B I Eisenstein scite author profile

Since many pathogenic bacteria manifest a coordinate regulation of gene expression in response to different environmental stimuli, we examined the phenotypic response of Legionella pneumophila to infection of macrophage-like U937 cells. Intracellular L. pneumophila was radiolabeled, and cell extracts were subjected to two-dimensional sodium dodecyl sulfate-polyacrylamide gel electrophoresis. At least 35 Legionella proteins were selectively induced during infection of macrophages, and one of these proteins was not detected in organisms grown in vitro. Expression of at least 32 proteins was selectively repressed during infection of macrophages, and 9 of these proteins were undetectable in intracellularly grown organisms. Thirteen of the macrophage-induced proteins were also induced by one or more of several stress conditions in vitro, and two of these proteins were the heat shock GroEL- and GroES-like proteins. Nineteen of the macrophage-repressed proteins were also repressed by one or more of the stress conditions in vitro. Our data showed that intracellular L. pneumophila manifested a phenotypic modulation and a global stress response to the intracellular environment of the macrophage. The data suggested that multiple regulons are involved in this modulation, which may contribute to the survival of L. pneumophila within alveolar macrophages.

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Growth advantage and enhanced toxicity of Escherichia coli adherent to tissue culture cells due to restricted diffusion of products secreted by the cells.

Zafriri¹,

Oron²,

Eisenstein³

et al. 1987

J. Clin. Invest.

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This study was undertaken to examine whether Escherichia colt adherent to tissue cells gain advantages over nonadherent bacteria due to their proximity to the cells. We used tissue culture cells and isogenic derivatives of a proline auxotrophic strain of E. coli that were fimbriated (Fim') or nonfimbriated (Fim-), and were heat-labile enterotoxin producing (Tox+) or toxin nonproducing (Tox-). We found that the Fim' bacteria, which were capable of adhering to tissue culture cells, initiated growth much sooner than did nonadherent Fim-bacteria; the adherent bacteria used tissue cell-derived proline, which was available at high concentrations only in the zone of bacterial adherence. Likewise, cyclic AMP secreted by adherent (Fim') bacteria was maintained at high concentration on the tissue cell surfaces. As few as 2 X 105 adherent Fim' Tox+ bacteria exert toxic activity upon Y1 adrenal cells, whereas toxin secreted in the medium by 6 X 106 FimTox+ bacteria was undetectable. The results suggest that the growth advantage and enhanced toxicity of adherent E. coil is due to restricted diffusion of products secreted by the tissue culture and bacterial cells, respectively.

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Antigenic quantitation of type 1 fimbriae on the surface of Escherichia coli cells by an enzyme-linked immunosorbent inhibition assay

Dodd¹,

Eisenstein²

1982

Infect Immun

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Type 1 fimbriae from two strains of Escherichia coli, K-12-derived CSH50 and a clinical isolate VL-2, were purified by a simplified procedure, which should be applicable to a variety of bacterial strains. After mechanical removal from the cells, the fimbriae were sedimented in the ultracentrifuge and resuspended in 5 M urea to disaggregate cell membranes and flagella, leaving the urea-resistant fimbriae intact. After several hours at 37 degrees C, this crude fimbrial suspension was diluted to 1 M urea, and the intact fimbriae were sedimented through a 1 M urea-1 M sucrose cushion. The pellet was found to be pure fimbriae by sodium docecyl sulfate-polyacrylamide gel electrophoresis, with apparent subunit molecular weights of 17,000 for the fimbriae from K-12 strain CSH50 and 19,000 for those from the clinical isolate VL-2. High-titer rabbit antiserum raised against CSH50 fimbriae was specific for fimbriae by indirect ferritin labeling and immunoprecipitation and was used to develop an enzyme-linked immunosorbent assay. Competitive inhibition of antifimbrial antiserum in the enzyme-linked immunosorbent assay by a known amount of either purified fimbriae or fimbriae-bearing bacteria permitted precise quantitation of fimbrial antigen in cultures of strain CSH50, thereby providing a simple means of determining the effects of environmental conditions on the synthesis of type 1 fimbriae.

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Immunoelectron microscopic analysis of elongation of type 1 fimbriae in Escherichia coli

1987

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Using 10-and 20-nm-diameter gold particles conjugated to an antifimbrial monoclonal antibody, we analyzed the location of assembly of newly formed subunits on growing type 1 fimbriae of Escherichia coli. Fimbriae were removed from an E. coli K-12-derived strain, CSH50, by blending. Blended cells were allowed to regenerate their fimbriae in growth medium for approximately 25 min, after which they were labeled with a 20-nm-gold-monoclonal antibody probe. Continued outgrowth of these labeled fimbriae was allowed for additional time intervals, after which they were labeled with a 10-nm-gold-monoclonal antibody probe. The resulting fimbriae, double labeled with 10-and 20-nm-diameter gold particles, were examined in an electron microscope. The pattern of labeling on individual fimbrial organelles indicated morphologically that newly synthesized subunits are added to a growing organelle at its base.

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Applied Molecular Genetics: New Tools for Microbiologists and Clinicians

Eisenstein

Engleberg

1986

Journal of Infectious Diseases

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B I Eisenstein

Phenotypic modulation by Legionella pneumophila upon infection of macrophages

Growth advantage and enhanced toxicity of Escherichia coli adherent to tissue culture cells due to restricted diffusion of products secreted by the cells.

Antigenic quantitation of type 1 fimbriae on the surface of Escherichia coli cells by an enzyme-linked immunosorbent inhibition assay

Immunoelectron microscopic analysis of elongation of type 1 fimbriae in Escherichia coli

Applied Molecular Genetics: New Tools for Microbiologists and Clinicians

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