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)

We recently cloned a complementary DNA for the rat dopamine D-2 receptor, making it possible to create cell lines expressing this receptor. A cell line (LZR1) was created by transfecting the D-2 cDNA (RGB-2) into mouse fibroblast Ltk- cells. LZR1 cells, previously described as L-RGB2Zem-1 cells, express a high density of D-2 receptors, whereas the wild-type cells do not. A number of agonists competitively and stereoselectively inhibited the binding of [3H]spiroperidol to the expressed D-2 receptors in a GTP-sensitive manner. The potency of dopamine was decreased by the addition of GTP. NaCl and GTP together caused a further decrease in potency and increased the Hill slope for inhibition of radioligand binding by dopamine almost to 1.0. Pretreatment of cells with pertussis toxin inhibited high affinity binding of dopamine and prevented further inhibition of binding by GTP. The NaCl-induced decrease in affinity was not prevented by pertussis toxin treatment. Dopamine reduced forskolin-stimulated adenylate cyclase activity by 27% in membranes prepared from LZR1 cells. Inhibition by dopamine was blocked by (+)-butaclamol or prior treatment of intact cells with pertussis toxin. Other dopamine receptor agonists stereoselectively inhibited adenylate cyclase activity. These data indicate that the RGB-2 cDNA directs the expression of a dopamine D-2 receptor capable of interacting with guanine nucleotide-binding proteins and inhibiting adenylate cyclase activity. Furthermore, the RGB-2 cDNA provides a means of creating many cell lines that will be useful tools for the biochemical and pharmacological characterization of dopamine D-2 receptors.
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PMID:Functional characterization of a rat dopamine D-2 receptor cDNA expressed in a mammalian cell line. 257 Oct 73

The effect of dopamine, working through the activation of D2 receptors, on inositol phosphate production induced by thyrotropin-releasing hormone (TRH) was investigated in rat pituitary lactotroph cells. Dopamine (10 microM) did not modify the initial rapid stimulation of inositol 1,4,5-triphosphate and inositol bisphosphate observed within the first 15 s after TRH addition, but progressively inhibited the later inositol phosphate production induced by the neurohormone. This kinetics of inhibition was independent of dopamine preincubation time (from 2 to 10 min). The effect was still visible when dopamine was added after TRH. It was sensitive to pertussis toxin, was unchanged by increasing cellular cAMP levels with 8-Br-cAMP, but was greatly affected by treatments that modify the cytosolic free Ca2+ concentration. Specifically, the dopamine-induced inhibition was prevented by treatment of the cells with the Ca2+ ionophore ionomycin (100-200 nM) and was mimicked either by withdrawal of Ca2+ from the incubation medium or by blockade of voltage-gated Ca2+ channels with verapamil. The dopamine treatment did not decrease the cellular levels of the various phosphoinositides, strongly suggesting that the inhibition of inositol phosphate production is not due to precursor depletion. In isolated membranes, however, dopamine was unable to counteract the inositol phosphate accumulation triggered by TRH. Taken together, the data indicate that inhibition of inositol phosphate production is not a primary event triggered by D2 receptor activation, but is a late consequence, due to the previously demonstrated (Malgaroli, A., Vallar, L., Reza Elahi, F., Pozzan, T., Spada, A., and Meldolesi, J. (1987) J. Biol. Chem. 262, 13920-13927) inhibition by dopamine of the prolonged cytosolic free Ca2+ concentration increase induced by TRH via the activation of voltage-gated Ca2+ channels. These results are inconsistent with the possibility of a direct inhibitory coupling of D2 receptors to phospholipase C in rat pituitary lactotroph cells.
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PMID:Inhibition of inositol phosphate production is a late, Ca2+-dependent effect of D2 dopaminergic receptor activation in rat lactotroph cells. 283 76

