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)

The manner in which islet-activating protein (IAP), a protein purified from the culture medium of Bordetella pertussis, interacts with the islet B-cell was studied by following the progressive development of IAP-induced reversal of alpha-adrenergic inhibition of insulin release during maintenance of islets in culture with glucose and epinephrine. This action of IAP developed in an exponential manner dependent on its concentration after a true lag period of about 1 h. The lag period was not grossly dependent on the concentration of IAP added but highly dependent on temperature of culture, and was still seen upon adding a second dose of IAP to partially stimulated cells. After 24-h culture significantly more insulin was secreted with IAP at a concentration as low as 1 pg/ml and the half-maximal effect was observed at 0.1 ng/ml. The development of IAP action occurred even in the islets that had been exposed to IAP for only 30 s, but was significantly prevented by anti-IAP serum added before the end of the lag period. IAP was effective in the presence of cycloheximide, an inhibitor of protein synthesis, or of vinblastine or cytochalasin B, microtubular-microfilamentous modifiers. It is suggested that the IAP molecule is rapidly bound to the receptor area of the islet B-cell and then is gradually inserted into the cell membrane before appearance of its action to activate native calcium ionophores. This slow interaction of IAP with the membrane may be responsible for potentiation of insulin secretory and cAMP responses of the cell to various stimuli as well as for reversal of alpha-adrenergic inhibition.
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PMID:Slow interaction of islet-activating protein with pancreatic islets during primary culture to cause reversal of alpha-adrenergic inhibition of insulin secretion. 625 47

Islet-activating protein (IAP) prepared from the culture medium of Bordetella pertussis cells was very effective in eliminating diabetic symptoms characteristic of hereditary diabetic KK mice over a long period of time. After a single injection of IAP (5 microgram/kg body wt) into KK mice, the non-fasting concentration of blood glucose was maintained nearly normal over 2 weeks, with a gradual return to the pre-IAP level 30 days later. During this period, glucose tolerance was normalized and only few animals excreted glucose in urine. The second injection of IAP to these diabetic mice caused a more prolonged restoration of normoglycemia. When KK mice had been injected with IAP, they responded to epinephrine and isoproterenol more readily than did ddY mice in increasing plasma insulin and glycerol.
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PMID:Improvement of diabetic symptoms of hereditary diabetic (KK) mice by a single injection with islet-activating protein (IAP). 625 80

The subunit structure of islet-activating protein (IAP), pertussis toxin, has been analyzed to study a possibility that this protein is one of the A-B toxins [Gill, D. M. (1978) in Bacterial Toxins and Cell Membranes (Jeljaszewicz, J., & Wadstrom, T., Eds.) pp 291-332, Academic Press, New York]. Heating IAP with 1% sodium dodecyl sulfate caused its dissociation into five dissimilar subunits named S-1 (with a molecular weight of 28 000), S-2 (23 000), S-3 (22 000), S-4 (11 700), and S-5 (9300), as revealed by polyacrylamide gel electrophoresis; their molar ratio in the native IAP was 1:1:1:2:1. The molecular weight of IAP estimated by equilibrium ultracentrifugation was 117 000 which was not at variance with the value obtained by summing up molecular weights of the constituent subunits. The preparative separation of these IAP subunits was next undertaken; exposure of IAP to 5 M ice-cold urea for 4 days followed by column chromatography with carboxymethyl-Sepharose caused sharp separation of S-1 and S-5, leaving the other subunits as two dimers. These dimers were then dissociated into their constituent subunits, i.e., S-2 and S-4 for one dimer and S-3 and S-4 for the other, after 16-h exposure to 8 M urea; these subunits were obtained individually upon further chromatography on a diethylaminoethyl-Sepharose column. Subunits other than S-1 were adsorbed as a pentamer by a column using haptoglobin as an affinity adsorbent. The same pentamer was obtained by adding S-5 to the mixture of two dimers. Neither this pentamer nor other oligomers (or protomers) exhibited biological activity in vivo. Recombination of S-1 with the pentamer at the 1:1 molar ratio yielded a hexamer which was identical with the native IAP in electrophoretic mobility and biological activity to enhance glucose-induced insulin secretion when injected into rats. In the broken-cell preparation, S-1 was biologically as effective as the native IAP; both catalyzed ADP-ribosylation of a protein in membrane preparations from rat C6 glioma cells. In conclusion, IAP is an oligomeric protein consisting of an A (active) protomer (the biggest subunit) and a B (binding) oligomer which is produced by connecting two dimers by the smallest subunit in a noncovalent manner. Rationale for this terminology is discussed based on the A-B model.
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PMID:Subunit structure of islet-activating protein, pertussis toxin, in conformity with the A-B model. 629 44

