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)

Treatment of rats with Bordetella pertussis vaccine significantly lowered the blood sugar level 4 days later but the vaccine did not alter the level in diabetic rats. The vaccine, like insulin, raised glycogen levels in liver, skeletal muscle and heart and reduced the plasma free fatty acid concentration. The action of a beta-adrenoceptor blocker was potentiated by the vaccine but not by insulin. Part of the hypoglycaemic action of the vaccine is probably due to beta-adrenoceptor blockade.
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PMID:The insulin-like action of Bordetella pertussis vaccine in rats. 2 97

The subunit structure was studied of islets-activating protein (IAP), a new protein recently isolated from the culture media of Bordetella pertussis and possessing a unique action, i.e., potentiating insulin secretory responses of animals, IAP dissociated into three subunits, F-1, F-2, and F-3, when incubated in 8M urea. Three subunits isolated by chromatography on CM-Sepharose and DEAE-Sepharose columns showed different molecular weights (F-1: 44,000, F-2: 20,000, F-3: 11,000) and different isoelectric points, but similar amino acid compositions. The F-1 subunit consisted of two polypeptide chains linked by S-S bonding(s), while the F-2 and F-3 subunits were single-chain peptides. These subunits, none of which was biologically active alone, associated upon incubation for 2 h at 37 degrees C and regained biological activities after association only when the F-3 subunit was present in the association product. Thus, the F-3 subunit was essential, and the F-1 and F-2 subunits were permissive, for the development of IAP activity in animals.
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PMID:Subunit structure of islets-activating protein (IAP), a new protein isolated from the culture media of Bordetella pertussis. 2 92

Bordetella pertussis organisms induce histamine sensitivity and diminish the normal hyperglycemic response to epinephrine in experimental animals. These effects have been attributed to beta-adrenergic blockade. However, under conditions in which the decrease in epinephrine-induced hyperglycemia after B. pertussis administration was demonstrable, there was no change in rat reticulocyte beta-adrenergic receptor number or affinity measured by iodohydroxybenzylpindolol binding or in isoproterenol-stimulated adenylate cyclase activity. Therefore, there was no generalized beta-adrenergic blockade induced by B. pertussis. The observed effects can be explained by the hypersecretion of insulin resulting from B. pertussis administration.
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PMID:Bordetella pertussis does not induce beta-adrenergic blockade. 3 38

The use of a quinea-pig model to study the immunogenicity of the insulin molecule is presented. The Hartley guinea-pig has been shown consistently to form antibody to ox insulin, when given in a water-in-oil emulsion containing pertussis vaccine as adjuvant. After log transformation of standardized antibody titres to iodo-ox insulin, a valid statistical comparison of the antibody response to different ox insulin preparations could be made. Antibody cross-reacting with ox insulin, but not iodo-ox insulin, was also detected. The quantity of one type of antibody was complementary to the other, an observation compatible with determinant competition having occurred during the immune response. From the results of cross-reactivity experiments using N-triacylated ox insulins and human insulin, it was shown that antibody cross-reacting with iodo-ox insulin had most probably been produced to a localized area of the molecule.
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PMID:Aspects of the secondary antibody response to ox insulin in the Hartley guinea-pig; the use of chemically modified ox insulin to delineate the antigenic determinants of ox insulin. 5 48

Subgroups of female Hartley guinea-pigs were immunized with N-carbamylated ox insulin, N-maleylated ox insulin, N-phthaloylated ox insulin, or with the crystalline ox insulin from which the N-acylated insulins had been prepared. The immunogens were administered in water-in-oil emulsions containing pertussis vaccine as adjuvant. Sera obtained 20 days after secondary immunization were assayed for their antibody titres to iodo-ox insulin and their insulin-binding capacities. The data were log transformed for statistical comparison. N-carbamylated ox insulin seemed to be as immunogenic as crystalline ox insulin and no specific carbamyl hapten antibody could be found. N-maleylated and N-phthaloylated ox insulins yelded significantly less antibody cross-reactingwith iodo-ox insulin, but produced a complementary quantity of specific maleyl and phthaloyl hapten antibody respectively. Thus it was shown that in the system used the immune response was partitioned between different determinants, ox insulin and its N-acylated derivatives being equipotent immunogens.
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PMID:Determinant competition during the immune response to N-acyl derivatives of ox insulin in the Hartley guinea-pig. 5 52

Female Hartley guinea-pigs were immunized with N-phthaloylated ox insulin (96% NA1,NB1,NB29-triphthaloyl ox insulin) using H. pertussis as adjuvant. Haptenic antibody, which was found in antisera taken 20 days after secondary immunization, was assessed for cross-reaction with a series of N-acylated ox insulins. Cross-reaction readily occurred between haptenic antibody and the partial hapten-bearing antigens, NA1-monophthaloyl and NB1-monophthaloyl ox insulins. The immunochemical data suggested that the NA1-glycyl hapten and the NB1-phenylalanyl hapten were both acting as immune determinants for B-lymphocytes, and the determinant competition was taking place between contralateral facets of the principal immunogen, NA1,NB1,NB29-triphthaloyl ox insulin. The data was also consistent with the view that the overall tertiary structure of N-acylated insulins may be very similar to that of their native insulin, the addition of hapten groups having produced only localized areas of structural perturbation.
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PMID:Haptenic antibody induced by N-phthaloylated ox insulin in the Hartley guinea-pig. 7 50