Although dopamine inhibits PRL release from the normal anterior pituitary lactotroph, a conclusive demonstration of the mechanisms involved in this response has been impeded by the presence of other cell types in the anterior pituitary. To circumvent this problem, we have isolated a clonal cell line, designated MMQ, from the 7315a rat pituitary tumor. The MMQ cell is an exemplary model for our use because it only secretes PRL. Our studies show that dopamine inhibits secretagogue-induced PRL release from these cells. In addition, dopamine decreases the intracellular cAMP concentration in MMQ cells that have been exposed to forskolin, cholera toxin, or vasoactive intestinal polypeptide, each a stimulator of cAMP generation. This inhibition is, in turn, reversed by the dopamine antagonist haloperidol and by pertussis toxin, an inactivator of the GTP-binding coupling protein. Dopamine also decreases the uptake and fractional efflux of 45Ca2+ by MMQ cells that have been exposed to the calcium channel activator maitotoxin. It seems, therefore, that dopamine decreases PRL release from MMQ cells at least in part by decreasing intracellular cAMP levels and calcium uptake. In additional experiments, we have found that MMQ cells are responsive to somatostatin, estrogen, progesterone, and acetylcholine, but not to TRH, angiotensin II, neurotensin, or bombesin. Furthermore, these cells possess a functional protein kinase-C system, as evidenced by the increase in PRL release and decrease in stimulated intracellular cAMP levels that occur in response to treatment with phorbol diesters. We suggest that the MMQ cell line will prove a useful model system for study of the biochemical effects of dopamine and other factors that modify PRL release.
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PMID:Characterization of the MMQ cell, a prolactin-secreting clonal cell line that is responsive to dopamine. 284 8

Forskolin and the phorbol ester 12-O-tetradecanoylphorbol 13-acetate stimulate prolactin and GH release from ovine anterior pituitary cells cultured in vitro. Dopamine and somatostatin inhibit release of prolactin and GH respectively, after stimulation by these agents, but without effects on intracellular cyclic AMP concentrations. In each case the inhibitory effects were reversed by pretreatment of cells with pertussis toxin, in a dose-related fashion (1-100 ng/ml), again without affecting cyclic AMP levels. The results suggest that the inhibitory effects of dopamine and somatostatin in this system are mediated by one or more pertussis toxin-sensitive G proteins, and that these act by a mechanism which does not involve inhibition of adenylate cyclase.
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PMID:Actions of pertussis toxin on the inhibitory effects of dopamine and somatostatin on prolactin and growth hormone release from ovine anterior pituitary cells. 290 33

The effects of dopamine on proopiomelanocortin (POMC) gene expression were compared in primary cultures of the anterior and intermediate lobes of the rat pituitary. A single-stranded POMC complementary DNA was used to quantitate POMC messenger RNA levels. Treatment with dopamine (1 microM) for 48 h reduced POMC messenger RNA levels in the intermediate lobe by 77%, but had no effect on POMC gene expression in the anterior lobe. Dopamine D2 receptors were implicated in the response, as bromocriptine (100 nM). reproduced the dopamine inhibition. The responses to dopamine and bromocriptine were antagonized by haloperidol (10 microM). The decrease in POMC messenger RNA levels was dose dependent with ED50 values of about 50 and 0.1 nM for dopamine and bromocriptine, respectively. The accumulation of POMC-derived peptides, beta-endorphin and alpha-melanocyte-stimulating hormone, over 2 days was measured by radioimmunoassay and was shown to parallel the changes in POMC synthesis. The dopamine-induced inhibition of intermediate lobe POMC synthesis was unaffected by isoprenalin (5 microM) and corticotropin-releasing factor (10 nM), although these treatments had stimulatory effects when tested alone. Activating adenylate cyclase with forskolin (1 microM) or treatment with 8-bromocyclic adenosine monophosphate (1 mM) doubled POMC messenger RNA levels, and, when tested against these stimuli, bromocriptine still produced a 30% inhibition of POMC gene expression. These observations suggest that D2 receptor induced inhibition of POMC gene expression is not only mediated by a decrease in cyclic adenosine monophosphate levels. When cells were pretreated with pertussis toxin (100 ng/ml), the bromocriptine-induced inhibition was almost completely lost, suggesting that the dopaminergic inhibition is mediated by guanosine triphosphate binding proteins.
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PMID:Dopamine inhibition of proopiomelanocortin gene expression in the intermediate lobe of the pituitary. Interactions with corticotropin-releasing factor and the beta-adrenergic receptors and the adenylate cyclase system. 296 67

Despite their opposite effects on prolactin secretion, both dopamine and angiotensin II inhibit adenylate cyclase activity in homogenates of anterior pituitary cells in primary culture. Dopamine and angiotensin II inhibition of adenylate cyclase was not additive, suggesting that both neurohormones inhibit the adenylate cyclase of the lactotroph cells. Pretreatment with Bordetella pertussis toxin (islet activator protein) completely suppressed the dopamine-induced inhibition of both adenylate cyclase and prolactin secretion. The islet activator protein also reversed the angiotensin II-induced inhibition of the adenylate cyclase activity. In contrast, angiotensin II stimulation of prolactin release was not affected by the toxin. Angiotensin II also induced a dose-dependent stimulation of inositol phosphates (250%) with an EC50 of 0.1 nM, close to that observed for prolactin secretion. Islet activator protein pretreatment did not block the stimulation of inositol phosphate production. Dopamine inhibited the angiotensin II-stimulated prolactin release and the production of inositol phosphates induced by angiotensin II. It is concluded that angiotensin II and dopamine receptors of lactotroph cells are able to modulate both cAMP and inositol phosphate production. The dopamine receptor of lactotrophs appears to be the first example of a receptor which is negatively coupled to the production of inositol phosphates.
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PMID:Angiotensin II and dopamine modulate both cAMP and inositol phosphate productions in anterior pituitary cells. Involvement in prolactin secretion. 300 16