Islet-Activating Protein, purified from the culture medium of Bordetella pertussis, enhanced glucose-induced insulin secretion from cultured neonatal rat islets in a calcium dependent manner. This effect was accompanied by an increase in lipid associated Ca2+ ionophoretic activity, as measured by passage of Ca2+ through multilamellar planar membranes containing islet lipid extracts. These findings suggest that the action of IAP in the neonatal islet may be mediated by enhanced entry of extracellular calcium following an effect on membrane lipid composition.
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PMID:Enhanced glucose-induced insulin release and endogenous Ca2+ ionophoretic activity in neonatal rat islets following islet-activating protein. 634 18

Islet-activating protein (IAP), pertussis toxin, is an oligomeric protein (Tamura, M., Nogimori, K., Murai, S., Yajima, M., Ito, K., Katada, T., Ui, M., and Ishii, S. (1982) Biochemistry 21, 5516-5522), the biggest subunit (Mr = 28,000, referred to as the A-protomer) of which catalyzes transfer of the ADP-ribose moiety of NAD to the membrane Mr = 41,000 protein. The pentamer, termed the B-oligomer, consisting of the residual subunits was the moiety of IAP that was responsible for binding to the cell surface, as revealed by competitive inhibition of the development of the IAP actions on intact rat C6 glioma cells and rat adipocytes. The binding of the B-oligomer to its receptor proteins was divalent via the constituent two dimers; it stimulated mitosis of lymphocytes and caused an insulin-like action to enhance glucose oxidation in adipocytes, just as did concanavalin A, presumably as a result of cross-linking or aggregation of the membrane proteins. The A-promoter displayed its biological action on adipocytes only when the B-oligomer had been bound to the cells. Thus, IAP is a typical A-B toxin in which the B-oligomer is first bound to the cell surface proteins to enable the A-protomer to reach to the site of its action within the cell. Diverse biological actions of pertussis toxin may be accounted for by the mitogenic action of the B-oligomer as well as ADP-ribosyltransferase activity of the A-promoter.
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PMID:A role of the B-oligomer moiety of islet-activating protein, pertussis toxin, in development of the biological effects on intact cells. 634 81

Administration of pertussis vaccine, consisting of whole, killed Bordetella pertussis organisms, causes hyperinsulinemia and enhanced secretion of insulin in response to a variety of secretagogues in rats and mice. In examining the time course and properties of this phenomenon, we discovered two distinct and separate effects of the bacteria on glucose and insulin levels in mice. First, a heat-stable (80 degrees C for 30 min) component causes a brief hyperinsulinemia which is +measureable by 1 h, maximal at 8 h, and ends in less than 48 h. This effect appears to be due to B. pertussis endotoxin, is mimicked by Escherichia coli endotoxin, and is associated with a transient, mild hypoglycemia. Second, there is a heat-labile component of the B. pertussis organism which induces a sustained (greater than 14 days), dose-dependent hyperinsulinemia which reaches a maximum at 5 to 7 days and has no associated hypoglycemia. The two effects are further distinguishable in that the early, endotoxin-induced hyperinsulinemia exhibits the normal suppressibility by exogenous epinephrine, whereas epinephrine markedly enhances the hyperinsulinemia occurring at 7 days. These two effects of B. pertussis appear to be mediated by different mechanisms and may be important in the well-recognized reactogenicity of pertussis vaccine in humans.
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PMID:Biphasic effect of pertussis vaccine on serum insulin in mice. 634 88

