UMLS:C0043167 - FACTA Search

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Query: UMLS:C0043167 (pertussis)
19,595 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We screened a HIT (hamster insulin-secreting tumor) cell cDNA library constructed in lambda gt11 with a Go-specific oligonucleotide probe and isolated six recombinant phages. The inserts of these phages encoded two forms of alpha o, called here alpha o1 and alpha o2. The deduced amino acid sequence of alpha o1 is identical in all of its 354 amino acids to that reported previously for rat and bovine alpha o; that of alpha o2, also of 354 amino acids, is identical to alpha o1 up to and including amino acid 248 and differs thereafter in 26 amino acids. At the nucleotide level, alpha o1 and alpha o2 are identical up to and including the second base of the codon that specifies amino acid 243 and differs thereafter in 88 nucleotides of the remaining open reading frame and has no similarity to alpha o1 in its 3'-untranslated region. We propose that alpha o1 and alpha o2 result as a consequence of alternative splicing of a single alpha o transcript. Northern analysis with specifically designed oligonucleotides indicates that both forms of alpha o are expressed in normal tissues, e.g. brain. After in vitro transcription and translation, the peptides encoded in the alpha o1 and alpha o2 cDNAs could be ADP-ribosylated by pertussis toxin in the presence of added beta gamma dimers. The count of distinct G proteins keeps increasing.
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PMID:Molecular cloning of a novel splice variant of the alpha subunit of the mammalian Go protein. 211 31

Tumor metastasis requires highly motile cells that can respond to appropriate stimuli. A2058 human melanoma cells were shown previously to secrete a highly potent autocrine motility factor (AMF) that stimulates chemokinetic movement. We have shown that the insulin polypeptides (IPs; insulin-like growth factors I and II [IGF-I, -II] and insulin) stimulated A2058 cell chemotaxis and chemokinesis. We now report that the IPs and AMF stimulate locomotion in other human malignant cell lines. Insulin (100 nM) induced motility of up to 50% of the magnitude of the AMF response in human carcinoma lines MDA-231 (breast), T24 (bladder), and OVCAR3 (ovarian). The tumorigenic and metastatic 5R Haras-transfected rat embryo fibroblast cell line responded to insulin with both chemotaxis and chemokinesis and was 100% of that seen for AMF. The ED50 for IGF-I in the carcinoma cell lines was in the order of I nM, but the magnitude of the responses at this concentration was 40% of the AMF-stimulated response, with the exception of the A2058 cells, which were maximally stimulated at I nM. IGF-II induced maximal motility of 75 to 130% of the AMF-stimulated response in the carcinoma lines with ED50 of less than or equal to 10 nM. IGF-II-stimulated motility in the carcinoma lines was predominantly chemotactic by modified checkerboard analysis. Cell pretreatment with pertussis toxin inhibited 90-100% of AMF-induced motility, whereas migration to the IPs was not pertussis toxinsusceptible. In growth studies, IGF-I induced mitogenesis up to 140% of basal media control growth. In general, maximal growth stimulation was seen at 100 nM IGF-I, and optimal migration was seen at 10 nM IGF-I. The IGFs are secreted by normal stroma in a number of organs that are common sites for primary and metastatic disease. Therefore, we suggest that IPs may be important homing and mitogenic signals for tumor cells in the process of invasion and metastasis and that the differential motility stimulation and respective mechanisms of action by these physiologically important agents may underlie the diversity of the metastatic process.
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PMID:Heterogeneity of the motility responses in malignant tumor cells: a biological basis for the diversity and homing of metastatic cells. 211 98

In this study, we examined the effects of pertussis toxin (PT) on the ADP-ribosylation of guanine nucleotide binding proteins (G-proteins) and various insulin-stimulated processes in cultured BC3H-1 myocytes. Treatment of intact myocytes with 0.1 microgram/ml PT for 24 hours resulted in the complete ribosylation of a 41 kDa protein. The 41 kDa PT substrate was immunoprecipitated with antibodies directed against a synthetic peptide corresponding to a unique sequence in the alpha subunit of Gi-proteins. PT treatment of intact cells had no effect on insulin receptor binding or internalization. However, PT inhibited insulin-stimulated glucose transport at all insulin-concentrations tested (1-100 ng/ml). Maximally stimulated glucose transport was reduced by 50% +/- 15%. Insulin-stimulated glucose oxidation was also decreased by 31% +/- 8%. The toxin had no significant effect on the basal rates of glucose transport and glucose oxidation. The time course of PT-induced inhibition on glucose transport correlated with the time course of the "in vivo" ADP-ribosylation of the 41 kDa protein. The results suggest that a 41 kDa PT-sensitive G-protein, identical or very similar to Gi, is involved in the regulation of glucose metabolism by insulin in BC3H-1 cells.
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PMID:Pertussis toxin catalyzed ADP-ribosylation of a 41 kDa G-protein impairs insulin-stimulated glucose metabolism in BC3H-1 myocytes. 211 47

