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)

A mouse model for encephalopathy induced by pertussis immunization has been described; it has features that closely resemble some of the severe reactions, including seizures and a shock-like state leading to death, occasionally seen after administration of Bordetella pertussis (whooping cough) vaccine. Susceptibility to encephalopathy maps to genes of the major histocompatibility complex and correlates as well with the genetic regulation of the level of antibody response to bovine serum albumin. In this study we have investigated which bacterial determinant is responsible for the encephalopathy. Two lines of evidence implicate pertussis toxin as the active bacterial component. Single-site mutants of B. pertussis with single affected virulence factors were tested. A mutant that produces a defective pertussis toxin had greatly diminished capacity to induce encephalopathy, whereas a hemolysin- and adenylate-cyclase-deficient avirulent mutant had the same activity in the mouse model as a virulent strain. Purified pertussis toxin plus bovine serum albumin was tested and found to induce the lethal encephalopathy, demonstrating that the toxin was the critical constituent of B. pertussis responsible for encephalopathy.
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PMID:Pertussis toxin is required for pertussis vaccine encephalopathy. 286 45

A mouse model for pertussis immunization encephalopathy has been described with features that closely resemble the severe adverse reactions occasionally seen after pertussis vaccine administration,m including seizures and a shock-like state leading to death. These reactions are produced with nearly one hundred percent efficiency provided that the mice immunized with Bordetella pertussis have 1) the appropriate major histocompatibility (H-2) genotype, 2) have been sensitized to bovine serum albumin (BSA), and 3) that the injected B. pertussis contained sufficient amounts of pertussis toxin. Antibody titres were measured in mice with haplotypes H-2d.s.k. that are highly susceptible to encephalopathy as well as in H-2b mice, that are totally resistant. Mice with H-2d.s.k. haplotypes were high responders to BSA, while H-2b (B10) mice were non-responders to BSA. Both H-2d and H-2b mice responded well to B. pertussis. Encephalopathy was induced in resistant H-2b mice with B. pertussis and passively administered anti-BSA antiserum, but not with B. pertussis and anti-(T,G)-A--L antibody. This indicated that B. pertussis and anti-BSA were absolutely required for development of encephalopathy. Encephalopathy could be induced in mice decomplemented with cobra venom factor and given BSA and B. pertussis. Several single-site mutants of B. pertussis affecting single virulence factors were induced with transposon Tn5. One of these mutants, BP357, deficient in pertussis toxin production, had a greatly reduced encephalopathic potential in the mouse model compared to the virulent strain BP 338, or to BP348, an adenylate cyclase and hemolysin double mutant, or to BP 349, a hemolysin mutant.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Murine model for pertussis vaccine encephalopathy: role of the major histocompatibility complex; antibody to albumin and to Bordetella pertussis and pertussis toxin. 287 26

We studied mortality after pertussis immunization in the mouse. Without treatment, 73 of 92 animals (80%) died after injection of bovine serum albumin (BSA) on day +7 of pertussis immunization. After pretreatment with 3 mg of cyproheptadine, 2 mg mianserin, or 2 mg chlorpheniramine, only 5 of 105 animals (5%) died after receiving BSA on day +7 (p less than 0.001). Blockade of histamine H1 receptors may reduce mortality in pertussis immunization-induced encephalopathy in mice.
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PMID:Treatment of lethal pertussis vaccine reaction with histamine H1 antagonists. 288 95

Both cholera toxin and pertussis toxin catalyzed ADP-ribosylation of purified bovine brain tubulin. The effect of cholera toxin was evident in the absence or presence of nucleotides. In contrast, pertussis toxin required adenine nucleotides for its ADP-ribosylating activity. ATP, ATP gamma S, App(NH)p, deoxy-ATP, and ADP all supported pertussis toxin-catalyzed ADP-ribosylations in the absence or presence of EDTA, suggesting that nucleotide hydrolysis was not involved. Adenine nucleotides also promoted pertussis toxin-catalyzed ADP-ribosylation of heat-treated bovine serum albumin. This result suggests that adenine nucleotides directly affect pertussis toxin. ATP stimulation of pertussis toxin-catalyzed hydrolysis of NAD to ADP-ribose supports this hypothesis.
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PMID:Adenine nucleotides directly stimulate pertussis toxin. 298 26