Dopamine inhibits and serotonin stimulates adenylate cyclase activity in a neuroblastoma X Chinese hamster brain explant cell line (NCB-20). The inhibition of cyclic AMP accumulation by dopamine was blocked by pretreatment of the cells with pertussis toxin. Carbachol and bradykinin stimulated the accumulation of water-soluble inositol phosphates whereas thyrotropin-releasing hormone, vasopressin, neurotensin, and phenylephrine were without effect. Dopamine and serotonin had no significant effect on carbachol-induced phosphoinositide hydrolysis or the levels of the parent lipids within the membrane. Forskolin induced a much larger stimulation of cyclic AMP than did serotonin, and caused an increase in the levels of phosphatidylinositol-4-phosphate and phosphatidyl inositol-4,5-bisphosphate in the cell membrane.
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PMID:Activation of dopamine receptors does not affect phosphoinositide turnover in NCB-20 cells. 303 93

Dopamine induces a decrease in voltage-dependent Ca2+ current in identified neurons of the snail H. aspersa. This effect is blocked by intracellular injection of activated B. pertussis toxin and of an affinity-purified antibody against the alpha subunit of bovine Go protein. The dopamine effect is mimicked by intracellular injection of mammalian alpha o. In snail nervous tissue, pertussis toxin ADP-ribosylates a single protein band on SDS gels, and this band is recognized in immunoblots by the anti-alpha o antibody. We propose that this is a 40 kd alpha subunit of a molluscan G protein immunologically related to alpha o and that it mediates the effect of dopamine on Ca2+ currents in identified snail neurons.
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PMID:An alpha 40 subunit of a GTP-binding protein immunologically related to Go mediates a dopamine-induced decrease of Ca2+ current in snail neurons. 1899 6

Dopamine receptors with a pharmacological profile similar to D2 receptors are coenriched with rhodopsin in preparations of bovine retinal membranes. A high density of these receptors are present on photoreceptor membranes. The affinity of the agonist apomorphine for these receptors is decreased by the guanine nucleotides GTP and GppNHp. Treatment of photoreceptor membranes with pertussis or cholera toxin also decreased the affinity of apomorphine and eliminated the effect of GTP.
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PMID:Dopamine receptors on photoreceptor membranes couple to a GTP-binding protein which is sensitive to both pertussis and cholera toxin. 393 12

We have evaluated the inhibitory effect of dopamine on PRL secretion induced by blocking K+ channels. Tumor-derived GH4C1 cells and collagenase-dispersed normal anterior pituitary (AP) cells from young adult male rats were perifused with Krebs-Ringer Hepes medium. In both cell types blocking K+ channels with tetraethylammonium (TEA) induced PRL secretion but did not stimulate cyclic AMP generation. Blocking Na+ channels with 1 microM tetrodotoxin had no effect on basal or TEA-induced PRL secretion. Dopamine inhibited the TEA-induced rise in [Ca2+]i in GH4C1 cells expressing dopamine D2 short receptors. In normal AP cells, 1-100 nM dopamine blocked PRL secretion induced by 20 mM TEA in a log-linear concentration-dependent fashion, with a plateau at > 100 nM dopamine (IC50 30 nM). The D2 dopaminergic receptor agonist, quinpirole, at 100 nM completely blocked PRL secretion induced by 20 mM TEA. The D2 dopaminergic receptor antagonist, sulpiride, at 10 microM reversed the inhibitory effect of 10 microM dopamine on PRL secretion induced by 20 mM TEA. Pretreatment of cells with 100 ng/ml pertussis toxin (PTX) for 24 h prevented 100 nM dopamine inhibition of PRL secretion induced by 20 mM TEA. The data indicate that in both normal lactotroph cells and in tumor-derived cells expressing D2 receptors, PRL secretion stimulated by blocking K+ channels is inhibited by dopamine binding to D2 receptors on the plasma membrane. This inhibition involves interaction with PTX-sensitive Gi protein.
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PMID:Pituitary PRL secretion induced by tetraethylammonium is inhibited by dopamine through D2 receptors. 748 18


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