Potentiation of the toxic effects of acetaminophen in mice by concurrent infection with influenza B virus: a possible mechanism for human Reye's syndrome?

Using weanling mice of two different genetic strains we demonstrated a potentiation of the toxic effects of acetaminophen by prior infection with influenza B virus. The C57BL/6N (B6) strain of mice is genetically predisposed to increased toxicity from acetaminophen when the hepatic cytochrome P-450 mixed function oxidase system is preinduced. When B6 animals are pretreated with influenza B virus and an mixed function oxidase system inducing agent before administering acetaminophen, we observed a significant incidence of atypical "fatty" liver pathology on light microscopy similar to the microvesicular steatosis seen in human Reye's syndrome. Electron microscopic changes in the liver of these animals resemble those published to date in human Reye's syndrome.

The ability of some Yersinia enterocolitica strains to invade HeLa cells.

Many types of Yersinia enterocolitica have been isolated from animal, environmental, food, and human sources but their public health significance remains uncertain. Seventy two strains of Y. enterocolitica were tested for their abilities to invade HeLa cells. The typical clinical strains invade HeLa cells like the other species of invasive pathogens. This characteristic remains even in old stock cultures and can be temperature-sensitive like the motility characteristic. With the use of electron micrographs it was demonstrated that the bacteria were truly intracellular and not merely adhering to the HeLa cell membrane. The esculin-and salicin-positive typical clinical strains did not invade HeLa cells. None of 34 food and water isolates were invasive by this test. The negative Y. enterocolitica strains did not adhere to the cells and cause ambiguous results. The HeLa cell test is simple, inexpensive, rapid, and should prove useful marker for screening the Y. enterocolitica isolates.

In vitro inhibition of murine macrophage migration by Bordetella pertussis lymphocytosis-promoting factor.

Lymphocytosis promoting factor (LPF) of Bordetella pertussis is a protein toxin which may have a role in the pathogenesis of pertussis. Since macrophages have an important role in the control of respiratory infections, the in vitro effects of LPF on macrophages from C3H/HeN and C3H/HeJ mice and on a murine macrophage-like cell line, RAW264, were examined. LPF inhibited random migration of resident peritoneal macrophages as well as the chemotaxis of peritoneal macrophages and the cell line. Fifty percent inhibition of chemotaxis occurred at 0.2 to 0.3 ng of LPF per ml for the macrophages and at 1 to 2 ng of LPF per ml for the cell line. When LPF was either heated at 80 degrees C for 5 min or premixed with specific antibodies, it failed to inhibit migration. At 20 ng/ml, LPF inhibited chemotaxis by more than 80% and also decreased Fc-mediated phagocytosis by 25 to 35%. At this dose, LPF was not a chemoattractant for murine macrophages and did not reduce macrophage viability, adherence, or opsonized zymosan-stimulated superoxide release. When LPF-treated macrophages were added to tissue culture dishes and then examined microscopically after 4 h, the LPF-treated cells adhered but failed to spread and elongate as well as control macrophages. These data indicate that LPF specifically inhibits macrophage migration in vitro and suggest that a possible role for LPF in pathogenesis is to inhibit migration of macrophages to the site of B. pertussis infection.

Purification and characterization of fimbriae isolated from Bordetella pertussis.

Fimbriae were detached from Bordetella pertussis by mechanical shearing and purified by successive precipitations with ammonium sulfate, phosphate buffer (pH 6.0), and magnesium chloride. In each of these purification steps, the fimbriae aggregated into bundles as seen by electron microscopy. These aggregates could be disaggregated at pH 9.5. By electron microscopy, the purified fimbriae appeared as long filaments with a diameter of 5 nm. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis of the purified fimbriae showed a single protein subunit with a molecular weight of 22,000. The purified fimbriae did not have hemagglutinating activity when assayed with several types of erythrocytes, and they were antigenically, chemically, and structurally distinct from the filamentous hemagglutinin of B. pertussis. The purified fimbriae were also identified as serotype 2 agglutinogens, since antibody to the purified fimbriae agglutinated B. pertussis strains serotyped as 1.2.4, 1.2.3, or 1.2.3.6 but did not agglutinate those serotyped as 1.3.6.

Hepatitis B core antigen: immunology and electron microscopy.

TWO DISTINCT VIRAL ANTIGENS ARE ASSOCIATED WITH THE HEPATITIS B VIRUS: the hepatitis B surface antigen (HB(s)Ag, Australia antigen) and the hepatitis B core antigen (HB(c)Ag). HB(s)Ag, purified from the serum of asymptomatic human HB(s)Ag carriers, and HB(c)Ag, purified from the liver of a chimpanzee acutely infected with hepatitis B virus, were examined by serological and immune electron microscopic methods. Antisera raised against HB(s)Ag reacted with the outer, surface component of the Dane particle and with the 20-nm spherical and tubular particles present in HB(s)Ag-positive serum, but not with the internal component of the Dane particle or with purified HB(c)Ag particles. Antisera raised against purified HB(c)Ag particles reacted with the internal component of the Dane particle and with HB(c)Ag, but not with the surface of the Dane particle or with the 20-nm spherical and tubular particles associated with HB(s)Ag. Purified HB(c)Ag particles, 27 nm in diameter, demonstrated distinct subunits. The infectious form of hepatitis B virus appears to be represented by the 42-nm Dane particle composed of a 27-nm nucleocapsid core component (HB(c)Ag) surrounded by an antigenically and morphologically distinct lipoprotein surface component (HB(s)Ag).

Search for Epstein-Barr and type C oncornaviruses in systemic lupus erythematosus.

Lymphoblastoid cell lines were derived from patients with active systemic lupus erythematosus by allowing spontaneous transformation of peripheral B lymphocytes (B cells) harboring endogenous Epstein-Barr virus or by superinfecting peripheral lymphocytes with exogeneous Epstein-Barr virus. Results of extensive studies aimed at identifying type C oncornaviruses in these lymphoblastoid cells were entirely negative by electron microscopy, DNA-DNA hybridization, reverse transcriptase assays, and cocultivation experiments. These results do not support the postulated association of oncornavirus infection in human systemic erythematosus.

Adherence of isolates of Neisseria meningitidis from patients and carriers to human buccal epithelial cells.

An in vitro assay was used to study the adherence of Neisseria meningitidis to human buccal epithelial cells. Both unencapsulated and encapsulated, piliated isolates obtained from throats of asymptomatic carriers demonstrated significantly higher levels of adherence to buccal cells than encapsulated, piliated isolates obtained from the blood and cerebrospinal fluid of patients (P < 0.001). Meningococcal adherence to buccal cells could not be correlated to a specific capsular polysaccharide serogroup, outer membrane protein serotype, or quantitative differences in pili. However, the data suggested that capsular polysaccharide impedes the adherence of meningococci to buccal cells, and the significantly smaller amount of capsular polysaccharide extracted from carrier isolates compared with case isolates (P < 0.001) could explain differences in meningococcal adherence to buccal cells. Increased adherence may facilitate host colonization, promote nasopharyngeal carriage, and possible reflect altered pathogenicity.