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)

Desensitization of the responsiveness to hormones or drugs is often mediated by down-regulation of receptors. The stimulatory coupling protein (Ns) of adenylate cyclase has been shown to be involved in the down-regulation of stimulatory beta-adrenergic receptors. Whether the inhibitory coupling protein (Ni) is involved in the down-regulation of receptors that inhibit adenylate cyclase is not known. We wished to determine whether down-regulation of inhibitory muscarinic cholinergic and alpha 2-adrenergic receptors occurs in neuroblastoma X glioma hybrid cells after the ability of Ni to inhibit adenylate cyclase is inactivated by pertussis toxin. After treatment of cells with pertussis toxin, the ability of carbachol or epinephrine to inhibit prostaglandin E1-stimulated cAMP accumulation in intact cells was either completely prevented or markedly attenuated, respectively, indicating functional inactivation of Ni. Furthermore, pertussis toxin treatment of membrane fragments from these cells did not result in labeling of the 41,000-dalton alpha-subunit of Ni with ADP ribose from [32P] NAD, indicating maximal ADP ribosylation of Ni by prior treatment of cells with pertussis toxin. Carbachol treatment of cells resulted in down-regulation of muscarinic cholinergic receptors to 45.7 +/- 12.5% and 52.5 +/- 13.5% of control values for toxin-untreated and toxin-treated cells, respectively. Epinephrine treatment of cells caused homologous desensitization of alpha 2-receptor-mediated inhibition of cAMP accumulation and down-regulation of alpha 2-adrenergic receptors to 42.9 +/- 11.4% and 53.2 +/- 5.3% of control values for toxin-untreated and toxin-treated cells, respectively. Down-regulation of muscarinic cholinergic receptors by carbachol and of alpha 2-adrenergic receptors by epinephrine was not due to the effect of retained agonist and was agonist specific, since it could be prevented by the antagonists atropine and yohimbine, respectively. We conclude that agonist-mediated down-regulation of both the muscarinic cholinergic receptor and the alpha 2-adrenergic receptor does not require functional inhibitory coupling.
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PMID:Agonist-induced down-regulation of muscarinic cholinergic and alpha 2-adrenergic receptors after inactivation of Ni by pertussis toxin. 242 98

Using a recently developed canine primary enteric endocrine cell culture system, we have investigated the role of adenosine 3',5'-cyclic monophosphate (cAMP) in mediating the release of neurotensin and enteroglucagon. Epinephrine-stimulated peptide release was concomitant with an increase in cAMP accumulation. Carbachol and somatostatin (SRIF) markedly inhibited the epinephrine effect on both peptide release and cAMP content. The addition of 3-isobutyl-1-methylxanthine potentiated epinephrine-stimulated peptide release without altering the relative inhibition by carbachol and SRIF, suggesting that these agents did not inhibit endocrine cell function by increasing phosphodiesterase activity. To determine the role of cAMP production in mediating inhibition of peptide release, cells were incubated with the bacterial toxin, pertussis toxin (PT). In cultures pretreated with PT, carbachol inhibition of both peptide release and cAMP accumulation was completely reversed. In contrast, SRIF inhibition of cAMP content was completely reversed after PT treatment, but inhibition of peptide release was only partially reversed. Additionally, toxin treatment only partially reversed SRIF inhibition of forskolin- and calcium ionophore-stimulated peptide release. These data suggest that muscarinic cholinergic inhibition of neurotensin and enteroglucagon release is mediated entirely through the guanine nucleotide-binding protein (Ni) or a similar toxin-sensitive, GTP-binding protein. SRIF-inhibited peptide release is mediated partially through a toxin-sensitive substrate, as evidenced by PT reversal of reduced cAMP levels. SRIF may also inhibit neurotensin and enteroglucagon release by a cAMP-independent pathway that is not coupled to Ni or a similar PT-sensitive, GTP-binding protein.
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PMID:Somatostatin and muscarinic inhibition of canine enteric endocrine cells: cellular mechanisms. 244 8