The findings reported herein indicate that insulin rapidly perturbs phospholipid metabolism and consequent intracellular signalling, in its target tissues by two fully separable mechanisms. One of these mechanisms involves a pertussis toxin-sensitive Gi alpha, which probably serves to couple the insulin receptor to a PI-glycan phospholipase C, which, in turn, leads to the release of HGM and consequent activation of de novo PA synthesis. The second mechanism is PC hydrolysis, which is pertussis toxin-insensitive. Both mechanisms serve as important sources of DAG during insulin action, and PKC appears to be activated by DAG derived from both pathways. Although DAG may be derived from each of these signalling pathways, it is clear that PI-glycan HGM will only be derived from pertussis toxin-sensitive PI-glycan hydrolysis. These findings may help to explain why some, but not all, insulin effects are inhibited by pertussis toxin and are therefore apparently dependent upon Gi alpha. Whether or not other G-proteins are important in other phospholipid signalling pathways during insulin action, e.g., PC hydrolysis, remains to be determined.
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PMID:Pertussis toxin-sensitive and -insensitive mechanisms for diacylglycerol-protein kinase C signalling during insulin action in BC3H-1 myocytes. 213 31

Adipose precursor cells from male rats were exposed in primary culture to testosterone (T) or dihydrotestosterone (DHT), and their effects on the regulation of lipolysis were studied. T, but not DHT, stimulated catecholamine-induced lipolysis in a dose-dependent manner, including physiological concentrations. The effect was equally pronounced with isoproterenol (a pure beta-adrenergic agonist) and norepinephrine (a mixed alpha 2- and beta-adrenergic agonist). The higher lipolytic capacity of catecholamines on T-treated cells was paralleled by a similar increase in the number of beta-adrenoceptors in the cells, without a change in the receptor affinity, suggesting that T induced new synthesis or externalization of beta-adrenoceptors. Both T and DHT stimulated forskolin-induced lipolysis, suggesting an androgen effect at the level of the catalytic subunit of adenylate cyclase. The pertussis toxin-stimulated lipolysis was not influenced by the presence of androgens in the culture medium, and no effect was seen on the antilipolytic effect of insulin. These effects did not disappear in the presence of an aromatase inhibitor, suggesting that the T effects were not mediated by conversion to estrogens. These cells showed specific saturable binding for androgens, with a Kd in the range of androgen concentrations shown to be active. In conclusion, androgens enhance the lipolytic capacity of these cells by increasing the apparent number of beta-adrenoceptors (T only) and the activity of adenylate cyclase (both T and DHT). These changes are not mediated by conversion to estrogens. These effects probably occur via binding to specific androgen receptors.
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PMID:The effects of androgens on the regulation of lipolysis in adipose precursor cells. 215 23

Recent data have shown that pretreatment of bovine adrenal fasciculata cells with insulin-like growth factor I (IGF-I) or insulin enhances the steroidogenic response to angiotensin II (A-II). In the present work we have studied the effects of both peptides on the first steps of the mechanism of action of A-II and on the amounts of pertussis toxin (PT)-sensitive guanine nucleotide binding proteins (Gi proteins). Both peptides increased A-II-induced phosphoinositide breakdown without modification of either A-II-induced Ca2+ uptake or the A-II-potentiating effect on ACTH-induced cAMP production. The effects of IGF-I at a nanomolar concentration were higher than those induced by insulin at a micromolar concentration, which in turn was higher than those induced by a nanomolar concentration of this peptide. Treatment of cells with pertussis toxin (0.5 microgram/ml) for 24 h reduced by 25% of the A-II-induced phosphoinositide breakdown in control cells and 32% and 28% in cells pretreated with insulin at nanomolar and micromolar concentrations, respectively, but had no significant effect in cells pretreated with IGF-I. No effect of pertussis toxin was observed on A-II-induced Ca2+ uptake or on its potentiating action on ACTH-induced cAMP production. Moreover, both IGF-I and insulin enhanced the amounts of Gi protein(s) evaluated by pertussis toxin ADP-ribosylation or immunoblotting. Again, the effects of insulin at nanomolar concentrations were lower than those induced by the same concentrations of IGF-I or insulin at micromolar concentrations. These results suggest that, in bovine adrenal fasciculata cells, A-II receptors are coupled to the phosphoinositide pathway through pertussis toxin sensitive and insensitive Gp protein(s). Moreover, the findings also indicate that the enhanced A-II responsiveness of IGF-I or insulin treated cells is in part mediated through an increase in the amount of G protein(s).
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PMID:Stimulatory effect of insulin and insulin-like growth factor I on Gi proteins and angiotensin-II-induced phosphoinositide breakdown in cultured bovine adrenal cells. 215 69

Pretreatment of the osteogenic sarcoma cell line UMR-106-01 with insulin results in sensitization to both parathyroid hormone (PTH) and isoproterenol. In insulin-pretreated cells, the two hormones cause a significantly greater cyclic AMP (cAMP) accumulation than in noninsulin-treated cells. In the presence of cholera toxin, which enhances cAMP production by these cells in both the basal and PTH-stimulated state, the effect of insulin is maintained. In the presence of pertussis toxin, which has no effect on basal cAMP accumulation but enhances both PTH and isoproterenol stimulation, insulin sensitization for both hormones is abolished. These data suggest that insulin sensitizes these cells to subsequent hormone stimulation by lessening the action of an inhibitory guanine nucleotide regulatory protein, possibly Gi.
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PMID:Insulin sensitizes a cultured rat osteogenic sarcoma cell line to hormones which activate adenylate cyclase. 216 43