Insulins of differing species, together with chemically modified insulins, were used in cross-reactivity experiments employing selected antisera raised to ox insulin in the Harley guinea-pig. The immunogen had been administered as a water-in-oil emulsion, using H. pertussis vaccine as adjuvant. Antibody was generated by determinants in the C-terminus of the B chain plus the adjacent N-terminus of the A chain, in the central core of the A chain (A8-A14 region) and in its anti-parallel N-terminus of the B chain. From this antibody pool chemically modified ox insulin selected antibody to unaltered determinants. The immunochemical data were compatible with monomeric ox insulin being immunogenic, the immunogen perhaps being recognized by the immune system in the form of the Molecule-II rather than the Molecule-I of the dimer pair (as originally suggested by X-ray crystallographic data).
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PMID:Alteration in the immunochemical dominance of determinants following the chemical modification of ox insulins: implications for the structure of the ox insulin monomer in solution. 9 26

1. Epinephrine-induced hyperglycemia was attenuated by the treatment of rats with pertussis vaccine, but this attenuation was abolished when endogenous insulin was suppressed by streptozotocin or anti-insulin serum. It was concluded that epinephrine-induced hyperglycemia was counterbalanced by the hypoglycemic action of insulin, the secretion of which was markedly potentiated in pertussis-sensitized rats. 2. Without epinephrine, no hypoglycemia developed in pertussis-sensitized rats despite the higher blood level of insulin. Tracer experiments with [14C,3H] glucose or [14C]bicarbaonate showed that, in pertussis-sensitized rats, more glucose was liberated into the blood from hepatic gluconeogenesis at the expense of hepatic glycogenesis, thereby accelerating the turnover of blood glucose. 3. Since this activation of hepatic glucose production was reduced by propranolol, a beta-adrenergic blocking agent, it is very likely that adrenergic beta-stimulation is, at least partly, responsible for the metabolic alterations observed in pertussis-sensitized rats.
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PMID:Accelerated turnover of blood glucose in pertussis-sensitized rats due to combined actions of endogenous insulin and adrenergic beta-stimulation. 12 60

In order to study the mechanism by which pertussis-sensitized rats showed enhanced insulin secretory responses to various secretagogues (Sumi, T., and M. Ui, Endocrinology 97: 352, 1975), pancreases of rats receiving a single injection of Bordetella pertussis cells 3 days before were perfused with Krebs-Ringer solution, and release of insulin therefrom was compared with that from the pancreases of normal rats. Much more insulin was released from the pancreas of the pertussis-sensitized rat than from the pancreas of the normal rat in response to glucose, arginine, glibenclamide and 3-isobuty-l-methylxanthine. The inhibition of insulin secretion caused by epinephrine, norepinephrine or phenylephrine via alpha-adrenergic receptors in the pancreas of normal rats was no longer observable with the pancreas from pertussis-sensitized rats. Instead, the addition of epinephrine with or without phentolamine gave rise to a marked secretion of insulin from the pancreas of pertussis-sensitized rats which was prevented by propranolol. It is concluded that a single injection of B. pertussis into rats results in a sustained modification of insulin secretory processes in the pancreatic beta-cells in such a manner as to favor insulin secretory responses to beta-adrenergic stimulation and other secretagogues.
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PMID:Perfusion of the pancreas isolated from pertussis-sensitized rats: potentiation of insulin secretory responses due to beta-adrenergic stimulation. 19 99

The biological activities were studied of a new protein, islets-activating protein (IAP), purified from the culture medium of Bordetella pertussis. Rats injected intravenously with 1 microgram of purified IAP exhibited markedly enhanced insulin secretory responses to glucose, glucagon, epinephrine, and sulfonylureas over a period from 3 to 10 days after the injection. The degree and duration of the enhancement were proportional to the dose of IAP; the maximal effect induced by 1-2 microgram of IAP persisted for as long as 2 months. There was a highly significant correlation between the enhancement of insulin secretion and suppression of epinephrine hyperglycemia over a wide range of doses of IAP, indicating that suppression of epinephrine hyperglycemia resulted from hypoglycemic action of insulin secreted in response to epinephrine challenge. Additional actions of IAP were observed in mice; mice treated with higher doses of IAP showed symptoms were observed when lower doses of IAP were injected into mice. Thus, it is concluded that IAP is a protein primarily possessing a unique action to potentiate insulin secretory responses of experimental animals to nutritional and hormonal stimuli.
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PMID:Biological properties of islets-activating protein (IAP) purified from the culture medium of Bordetella pertussis. 20 75


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