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)

Rat islets express a pertussis toxin sensitive G-protein involved in receptor-mediated inhibition of insulin secretion. This has been assumed previously to represent "G(i)" which couples inhibitory receptors to adenylate cyclase. Incubation of islet G-proteins with 32P-NAD and pertussis toxin resulted in the labelling of a band of molecular weight 40,000. This band was very broad and did not allow resolution of individual components. Incubation of the radiolabelled proteins with an anti-G(o) antiserum resulted in specific immunoprecipitation of a 32P-labelled band. These results demonstrate that the complement of pertussis toxin sensitive G-proteins in rat islets includes G(o).
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PMID:Immunoprecipitation of a pertussis toxin substrate of the G(o) family from rat islets of Langerhans. 135 45

The mitogenic effect of extracellular ATP on porcine aortic smooth muscle cells (SMC) was examined. Stimulation of [3H]thymidine incorporation by ATP was dose-dependent; the maximal effect was obtained at 100 microM. ATP acted synergistically with insulin, IGF-1, EGF, PDGF, and various other mitogens. Incorporation of [3H]thymidine was correlated with the fraction of [3H]thymidine-labeled nuclei and changes in cell counts. The stimulation of proliferation was also determined by measurement of cellular DNA using bisbenzamide and by following the increase of mitochondrial dehydrogenase protein. The effect of ATP was not due to hydrolysis to adenosine, which shows synergism with ATP. ATP acted as a competence factor. The mitogenic effect of ATP, but not adenosine, was further increased by lysophosphatidate, phosphatidic acid, or norepinephrine. The inhibitor of adenosine deaminase, EHNA, stimulated the effect of adenosine but not ATP. The adenosine receptor antagonist theophylline depressed adenosine-induced mitogenesis. ADP and the non-hydrolyzable analogue adenosine 5'-[beta, gamma-imido]triphosphate (AMP-PNP) were equally mitogenic. Thus extracellular ATP stimulated mitogenesis of SMC via P2Y purinoceptors. The mechanism of ATP acting as a mitogen in SMC was further explored. Extracellular ATP stimulated the release of [3H]arachidonic acid (AA) and prostaglandin E2 (PGE2) into the medium, and enhanced cAMP accumulation in a dose-dependent fashion similar to ATP-induced [3H]thymidine incorporation. Inhibitors of the arachidonic acid metabolism pathway, quinacrine and indomethacin, partially inhibited the mitogenic effect of ATP but not of adenosine. Pertussis toxin inhibited ATP-stimulated DNA synthesis, AA release, PGE2 formation, and cAMP accumulation. Down-regulation of protein kinase C (PKC) by long-term exposure to phorbol dibutyrate (PDBu) partially prevented stimulation of DNA synthesis and activation of the AA pathway by ATP. The PKC inhibitor, staurosporine, antagonized mitogenesis stimulated by ATP. No synergistic effect was found when PDBu and ATP were added together. Therefore, a dual mechanism, including both arachidonic acid metabolism and PKC, is involved in ATP-mediated mitogenesis in SMC. In addition, ATP acted synergistically with angiotensin II, phospholipase C, serotonin, or carbachol to stimulate DNA synthesis. Finally, the possible physiological significance of ATP as a mitogen in SMC was further studied. The effect of endothelin and heparin, which are released from endothelial cells, on ATP-dependent mitogenesis was investigated. Extracellular ATP acted synergistically with endothelin to stimulate a greater extent of [3H]thymidine incorporation than was seen with PDGF plus endothelin. Heparin, believed to have a regulatory role, partially inhibited the stimulation of DNA synthesis caused both by ATP and PDGF.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Extracellular ATP and ADP stimulate proliferation of porcine aortic smooth muscle cells. 135 98

