apparent Ki between 0.1 and 1.0 nM. Maximal inhibition observed in heart membranes were about 25% and 35% for BNP and CNP respectively, however the inhibitions in brain striatal membranes were smaller (approximately 20%). The inhibition was dependent on the presence of guanine nucleotides and was attenuated by pertussis toxin treatment. In addition, CNP inhibited the stimulatory effect of isoproterenol on adenylyl cyclase, whereas CNP as well as BNP showed an additive effect with the inhibitory response of angiotensin II on adenylyl cyclase activity. When the combined effect of C-ANF4-23/BNP, C-ANF4-23/CNP and BNP/CNP at optimal concentrations was studied together on adenylyl cyclase activity, the percent inhibition remained the same for C-ANF4-23 and BNP or C-ANF4-23 and CNP, however, an additive inhibitory effect was observed for BNP and CNP. These results suggest that CNP and BNP like C-ANF4-23 interact with ANP-C receptors and result in the inhibition of adenylyl cyclase activity. On the other hand, CNP and BNP interact with the ANP-C receptor, however, the interaction may be different sites or there may be two subpopulations of ANP-C receptors specific for each of the peptides. These results indicate that BNP and CNP, like ANP and C-ANF4-23, inhibit the adenylyl cyclase/cAMP signal transduction system through an inhibitory guanine nucleotide regulatory protein, by interacting with ANP-C receptor subtypes.
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PMID:C-type natriuretic peptide and brain natriuretic peptide inhibit adenylyl cyclase activity: interaction with ANF-R2/ANP-C receptors. 764 5

A recently discovered endogenous autacoid, C-type natriuretic peptide, was tested in a pheochromocytoma (PC12) cell line for effects on 1) catecholamine release induced by a depolarizing stimulus, 2) guanylyl and adenylyl cyclase activities, and 3) specific 125I-labeled atrial natriuretic peptide (ANP) binding. C-type natriuretic peptide suppressed evoked neurotransmitter release in the absence of guanylyl cyclase activation or adenylyl cyclase inhibition; however, both a "clearance" (ANP-C) receptor binding agent, des-[Gln18Ser19Gly20Leu21Gly22]-ANF-(4-23)-NH2 (cANF), and pertussis toxin prevented this neuromodulatory effect. The C-type natriuretic peptide preferentially bound to receptors that also bound cANF. The results suggest that C-type natriuretic peptide suppressed evoked neurotransmitter efflux by binding to ANP-C receptors coupled to a pertussis toxin-sensitive process; furthermore, the neuromodulatory effect of C-type natriuretic peptide occurred independently of guanylyl cyclase activation or adenylyl cyclase inhibition. The novel aspects of these findings are 1) neuromodulatory effects of C-type natriuretic peptide, 2) guanylyl cyclase-independent actions of C-type natriuretic peptide, and 3) ANP-C receptors mediating C-type natriuretic peptide actions.
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PMID:C-type natriuretic peptide neuromodulates via "clearance" receptors. 773 46

Atrial natriuretic factor causes a strong stimulation of human neutrophil migration in the concentration range of 4 x 10(-9) and 10(-7) M. The effect, which depends on the presence of extracellular Mg2+ but not on extracellular Ca2+, is composed of a chemokinetic and a chemotactic component. Cyclic GMP level of neutrophils is enhanced by atrial natriuretic factor. Two inhibitors of soluble guanylate cyclase, 6-anilino-5,8-quinolinedione (LY 83583) and methylene blue, have no effect on stimulation of migration by atrial natriuretic factor. Atrial natriuretic factor-activated migration is inhibited by pertussis toxin. Migration by electroporated neutrophils is synergistically enhanced by guanosine-5'-[gamma thio]triphosphate (GTP gamma[S]) and atrial natriuretic factor or by GTP gamma[S] and chemotactic peptide, while GTP gamma[S] and dioctanoyl glycerol give an additive effect. The results suggest that besides a modulation via cGMP a part of the effect of atrial natriuretic factor on migration is regulated via the ANF receptor-subtype that does not activate guanylate cyclase.
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PMID:Atrial natriuretic factor stimulates migration by human neutrophils. 777 77

The thick ascending limb of Henle's loop (TAL) is involved in the urinary dilution/concentration process by actively reabsorbing NaCl through a complex mechanism. Some years ago, compelling evidence was provided that cAMP stimulates NaCl reabsorption through the activation of adenylyl cyclase by several hormones other than antidiuretic hormone (ADH). Synthesis of cyclic AMP is inhibited by prostaglandin E2 (PGE2) and arachidonic acid per se, via the pertussis toxin-sensitive protein Gi activation. Cyclic GMP cascade down-regulates NaCl reabsorption, through activation of both guanylyl cyclase receptors (by ANF and urodilatin), and soluble guanylyl cyclase (by nitric oxide, NO). In TAL, NO is produced by the cytokine-inducible form of NO synthase, but not by the constitutive one. Agonists known to activate protein kinase C (PKC) in TAL elicit opposite effects on NaCl reabsorption. Five PKC isoforms belonging to the conventional, novel, and atypical enzyme subclasses have been recently defined in TAL and might differently regulate NaCl flux. Increments in intracellular calcium ([Ca2+]i) inhibit NaCl reabsorption via three pathways: (i) a possible direct effect on ion channels, (ii) a PLA2-mediated production of arachidonic acid derivatives (20-HETE), and (iii) inhibition of the ADH-induced cAMP accumulation. This last effect results from activation of phosphodiesterase (common to the agents that increase [Ca2+]i), and inhibition of adenylyl cyclase (only elicited by Ca2+c). Finally, the apical localization of some agonists effects is documented.
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PMID:Transducing pathways involved in the control of NaCl reabsorption in the thick ascending limb of Henle's loop. 955 29