The effects of injecting epinephrine into pseudopregnant rabbits on the luteal adenylyl cyclase system were analyzed. Epinephrine-induced desensitization was heterologous and associated with a reduced response to isoproterenol, LH, NaF, and forskolin. Epinephrine-induced desensitization was rapid in onset, with a maximum decrease in responsiveness 6 h after treatment and responsiveness returning to control levels within 24 h of treatment. The changes in beta-adrenergic receptor content paralleled changes in catecholamine responsiveness. The affinity of the beta-receptors from treated animals decreased 1.5- to 2-fold before down-regulation. LH receptor number was not altered by epinephrine treatment, although responsiveness to LH was depressed. LH receptor affinity, however, was reduced about 2-fold by epinephrine treatment. Epinephrine treatment also altered G-protein function in corpora lutea, as assessed by reconstitution of adenylyl cyclase activity in S49 cyc- membranes and ADP ribosylation by cholera and pertussis toxins. NaF- and isoproterenol-reconstituting activities of luteal Gs (the stimulatory G-protein of adenylyl cyclase) were depressed for the first 6 h after treatment. The ability of cholera toxin to ADP ribosylate alpha s 46 and alpha s 45 was reduced 1.5-6 h and 3-12 h, respectively, after epinephrine treatment. The reduced ability of cholera toxin to ADP ribosylate alpha s 45 was associated with the decrease in LH receptor affinity after treatment. This supports the contention that alpha s 45 preferentially interacts with the LH receptor. These studies demonstrate that the loss of LH responsiveness upon epinephrine-induced heterologous desensitization is associated with altered G-protein function.
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PMID:Catecholamine-induced heterologous desensitization of rabbit luteal adenylyl cyclase: loss of luteinizing hormone responsiveness is associated with impaired G-protein function. 253 15

By using antibodies specific for alpha subunits of inhibitory GTP-binding proteins (Gi alpha polypeptides) to probe Western blots of whole platelet protein, we detected Gi alpha-2 as the predominant Gi alpha species present in platelets. The subcellular compartmentalization of distinct Gi alpha-2-immunoreactive polypeptides coupled to thrombin and alpha 2-adrenergic receptors was examined in Triton X-100 platelet lysates prepared by highspeed centrifugation. This treatment permitted separation of the Triton-insoluble membrane skeleton from Triton-soluble cell components. In cells treated with either alpha-thrombin or epinephrine, we observed that a greater proportion of Gi alpha-2 was localized in the Triton-soluble fraction than in the Triton-insoluble fraction. Pertussis toxin was found to catalyze ADP-ribosylation of Gi alpha-2 in whole platelets. In thrombin-stimulated cells, this activity was confined to the Triton-soluble fraction and was markedly lower than that of unstimulated cells. Epinephrine, on the other hand, promoted translocation of a portion of the pertussis toxin-sensitive Gi alpha-2 from the Triton-soluble fraction to the Triton-insoluble fraction. In addition, epinephrine stimulated translocation of a phosphorylated protein of approximately 38 kDa that was not ADP-ribosylated by pertussis toxin. This protein expressed immunoreactivity with the general Gi alpha antiserum AS/7 but not with the Gi alpha-2 antiserum LE/3. These findings suggest a role for specific localization of Gi alpha proteins in epinephrine-induced platelet responses.
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PMID:Epinephrine induces changes in the subcellular distribution of the inhibitory GTP-binding protein Gi alpha-2 and a 38-kDa phosphorylated protein in the human platelet. 253 14

alpha 2-Adrenergic receptors on NG 108 15 cell membranes were identified by [3H]rauwolscine binding: Bmax. = 661 +/- 81 fmol/mg of protein, Kd = 6.9 +/- 2.5 nM (mean +/- S.E.M., n = 6). On intact cells, stimulation of these receptors by (-)-adrenaline inhibited the prostaglandin-E1-stimulated adenylate cyclase activity by about 60%. The effect of (-)-adrenaline was pertussis-toxin-sensitive, indicating the involvement of an inhibitory G protein. (-)-Adrenaline/[3H]rauwolscine competition-binding experiments revealed that only 50% of the alpha 2 receptors were coupled to G proteins (i.e. displayed high agonist affinity). Pre-treatment of the cells with 20 microM-(-)-adrenaline provoked homologous desensitization of the alpha 2 receptors. The alpha 2-adrenergic response decreased after a time lag of about 2 h, to reach a minimum after 12 h. The bradykinin and muscarinic responses were not affected. The alpha 2-receptor concentration decreased without time lag. The high-agonist-affinity sites disappeared more rapidly (t1/2 = 42 min) than did the low-affinity uncoupled sites (t1/2 approx. 20 h). In contrast, pertussis-toxin-mediated [32P]ADP-ribosylation of inhibitory G proteins was unaffected by the pre-treatment. Pretreatment of intact NG 108 15 cells with 1 microM-phorbol 12-myristate 13-acetate (PMA) provoked a rapid decrease of the alpha 2-adrenergic response. The effect was nearly complete after 40 min. PMA also decreased the bradykinin response, suggesting a heterologous desensitization process. The alpha 2-receptor concentration, the (-)-adrenaline competition-binding curves and the pertussis- and cholera-toxin-mediated [32P]ADP-ribosylation of their respective G proteins were not affected.
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PMID:Desensitization of alpha 2-adrenergic receptors in NG 108 15 cells by (-)-adrenaline and phorbol 12-myristate 13-acetate. 255 86