Octreotide (SMS), a somatostatin analogue, is an established antigrowth peptide, but it does not effectively inhibit the growth of insulinoma cells. In order to study the mechanisms that underlie this apparent lack of an antiproliferative effect on insulinoma tumor cells we established the rat insulinoma cell line, RINm5F, in culture. Cells in culture were tested by incubation in media with and without SMS. To study tritiated [3H]-thymidine incorporation into extracted DNA (TTID), 2 muCi/well of 3H was added for 24 hr, and cells were harvested and assayed for TTID (cpm/microgram DNA). Insulin (IRI) and intracellular cAMP (cAMPi) were measured by RIA. To study the effects of SMS on insulin secretion, conditioned media were sampled after 24 hr. To study the effects of cAMPi, conditioned medium was used to extract cAMPi following incubation with SMS for 15 min. Increasing concentrations of SMS had no significant effect on TTID in the presence of 1% FBS. Trypan blue exclusion tests showed > 90% viable cells throughout all stages of these experiments. There were no significant differences in cell numbers and protein content in the presence of SMS. There was a significant decrease in the secretion of insulin and intracellular cAMP levels in response to 50 nM SMS. However, SMS significantly inhibited TTID in RINm5F cells following a 4-hr pretreatment with pertussis toxin (PT) (23553 +/- 1747 vs 20635 [cpm/microgram DNA] +/- 1983 [SEM], P < 0.01). We conclude that the inhibition of insulin secretion by SMS is associated with an attenuation of cAMP formation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Mechanisms of somatostatin action in RINm5F cells in culture: preliminary evidence for possible altered G protein function. 135 94

Vasopressin (VP) stimulates insulin secretion and inositol phosphate (InsP) production in clonal hamster beta cells (HIT) via a cyclic AMP-independent V1-receptor-mediated signal-transduction pathway. Somatostatin (SRIF) inhibited VP-stimulated insulin secretion, and the effects of SRIF were abolished by pretreatment with pertussis toxin. The Ca(2+)-channel blockers verapamil and nifedipine also inhibited VP-stimulated insulin secretion during 20 min incubations, but verapamil was ineffective at 2 min, and the effects of SRIF and nifedipine together were not addictive. SRIF failed to inhibit further the attenuated insulin response to VP in Ca(2+)-free medium. VP-stimulated InsP production was also inhibited by SRIF in a pertussis-toxin-sensitive manner. Whereas VP-stimulated insulin secretion was almost completely inhibited by SRIF at an equimolar concentration, VP-stimulated InsP production was much less sensitive to inhibition by SRIF, even at a 100-fold excess concentration. VP increased cytosolic Ca2+ in HIT cells loaded with fura 2, the fluorescent Ca2+ indicator. The increase was biphasic, with an initial rapid spike increase followed by a prolonged second phase. Both SRIF, at a concentration which inhibited VP-stimulated insulin secretion but not InsP production, and verapamil failed to inhibit the rapid spike increase in intracellular Ca2+, but did inhibit the second phase. We conclude that VP induces biphasic changes in cytosolic Ca2+, secondary to mobilization of intracellular Ca2+ and influx of extracellular Ca2+. SRIF inhibits insulin secretion by interrupting influx of extracellular Ca2+, likely by inhibiting Gi-subunit activity. Inhibition of VP-stimulated phosphoinositide hydrolysis, which is also pertussis-toxin-sensitive, may represent an additional mechanism of action of SRIF.
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PMID:Somatostatin inhibits vasopressin-stimulated phosphoinositide hydrolysis and influx of extracellular calcium in clonal hamster beta (HIT) cells. 136 25

The neuropeptide hormone galanin, released by sympathetic stimulation of nerve terminals in the endocrine pancreas, inhibits insulin secretion via a receptor-linked pertussis toxin-sensitive (Gi) transmembrane signaling pathway. Glucagon-like peptide-I(7-37) [GLP-I(7-37)] is an intestinal hormone shown to have potent insulin-releasing activities in pancreatic B-cells and is believed to serve a physiological role in the augmentation of nutrient-induced insulin release. GLP-I(7-37) binds to specific Gs- and adenylate cyclase-coupled receptors on pancreatic B-cells and directly stimulates proinsulin gene transcription, thereby increasing cellular levels of proinsulin messenger RNA (mRNA) and proinsulin biosynthesis. This study examines the effects of galanin on GLP-I(7-37)-stimulated proinsulin gene expression in mouse beta TC1 cells. The degree of proinsulin gene transcription was assessed by measuring the activity of chloramphenicol acetyl transferase (CAT) expressed from a CAT reporter plasmid linked to the rat insulin-1 gene promoter transferred to beta TC1 cells and by measuring proinsulin mRNA levels by Northern blot analysis. Galanin inhibited both CAT activity and the rise in proinsulin mRNA levels stimulated by either GLP-I(7-37) or forskolin (0.1 microM). Notably, galanin was without effect on CAT activity induced by the cAMP analog, 8-bromo-cAMP, the phosphodiesterase inhibitor 3-isobutyl-1-methylxanthine, or higher concentrations of forskolin. The inhibitory effects of galanin on GLP-I(7-37) and forskolin-induced CAT activity were reversed by the addition of pertussis toxin, a toxin that inactivates inhibitory G-proteins (Gi). We conclude that galanin inhibits GLP-I(7-37)-stimulated proinsulin gene expression by inhibiting the activation of adenylate cyclase by GLP-I(7-37) and subsequently the production of cAMP in B-cells. Further, our data suggest that these actions of galanin are mediated by a pertussis toxin sensitive pathway involving one or more Gis that inhibit adenylate cyclase. Thus, in addition to its well known inhibitory effects on insulin secretion galanin can inhibit proinsulin gene expression stimulated by GLP-I(7-37) activation of the cAMP signaling pathway. These findings may be a unique demonstration of the inhibition of proinsulin gene expression by a substance (galanin) released endogenously within the pancreas.
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PMID:Galanin inhibits proinsulin gene expression stimulated by the insulinotropic hormone glucagon-like peptide-I(7-37) in mouse insulinoma beta TC-1 cells. 137 16