The mechanism by which pertussis toxin (PT) breaks the unresponsiveness of delayed-type hypersensitivity (DTH) to sheep red blood cells (SRBC) was examined in B10 mice. The unresponsiveness of DTH was induced in mice by iv injection of 10(9) SRBC and broken antigen-specifically by iv injection of 500 ng of PT into mice 1 or more days after SRBC injection. The restored DTH response in the SRBC-primed and PT-treated mice was accompanied by the appearance of Lyt-1-positive splenic T cells, capable of mediating DTH, fractionated in the low-density layers on a discontinuous bovine serum albumin density gradient. To examine the action of PT on the appearance of the DTH-effector cells, the splenic T cells from 10(9) SRBC-primed mice were treated with 100 ng/ml of PT for 60 min in vitro and then transferred into naive recipient mice. The PT-treated T cells acquired the ability to manifest DTH in the recipient mice several days after transfer. A large proportion of them were Lyt-1-positive small cells fractionated in the high-density layers before transfer and transformed into DTH-effector cells fractionated in the low-density layers in the recipient mice after transfer. Moreover, the ability of the PT-treated cells to manifest DTH on transfer was resistant to treatment with mitomycin C. These results suggest that PT acts on the sensitized, small Lyt-1-positive T cells from the unresponsive mice to differentiate them into large T-cell blasts, capable of mediating DTH, as one of the mechanisms by which PT breaks the unresponsiveness of DTH to SRBC.
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PMID:Mechanism by which pertussis toxin breaks unresponsiveness of delayed-type hypersensitivity to sheep red blood cells in mice. 309 86

Insulin modifies cellular responsiveness to some hormones which operate via guanine nucleotide binding proteins (G-proteins); also, G-proteins have been implicated in some actions of insulin. Using pertussis toxin-catalyzed [32P]ADP-ribosylation of Gi as an index of G-protein conformation, we evaluated interaction of insulin receptors with G-proteins. In isolated rat liver plasma membranes, insulin treatment for 10 min inhibited [32P]ADP-ribosylation of Gi by 50%. This effect was half-maximal at 2 x 10(-8) M. A similar effect was observed with rat adipocyte plasma membranes with half-maximal effect at 1 x 10(-8) M. Pertussis toxin activity itself was uninfluenced by insulin, as ribosylation of tubulin or heat-treated bovine serum albumin was unaltered. Elevated Mg2+ diminished basal ADP-ribosylation, but insulin inhibition occurred at all Mg2+ levels between 0 and 1 mM. Insulin inhibition was independent of ATP (20 microM to 10 mM), and GTP (0-100 microM) concentrations. Because both protein kinase C and purified insulin receptor phosphorylate purified Gi in vitro, we examined Gi as a substrate for the insulin receptor tyrosine kinase in vivo. Triton-extracts of isolated rat hepatocytes which had been 32Pi labeled and treated with insulin were immunoprecipitated with a polyclonal anti-Gi antiserum. The dominant labeled phosphoprotein had a molecular weight of 42 kDa, consistent with the alpha-subunit of Gi, contained only phosphoserine, and was unaffected in its phosphorylation by insulin. These results indicate the existence of a novel pathway for physiological "cross-talk" between insulin and other hormones and further suggests that the insulin receptor may interact with regulatory G-proteins via biochemical mechanisms not directly involving the tyrosine kinase activity of the insulin receptor.
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PMID:Insulin inhibits pertussis toxin-catalyzed ADP-ribosylation of G-proteins. Evidence for a novel interaction between insulin receptors and G-proteins. 313 71

It has been suggested that pertussis toxin (Ptx) is involved in the pathogenesis of the adverse neurologic reactions that can occur in infants and children after pertussis immunization. One group of investigators has recently reported that a clinical syndrome with pathological features very similar to post-pertussis vaccination encephalopathy can be induced in specific strains of mice after their immunization with bovine serum albumin (BSA) and Ptx. The aim of this investigation was to further characterize the immunologic mechanisms operative in this murine model. Studies were undertaken to determine whether the role played by Ptx in this condition required the A-protomer of the toxin to enter a cell and ADP-ribosylate a nucleotide binding protein (a Class I activity) or was dependent upon the binding of the B-oligomer of the toxin to the surface of target cells (a Class II activity). The results of our experiments have established that the disease induced by coimmunizing mice with Ptx and BSA is due to an immediate type hypersensitivity reaction rather than an encephalopathy and that the mechanism of action of Ptx in this system seems to be dependent upon a Class II activity of the toxin and independent of its ADP-ribosyl transferase activity.
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PMID:Murine responses to immunization with pertussis toxin and bovine serum albumin: I. Mortality observed after bovine albumin challenge is due to an anaphylactic reaction. 330 58