The protein toxin present in Bordetella pertussis vaccine blocks the inhibition of adenylate cyclase by prostaglandins and adenosine which may be secondary to ADP-ribosylation of an inhibitory guanine nucleotide-binding protein. The stimulatory effects of alpha 1-catecholamine agonists on 32P uptake into phosphatidic acid and phosphatidylinositol in isolated rat adipocytes were virtually abolished by pertussis toxin treatment. In contrast, the stimulatory effects of insulin were increased in adipocytes after pertussis toxin treatment. Pertussis toxin treatment did not alter insulin stimulation of glucose oxidation and actually increased glucose conversion to lipid. Basal lipolysis was elevated in adipocytes by pertussis toxin treatment but not basal cyclic AMP. However, the increases in cyclic AMP and lipolysis due to low concentrations of catecholamines and forskolin were markedly potentiated by pertussis toxin treatment. The inhibitory effects of adenosine on cyclic AMP stimulation due to catecholamines were abolished by pertussis toxin. These data indicate that pertussis toxin selectively interferes with inhibition of cyclic AMP accumulation in rat adipocytes by adenosine, potentiates the increases in cyclic AMP due to catecholamines, increases the stimulatory effects of insulin on adipocyte metabolism, and interferes with alpha 1-catecholamine stimulation of phosphatidylinositol turnover.
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PMID:Effects of pertussis toxin treatment on the metabolism of rat adipocytes. 635 Feb 97

Islet-activating protein (IAP) is one of the pertussis toxins. The ability of IAP to cause potentiation of insulin secretory responses and promotion of leukocytosis was studied in six animal species (hamsters, rats, guinea pigs, rabbits, dogs and monkeys). The action of IAP on insulin secretion in the animals was estimated by three kinds of tests: effects on epinephrine hyperglycemia, plasma insulin and blood glucose concentrations following the injection of stimuli, and glucose tolerance. Of all animals tested, IAP was most effective in hamsters. Marked hyperinsulinemia was also shown in IAP-treated dogs, rats and monkeys in response to insulin secretagogues, but their sensitivity to IAP was inferior to that of hamsters. In rabbits, IAP was markedly toxic, and the effect on insulin secretion was observed only slightly at a dose close to its minimal lethal dose. In addition, no significant effects of IAP were shown in guinea pigs in the present experiment. On the other hand, leukocytosis promoting activity of IAP appeared in a dose-dependent manner in all animal species; rabbits were the most sensitive to IAP in this regard. It is concluded that both actions of IAP appear differently in different animal species, and the species difference of the effect on insulin secretory responses is in agreement with that on histamine sensitizing activity.
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PMID:Species differences in actions of islet-activating protein, pertussis toxin. 635 19

The effects of islet-activating protein (IAP), a Bordetella pertussis toxin, on insulin- and isoprenaline-stimulated glucose transport were studied in isolated rat adipocytes. Basal as well as insulin-stimulated glucose transport were not affected when cells were pretreated with IAP. In contrast, IAP pretreatment abolished the stimulatory effect of isoprenaline. When IAP-pretreated cells were exposed to a combination of insulin and isoprenaline, the catecholamine significantly reduced the stimulatory effect of insulin. Since IAP is supposed to specifically block the inhibitory component Ni of adenylate cyclase, the results suggest that: (a) the effect of insulin is unrelated to the regulation of adenylate cyclase; (b) isoprenaline may exert both stimulatory and inhibitory effects depending on activation of Ni. The inhibitory regulation of adenylate cyclase may thus be a pivotal link in the regulation of glucose transport.
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PMID:Effects of islet-activating protein on insulin- and isoprenaline-stimulated glucose transport in isolated rat adipocytes. 636 89

Islet-activating protein (IAP) is a substance purified from the culture medium of Bordetella pertussis, and its main action is characterized by the enhancement of secretory response to glucose and other stimuli in pancreatic islet. In this experiment, the effect of IAP on epinephrine-induced secretion of immunoreactive insulin (IRI) and glucagon (IRG) was investigated in normal dogs. Epinephrine suppressed IRI secretion and it had a little increment to IRG secretion in control group, while IRI and IRG secretions were significantly increased by epinephrine in IAP pretreated group. Using beta-blocker (Propranolol) with epinephrine, these increments of IRI and IRG secretions in IAP pretreated group were abolished. However, using alpha-blocker (Phentolamine) with epinephrine, these secretions of IRI and IRG in IAP pretreated group were much more increased than epinephrine alone induced secretions. Blood glucose levels were lower in IAP pretreated group than in control group throughout the loading tests in all of the experiments. These findings suggest that (1) IAP decreases blood glucose level and (2) IAP enhances epinephrine-induced secretion of insulin and glucagon by acceleration of beta-adrenergic effect and by reduction of alpha-adrenergic suppression in dogs.
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PMID:Islet-activating protein (IAP)-induced adrenergic modulation of pancreatic A and B cell in dogs. 637 Aug 19

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