It has been proposed that mastoparan (INLKALAALAKKIL) and other mast cell secretagogues such as substance P (SP) or compound 48/80 act by direct activation of the pertussis toxin (PTX)-sensitive G-proteins in intact cells. Here we have investigated whether or not the antagonists of SP, [D-Trp7,9,10] SP1-11 and [D-Trp7,9,10, N-leu11]SP1-11, can similarly induce exocytosis from RINm5F cells. In intact cells mastoparan and the SP antagonists stimulated insulin release in a dose-dependent manner at concentrations ranging from 10 to 100 microM. The maximal effect on insulin release, of both mastoparan and the SP antagonists was comparable to that obtained with 100 microM forskolin. Pretreatment of the intact cells, for 18 h with PTX or 6 h with cholera toxin, did not change the responses induced by both mastoparan and the SP antagonists. This absence of PTX effect, despite the fact that the three PTX substrates at 41, 40 and 39 kDa were ADP ribosylated after pretreatment suggests intrinsic differences between mast and RINm5F cells. Thus the SP antagonists behave similarly to mastoparan in its ability to induce insulin release in RINm5F cells. However, the higher concentrations required with RINm5F cells compared to that needed for mast cells suggest differences either in G-proteins composition or in the phospholipid composition of the membranes.
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PMID:Insulin releasing effects of mastoparan and amphiphilic substance P receptor antagonists on RINm5F insulinoma cells. 137 73

Fully-differentiated mouse 3T3-L1 fibroblasts accumulate large amounts of lipid at 7-10 days after induction by insulin or by dexamethasone and a methyl xanthine. G proteins mediate transmembrane signalling from a diverse group of cell-surface receptors to effector units that include phospholipase C, adenylyl cyclase and ion channels. They are also targets of regulation themselves. 3T3-L1 fibroblasts display marked changes in levels of G protein when induced to differentiate to adipocytes. Here we show that cholera toxin, which ADP-ribosylates and activates the G protein subunit Gs alpha, blocks the induction of differentiation, whereas increasing intracellular cyclic AMP directly with the dibutyryl analogue or indirectly with pertussis toxin or forskolin does not affect differentiation. Oligodeoxynucleotides antisense to the sequence encoding Gs alpha accelerate differentiation markedly. The time course of adipogenesis declined from 7-10 days in controls to roughly 3 days in cultures treated with antisense-Gs alpha oligodeoxynucleotides, whereas oligodeoxynucleotides, antisense to Gi alpha 1, Gi alpha 3, and sense and missense to Gs alpha, had no such effect. Antisense-Gs alpha alone induced differentiation by day 7, indicating that Gs alpha activity modulates differentiation in 3T3-L1 cells, acting in a new role which is independent of increased intracellular cAMP.
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PMID:Antisense oligodeoxynucleotides to GS protein alpha-subunit sequence accelerate differentiation of fibroblasts to adipocytes. 137 45

