The binding of pertussis toxin and its subunits to cell surface receptors and purified glycoproteins was examined. The interaction of pertussis toxin with components of two variant Chinese hamster ovary (CHO) cell lines was studied. These cell lines are deficient in either sialic acid residues (LEC 2) or sialic acid and galactose residues (LEC 8) on cell surface macromolecules. The binding of pertussis toxin to components of these cells differed from the binding of the toxin to wild-type components. Although the toxin bound to a 165,000-dalton glycoprotein found in N-octylglucoside extracts of wild-type cells, it did not bind to components found in extracts of LEC 2 cells. In contrast, the toxin bound to components found in extracts of LEC 8 cells, which are variant cells that contain increased amounts of terminal N-acetylglucosamine residues on cell surface macromolecules. These results suggest that the receptor for pertussis toxin on CHO cells contains terminal acetamido-containing sugars. The cytopathic effect of the toxin on both types of variant cells was much reduced compared with its effects on wild-type cells. Thus, optimal functional binding of pertussis toxin appears to require a complete sialyllactosamine (NeuAc-+GalPi4GlcNAc) sequence on surface macromolecules. In
Soluble adenylate cyclase [EC 4.6.1.1] accumulates in the culture medium of exponentially growing Bordetella pertussis (300-900 pmol of cAMP formed/min per ml of 24 hr culture supernatant). In addition, there is an extracytoplasmic adenylate cyclase which enables the intact organisms to form [32P] cAMP (adenosine 3':5'-cyclic monophosphate) from exogenous [alpha-32P] ATP (200-1200 nmol of cAMP formed/min per g wet weight of cells) and which comprises 20-45% of the total adenylate cyclase activity. In contrast, only 1.7 and 2.4% of the total cell malate dehydrogenase [EC 1.1.1.37] and alkaline phosphatase [EC 3.1.3.1], respectively, are detectable in the intact cell. Trypsin treatment of intact organisms destroys 96% of the extracytoplasmic adenylate cyclase, but does not reduce the total cell malate dehydrogenase or a small pool of intracellular adenylate cyclase. Four compartments of adenylate cyclase in B. pertussis are proposed; (A) soluble enzyme in the culture supernatant (up to 20% of the total activity); (B) enzyme associated with intact cells and measurable without cell disruption (20-45%); (C) extracytoplasmic enzyme sensitive to trypsin, but not measurable in intact cells at standard substrate concentrations (40-60%); and (D) intracellular enzyme (7-9%). In comparison with previously studied bacterial adenylate cyclases, the extracytoplasmic location appears to be unique to the B. pertussis enzyme.
Aerosol inhalation of Bordetella pertussis Tohama phase I resulted in a reproducible and uniform infection of mice (strain DDY or ICR). Mice in groups of 10 exposed for 30 min to aerosols generated from bacterial suspensions of 10(9) and 10(10) organisms per ml resulted in mean bacterial counts of 2.3 (+/- 0.3) X 10(4) and 1.0 (+/- 0.3) X 10(5) colony-forming units, respectively, in the lung of each animal. Subsequent studies using a 30-min aerosol inoculation of ICR mice with 2 X 10(9) bacterial cells per ml showed: (i) B. pertussis cells reached a maximum of about 10(7) colony-forming units per lung 14 days after inhalation. (ii) Deaths (10 to 100%, depending on mouse age) occurred 10 to 14 days after exposure. (iii) The lung weight and the leukocyte count increased from basal values of 100 mg and 10(4) leukocytes per mm3 to a plateau of 950 mg and 1.95 X 10(5) leukocytes per mm3, respectively, 14 days after challenge. (iv) There was a significantly reduced rate of body weight gain by infected mice compared to noninfected mice. (v) With mortality as the criterion for disease, susceptibility varied with the age of mice as follows: 10 days old greater than 18 greater than 28 greater than 49. (vi) Bacteria were associated with ciliated respiratory epithelial cells by scanning electron microscopy.
Adenylyl cyclases are under positive and negative control by guanine nucleotides and hormones. Stimulatory responses are mediated by a guanine nucleotide- and Mg-binding regulatory component (Ns), a protein that has been purified to homogeneity. Inhibitory responses have been hypothesized to be mediated by an analogous regulatory component (Ni) distinct from Ns, but definitive proof for this is lacking and these effects may result from modulation of Ns activity. Recently, Bordetella pertussis toxin has been shown to ADP-ribosylate a peptide that is not part of Ns, and this coincides with attenuation of hormonal inhibition of adenylyl cyclase. We show here that cyc- S49 cells contain a substrate for ADP-ribosylation by pertussis toxin and that the toxin alters GTP dependent inhibition of cyc- adenyl cyclase activity. As cyc- S49 cells do not contain Ns by several criteria, we conclude that Ni is a distinct and separate regulatory component of adenylyl cyclase.
Gamma globulins were obtained from rabbits hyperimmunized with the filamentous hemagglutinin (FHA) or the leukocytosis-promoting factor hemagglutinin (LPF. HA) of Bordetella pertussis. Double immunodiffusion analyses showed the antibodies to be highly specific for the homologous antigen. Intraperitoneal injection of anti-FHA or anti-LPF HA into 10-day-old ICR mice 30 min before aerosol challenge with B. pertussis protected the mice from disease as evidenced by survival and a normal rate of gain in body weight. Both anti-LPF HA and anti-FHA enhanced the clearance of B. pertussis from the lung and prevented leukocytosis which normally occurs after aerosol infection of mice with B. pertussis. Anti-LPF. HA, but not anti-FHA, neutralized the leukocytosis-promoting and histamine-sensitizing activities of LPF HA when incubated with the purified protein in vitro. Anti-FHA, but not anti-LPF-HA, prevented the attachment of B. pertussis to mammalian cells (HeLa and Vero) in culture.
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