Epinephrine and norepinephrine (1-10 microM) stimulated the release of prostacyclin (PGI2) from the rabbit aorta in vitro. The stimulation was maintained for at least 2 h in the continuous presence of epinephrine. Phenylephrine mimicked this effect, whereas the selective alpha 2-agonist UK-14,304 was completely ineffective. The action of epinephrine was abolished by prazosin (1 microM) and was maintained in the presence of yohimbine. Epinephrine or phenylephrine neither increased the basal release of PGI2 from bovine aortic endothelial cells nor potentiated the stimulatory action of adenine nucleotides, which is mediated by P2-purine receptors. The response to epinephrine was lost in freshly deendothelialized strips of rabbit aorta, possibly because of cyclooxygenase self-inactivation. The response recovered however following overnight incubation of these strips in a cell culture medium. The response to epinephrine was mimicked by neither phorbol 12-myristate,13-acetate nor ionophore A23187. It was not inhibited by pretreatment with pertussis toxin. It is concluded that adrenergic agents stimulate the vascular production of PGI2, by activating alpha 1-receptors located on smooth muscle cells.
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PMID:Adrenergic stimulation of vascular prostacyclin: role of alpha 1-receptors in smooth muscle cells. 283 Jan 24

Platelet responses to agonists are believed to be mediated by at least two pertussis toxin-sensitive guanine nucleotide-binding (G) proteins: Gi which inhibits adenylyl cyclase and Gp, which stimulates phospholipase C. The present studies compare the properties of Gi and Gp and examine their interactions with the receptors for various platelet agonists. In permeabilized platelets and platelet membranes, pertussis toxin [32P]ADP-ribosylated a protein(s) (alpha 41) which migrated on sodium dodecyl sulfate-polyacrylamide gel electrophoresis fractionally below rabbit and bovine alpha i (Mr = 41,000). Prior exposure of the platelets to an agonist inhibited the [32P]ADP-ribosylation of alpha 41 to an extent which correlated with the pattern of responses to that agonist. Thrombin, which elicited responses that were mediated by both Gi and Gp, decreased radiolabeling by greater than 90%. Epinephrine, which was functionally coupled only to Gi, decreased radiolabeling by 50%, as did vasopressin and platelet-activating factor (PAF), which were coupled only to Gp. U46619, a thromboxane analog which neither inhibited cAMP formation nor caused pertussis toxin-sensitive phosphoinositide hydrolysis, had no effect on 32P-ADP-ribosylation. These results suggest that either G alpha 41 regulates more than one enzyme or that alpha subunits from more than one G protein comigrate within alpha 41. Two-dimensional electrophoresis was used to test the latter possibility. Upon isoelectric focusing, alpha 41 resolved into two distinct subspecies. However, these appear to be minor variants rather than functionally distinct alpha subunits since: 1) both proteins produced the same proteolytic fragments after digestion with chymotrypsin or Staphylococcus aureus V8 protease and 2) preincubation of the platelets with agonists, including those which appear to interact in intact platelets solely with Gp (PAF and vasopressin) or solely with Gi (epinephrine), inhibited the [32P]ADP-ribosylation of both proteins to the same extent. The pattern of functional responses produced by some of the agonists was found to depend upon the conditions used for the assay. Although unable to inhibit cAMP formation in intact platelets, both PAF and vasopressin caused pertussis toxin-sensitive inhibition of adenylyl cyclase in isolated membranes. Collectively, these observations suggest that 1) in platelets a single pertussis toxin-sensitive, alpha 41-containing G protein may be involved in the regulation of both adenylyl cyclase and phospholipase C and 2) additional constraints which are altered during membrane isolation may help to determine which enzyme is coupled to which agonist.
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PMID:Interactions in platelets between G proteins and the agonists that stimulate phospholipase C and inhibit adenylyl cyclase. 283 6