Regulation of phosphate uptake by the blood-brain barrier was studied in isolated bovine capillaries. Dibutyryl cAMP, in the presence of 3-isobutylmethylxanthine, resulted in a dose-dependent inhibition of phosphate uptake. Phosphate influx, with or without 3-isobutylmethylxanthine, was not different. Inhibition of phosphate uptake was also observed when capillaries were preincubated with isoproterenol, parathyroid hormone, insulin and acidic or basic fibroblast growth factors. Treatment of capillaries with vasoactive intestinal peptide, prostaglandin E1, angiotensin II, epidermal growth factor and phorbol esters did not affect phosphate transport. Endothelin I increased phosphate uptake by 15%. Preincubation with cholera toxin also resulted in a dose-dependent decrease in phosphate uptake. In addition, pertussis toxin inhibited phosphate transport by 29%, but only in the presence of 3-isobutylmethylxanthine. These results demonstrate that generation of second messengers, following receptor stimulation, can induce physiological effects on capillary phosphate influx and suggest that G proteins may modulate this transport.
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PMID:Regulation of phosphate transport by second messengers in capillaries of the blood-brain barrier. 138 98

G-proteins are important mediators of hormonal inhibition of insulin secretion. To characterize the pertussis toxin-sensitive substrates present in HIT cell membranes, we performed immunoblots with specific antisera and found evidence for the presence of Gi alpha 1, Gi alpha 2, Gi alpha 3, and three forms of Go alpha. We observed that pertussis toxin-sensitive substrates mediate all of the effects of SRIF, and a major portion of the effects of EPI, on insulin secretion from rat islets during static incubations. These results agree with our previously reported studies examining phasic glucose-induced insulin secretion from HIT cells. To ascertain whether inhibition of adenylate cyclase, presumably involving coupling of the catalytic subunit to Gi, may be a common mechanism for both hormones, we studied the effects of 8-bromo-cyclic AMP and found that this agent partially prevented the inhibitory effects of both hormones. We also observed that the inhibitory effects of SRIF and EPI on insulin were nonadditive, that both hormones were additive to nickel chloride during inhibition of insulin release, and that they noncompetitively inhibited glipizide-induced insulin secretion through pertussis toxin-sensitive mechanisms. Together, these results suggest that both hormones exert their effects on insulin secretion at multiple G-protein-regulated sites including adenylate cyclase and sites distal to the glipizide-binding site on the KATP channel.
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PMID:G-proteins and hormonal inhibition of insulin secretion from HIT-T15 cells and isolated rat islets. 138 67

The effects of the simple phospholipids phosphatidic acid (PA) and lysophosphatidic acid (LPA) on the growth and function of Madin Darby Canine Kidney (MDCK) cells has been studied. We observed that PA and LPA not only stimulated the growth of MDCK cells (at 20 microM), but also stimulated the growth of normal rabbit kidney cells in serum free medium (albeit at a lower dosage of 5 microM). Evidence was obtained that PA interacts synergistically with insulin so as to elicit a growth stimulatory effect. Recently, extracellular PA and LPA were proposed to stimulate mitogenesis in several types of animal cells by binding to particular sites on the plasma membrane which are coupled to signaling mechanisms such as adenylate cyclase via a pertussis toxin sensitive, inhibitory guanosine triphosphate binding protein (Gi protein) (15). However, even when the pertussis toxin dosage was increased to 50 ng/ml, LPA still had a dramatic growth stimulatory effect on MDCK cells. In the absence of LPA pertussis toxin was slightly growth stimulatory to MDCK cells. Phospholipids such as PA and LPA have been observed to prevent prostaglandin-induced increases in adenylate cyclase activity in other cell types via their effects on such a pertussis toxin sensitive Gi protein. If PA and LPA act on MDCK cells in this manner, then these phospholipids may possibly prevent the effect of PGE1 on the growth of normal MDCK cells. However PGE1 was still growth stimulatory to normal MDCK cells. The effects of PA on PGE1 independent variants of MDCK cells, which have elevated intracellular cyclic AMP levels (22), were also examined. In the presence of PA, PGE1 remained growth inhibitory, rather than growth stimulatory to the PGE1 independent cells. However, the PA dosage required to elicit an optimal growth response (5 microM) was dramatically reduced, as compared with normal MDCK cells (20 microM). This altered dosage requirement could be explained by the elevated intracellular cyclic AMP levels in the PGE1 independent variants. Like PGE1 and 8-bromocyclic AMP, PA and LPA also significantly increased the initial rate of Rb+ uptake by confluent monolayers of MDCK cells. The increase in the initial rate of Rb+ uptake could be explained by an increase in the ouabain-sensitive component of Rb+ uptake. An increase in the initial rate of ouabain-insensitive Rb+ uptake was also observed in LPA treated MDCK cell cultures.
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PMID:Phospholipids regulate growth and function of MDCK cells in hormonally defined serum free medium. 142 69


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