The long-term potentiation (LTP) was studied using rat hippocampal slices in vitro. LTP in mossy fiber-CA3 pyramidal cell synapses was markedly suppressed in slices prepared from rats which had previously received intraventricular injection of pertussis toxin (PTX), compared with the bovine serum albumin-injected controls, suggesting the involvement of G-proteins in the mechanism of LTP in mossy fiber synapses. In contrast, LTP in Schaffer/commissural-CA1 pyramidal synapses was not affected by PTX pretreatment.
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PMID:Pertussis toxin suppresses long-term potentiation of hippocampal mossy fiber synapses. 341 40

Sensitization of mice with 1 mg of bovine serum albumin (BSA) or chicken egg albumin (EA) given intraperitoneally and 300 to 400 ng of pertussigen (pertussis toxin [Ptx]) given intravenously (i.v.) induced a high degree of anaphylactic sensitivity when the mice were challenged i.v. with 1 mg of antigen 14 days later. Regardless of H-2 haplotype, all of the strains tested (CFW, BALB/cJ, DBA/2J, and C3H.SW/SnJ) were susceptible to anaphylaxis. Sensitization of mice by a multiple-dose procedure that has been reported to induce fatal encephalopathy in mice (L. Steinman, A. Weiss, N. Adelman, M. Lim, R. Zuniga, J. Oehlert, E. Hewlett, and S. Falkow, Proc. Natl. Acad. Sci. USA 82, 8733-8736, 1982) (1 mg of BSA on day -1, 100 to 400 ng of Ptx on day zero 1 mg of BSA on day +1, 100 to 400 ng of Ptx on day +2, and 1 mg of BSA on day +6) induced shock in BALB/cJ, DBA/2J, and C3H.SW/SnJ mice, but not in CFW mice. When EA was used instead of BSA, CFW, BALB/cJ, and C3H.SW/SnJ mice did not develop fatal shock, whereas DBA/2J mice did. When dose 3 of antigen (BSA or EA) was postponed to day +21, all mouse strains sensitized by the multiple-dose procedure were found to be susceptible to shock. The fatal shock induced by this procedure, as well as that induced by giving a single sensitizing dose of antigen and Ptx, could be prevented by one to three 1-ml doses of saline given i.v. at the time signs of severe shock appeared. Although only one dose of saline was often sufficient to save the mice, two or three doses were usually needed. Microscopic changes were not found in midsagittal sections of the brains of mice sensitized by either procedure. This was true of mice that died from shock or were saved from shock by injections of saline. From these results, we concluded that the proposed model for encephalopathy induced in mice by Ptx and BSA demonstrates only the well-known anaphylactogenic effect of Ptx or pertussis vaccine. Since there are many other more sensitive methods to detect Ptx, induction of anaphylaxis is not of much value for detection or quantitation of Ptx in pertussis vaccine.
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PMID:Anaphylaxis or so-called encephalopathy in mice sensitized to an antigen with the aid of pertussigen (pertussis toxin). 355 17

Animal models to control the serious neurological complications after vaccination against whooping cough are not available. In a recent paper pertussis vaccine induced acute encephalopathy in certain mouse strains (1). Healthy BALB/c mice died with shock-like symptoms after immunization with bovine serum albumin (BSA) and heat-killed pertussis. Mice not sensitized with BSA survived, and mice of strains with another H-2 type than H-2d were not susceptible. The authors concluded that the susceptibility to side effects to pertussis vaccine in mice and possibly in human is linked to the MHC. We tried to repeat the experiments reported by Steinman et al. in the hope that the murine encephalopathy model would be useful to evaluate possible neurological complications. In spite of having the same H-2d genotype, the BALB/c mice of two breeding stocks did not develop shock-like symptoms with fatal consequences after the last injection with BSA. This fact corresponds possibly with the author's observation that the pertussis vaccine encephalopathy is not under the control of H-2 genes alone. As shown in our tests the sudden deaths and encephalopathy in mice are not linked to BSA-sensitization because mice who received pertussis vaccine only showed the same symptoms as mice injected with BSA and vaccine. Histology did not indicate brain damage. It seems obvious that the deaths in our experiments were caused by the pertussis toxins present in the large numbers of bacteria given.
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PMID:Is the acute encephalopathy test in mice suited for control of pertussis vaccines? 383 81

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