In order to evaluate the role of phosphoinositide turnover in growth factor action, we expressed human M1 muscarinic acetylcholine (Hm1) receptors in Chinese hamster lung fibroblasts (CCL39 cell line). In the transfected cells (39M1-81 clone), but not in wild type fibroblasts, the muscarinic agonist carbachol induced a release of inositol phosphates as strong as alpha-thrombin, a very potent growth factor and activator of phosphoinositide-specific phospholipase C (PLC) in this cell system. In contrast to thrombin, carbachol-stimulated PLC activity was not inhibited by pertussis toxin treatment of cells. At concentrations that elicited a comparable initial rate of inositol phosphate release (10 nM for thrombin and 0.1 mM for carbachol), both agents gave rise to an identical calcium signal and equally stimulated Na+/H+ exchange and the transcription of the early genes c-jun, c-fos, and c-myc. Surprisingly, however, carbachol is not a mitogen for 39M1-81 cells, and even if tested in association with insulin or fibroblast growth factor, its effects on cell proliferation remained weak when compared with thrombin. Also, the muscarinic agonist did not stimulate soft agar colony forming capacity and did not prevent growth arrest in Go upon serum deprivation of cycling 39M1-81 cells. The failure of carbachol to induce cell proliferation could not be attributed to rapid and complete desensitization of Hm1 receptors nor to the activation of inhibitory pathways like adenylyl cyclase stimulation. We conclude that strong and persistent activation of phosphoinositide turnover elicits early biochemical events generally associated with mitogenesis, but is not sufficient to stimulate or maintain continuous cell proliferation. On the basis of our results, we postulate that thrombin mitogenesis depends critically on signaling events different from phosphoinositide turnover, possibly the stimulation of a receptor tyrosine kinase or a Gi protein-activated tyrosine kinase.
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PMID:Strong and persistent activation of inositol lipid breakdown induces early mitogenic events but not Go to S phase progression in hamster fibroblasts. Comparison of thrombin and carbachol action in cells expressing M1 muscarinic acetylcholine receptors. 217 13

Isolated muscle cells from adult rat heart were used to study the involvement of G-proteins in the regulation of the glucose transporter by insulin and isoprenaline. Efficient modification of G-protein functions was established by measuring isoprenaline-stimulated cyclic AMP production, viability and ATP content after treating the cells with cholera toxin and pertussis toxin for 2 h. Under these conditions cholera toxin decreased the stimulatory action of insulin on 3-O-methylglucose transport by 56%, but pertussis toxin had no effect. Basal transport was not affected by toxin treatment. Isoprenaline increased 3-O-methylglucose transport by 63%. This effect was not mimicked by dibutyryl cyclic AMP, but was completely blocked by cholera toxin. Streptozotocin-diabetes abolished isoprenaline action and decreased stimulation of transport by 64%. Concomitantly, cholera-toxin sensitivity of glucose transport was lost in cells from diabetic animals. This was paralleled by a large decrease (87 +/- 4%) in mRNA expression of the insulin-regulatable glucose transporter, as shown by Northern-blot analysis of RNA isolated from cardiomyocytes of diabetic rats. These data suggest a functional association between the insulin-responsive glucose transporter and a cholera-toxin-sensitive G-protein mediating stimulation by insulin and isoprenaline.
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PMID:G-protein-mediated regulation of the insulin-responsive glucose transporter in isolated cardiac myocytes. 217 73

The cellular mechanism by which the angiotensin II (AII) agonist, Sar1-AII, inhibits production and release of angiotensinogen in human hepatoma HepG2 cells was examined. Pretreatment of HepG2 cells with pertussis toxin attenuated the ability of Sar1-AII to block angiotensinogen production. This effect could be correlated with the in situ ADP-ribosylation of a protein(s) of apparent molecular weight 39,000-41,000 on SDS-PAGE, and attenuation of the ability of Sar1-AII to inhibit cAMP accumulation. The role of cAMP in angiotensinogen production was examined. A transient increase in cAMP accumulation above basal could be evoked by forskolin (8-fold) or by glucagon (5-fold) using insulin-deficient media. Although neither forskolin nor glucagon had a significant effect on angiotensinogen production agents producing a sustained increase in intracellular cAMP (8-bromo-cAMP, dibutyryl-cAMP, cholera toxin) were able to increase angiotensinogen production. Although these data indicate that intracellular cAMP is a regulatory factor in angiotensinogen production other evidence suggests that modulation of intracellular cAMP is not entirely responsible for the effects of Sar1-AII.
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PMID:Involvement of a pertussis toxin-sensitive G protein in the regulation of angiotensinogen production by an angiotensin II analog in HepG2 cells. 217 1

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