The mechanism by which alpha 2-adrenergic agonists inhibit exocytosis was investigated in electrically permeabilized insulin secreting RINm5F cells. In this preparation alpha 2-adrenoceptors remain coupled to adenylate cyclase, since basal- and forskolin-stimulated cyclic AMP production was lowered by epinephrine and clonidine by 30-50%. Cyclic AMP levels did not correlate with the rate of insulin secretion. Thus, at low Ca2+, forskolin enhanced cyclic AMP levels 5-fold without eliciting secretion, and Ca2+-stimulated secretion was associated with decreased cyclic AMP accumulation. Epinephrine (plus propranolol) inhibited Ca2+-induced insulin secretion in a GTP-dependent manner. The maximal inhibition (43%) occurred at 500 microM GTP. Clonidine also inhibited Ca2+-stimulated secretion. Replacement of GTP by GDP or by the nonhydrolyzable GTP analog guanosine 5'-(3-O-thio)triphosphate as well as treatment of the cells with pertussis toxin prior to permeabilization abolished epinephrine inhibition of insulin secretion. Pertussis toxin did not affect Ca2+-stimulated secretion. Insulin release stimulated by 1,2-didecanoyl glycerol was also lowered by epinephrine suggesting an effect distal to the activation of protein kinase C (Ca2+/phospholipid-dependent enzyme). These results taken together with the ability of epinephrine to inhibit ionomycin-induced insulin secretion in intact cells suggest that alpha 2-adrenergic inhibition is distal to the generation of second messengers. A model is proposed for alpha 2-adrenoceptor coupling to two effector systems, namely the adenylate cyclase and the exocytotic site in insulin-secreting cells.
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PMID:GTP-dependent inhibition of insulin secretion by epinephrine in permeabilized RINm5F cells. Lack of correlation between insulin secretion and cyclic AMP levels. 283 60

Parathyroid hormone enhances the formation of cAMP and decreases the Na+-dependent uptake of phosphate in cultured renal cells derived from the American opossum (OK cells). Epinephrine, acting as an alpha 2-adrenergic agonist, inhibits the PTH-induced synthesis of cAMP by a pertussis toxin-sensitive mechanism and blunts the inhibition of phosphate transport by PTH. Na+-dependent alpha-methylglucoside and Na+ uptakes by the cells are unaffected by PTH and epinephrine. These findings suggest that alpha 2-adrenergic agonists may selectively modulate PTH-sensitive phosphate transport in the renal proximal tubule.
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PMID:Alpha-2-adrenergic modulation of the parathyroid hormone-inhibition of phosphate uptake in cultured renal (OK) cells. 284 89

Vasopressin (AVP) plays a key role in maximal urine concentration by stimulating NaCl reabsorption in the medullary thick ascending limbs of Henle (MAL) and by increasing water permeability in the medullary collecting tubules (MCT). These effects of AVP in MAL and MCT are mediated by cAMP. Alpha 2-adrenergic stimulation in MCT, and high ambient Ca2+ and PGE2 in MAL inhibit AVP-dependent cAMP production and thereby modulate urine concentration. The present study was undertaken to clarify the mechanisms underlying the inhibition of AVP-dependent cAMP production by these agents using microdissected mouse MAL and MCT. Preincubation of MCT and MAL with 1 microgram/ml pertussis toxin for 3 and 6 h, respectively, resulted in ADP-ribosylation of an approximately 41-kD protein, which was presumably an alpha subunit of the inhibitory GTP-binding protein Gi. Epinephrine, 10(-6) M, via alpha 2-adrenergic stimulation, inhibited AVP-dependent cAMP production in MCT. Preincubation of MCT for 3 h with pertussis toxin abolished the inhibition of AVP-dependent cAMP production by epinephrine. High ambient Ca2+ and PGE2 both inhibited AVP-dependent cAMP production in MAL. Preincubation of MAL for 6 h with pertussis toxin abolished the inhibition by high ambient Ca2+ and attenuated the inhibition by PGE2. Preincubation of MCT or MAL with pertussis toxin for 1 h was ineffective in ADP-ribosylation and did not modify the inhibition of AVP-dependent cAMP production by these agents in both nephron segments. Our data suggest that the inhibition of AVP-dependent cAMP production by alpha 2-adrenergic stimulation in MCT, and by high ambient Ca2+ and adrenergic stimulation in MCT, and by high ambient Ca2+ and PGE2 in MAL, is mediated, at least in part, through activation of Gi.
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PMID:Inhibitory guanosine triphosphate-binding protein-mediated regulation of vasopressin action in isolated single medullary tubules of mouse kidney. 284 57


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