The effect of natriuretic peptides on forskolin-evoked adenylyl cyclase activity was investigated in dispersed gill cells from the Australian short-finned eel (Anguilla australis). Molecular cloning techniques were employed to identify the putative G-protein-activating motif within the intracellular domain of the eel natriuretic peptide C receptor. Eel ANP, eel CNP and the NPR-C-specific C-ANF inhibited the forskolin-stimulated production of cyclic AMP. This effect was abolished by pretreatment of cells with pertussis toxin. Eel VNP was without effect on adenylyl cyclase activity. PCR and molecular cloning indicated that the intracellular domain of A. australis NPR-C has the same amino acid sequence as Anguilla japonica. Alignment of these sequences with Rattus norvegicus NPR-C indicated conservation of the putative G-protein-activating motif BB...BBXXB (B = basic, X = nonbasic residues). These data suggest that branchially-expressed NPR-C may play a physiological role additional to that of ligand clearance.
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PMID:Natriuretic peptides inhibit adenylyl cyclase activity in dispersed eel gill cells. 1476 May 1

The effect of the lysophospholipid, lysophosphatidic acid (LPA), on signaling and hypertrophy of neonatal rat ventricular cardiomyocytes was examined. Myocytes express mRNA for all three G-protein-coupled LPA receptor subtypes (LPA(1)/Edg-2, LPA(2)/Edg-4, and LPA(3)/Edg-7) as indicated by RT-PCR analysis. LPA inhibits isoproterenol-stimulated cyclic AMP accumulation with an IC(50) approximately 40 nM and promotes phosphorylation of ERK-1/2. LPA also elicits a small, slow onset, and activation of phosphoinositide hydrolysis with EC(50) approximately 400 nM, and stimulates a marked increase in the extent of Rho activation. Longer-term treatment with LPA induces a hypertrophic response in myocytes as indicated by increases in cell size, actin organization, ANF staining of the perinuclear region and activation of ANF promoter-luciferase gene expression. Pretreatment of myocytes with pertussis toxin (PTX) not only blocks the capacity of LPA to inhibit cyclic AMP formation and stimulate ERK phosphorylation, but also inhibits hypertrophic changes in cell morphology and ANF-luciferase gene expression. Neither phospholipase C nor Rho activation is PTX sensitive. The hypertrophic effects of LPA on myocytes are also inhibited by treatment with C3 exoenzyme or by transfection of plasmids expressing either C3 exoenzyme or dominant-negative Rho to block Rho function. Inhibition of ERK activation with PD98059 blocks LPA-induced hypertrophy while inhibitors of phospholipase C (U73122), PKC (GF109203X), or p38MAPK (SB203580) do not. These data suggest that LPA induces cardiomyocyte hypertrophy via a pathway different from the conventional G(q) pathway utilized by phenylephrine, endothelin, and PGF2 alpha and involving activation of a PTX-sensitive G(i)/ERK pathway in conjunction with activation of Rho-mediated signals.
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PMID:Lysophosphatidic acid induces hypertrophy of neonatal cardiac myocytes via activation of Gi and Rho. 1508 6

The cardiac natriuretic peptides (NP) atrial natriuretic factor or peptide (ANF or ANP) and brain natriuretic peptide (BNP) are polypeptide hormones synthesized, stored and secreted mainly by cardiac muscle cells (cardiocytes) of the atria of the heart. Both ANF and BNP are co-stored in storage granules referred to as specific atrial granules. The biological properties of NP include modulation of intrinsic renal mechanisms, the sympathetic nervous system, the rennin-angiotensin-aldosterone system (RAAS) and other determinants, of fluid volume, vascular tone and renal function. Studies on the control of baseline and stimulated ANF synthesis and secretion indicate at least two types of regulated secretory processes in atrial cardiocytes: one is stretch-stimulated and pertussis toxin (PTX) sensitive and the other is Gq-mediated and is PTX insensitive. Baseline ANF secretion is also PTX insensitive. In vivo, it is conceivable that the first process mediates stimulated ANF secretion brought about by changes in central venous return and subsequent atrial muscle stretch as observed in acute extracellular fluid volume expansion. The second type of stimulation is brought about by sustained hemodynamic and neuroendocrine stimuli such as those observed in congestive heart failure.
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PMID:Determinants of natriuretic peptide gene expression. 1591 Oct 63


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