Microbiology and immunology
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Microbiol. Immunol. · Jan 1991
Pharmacodynamic and protective properties of a murine lipopolysaccharide-specific monoclonal antibody in experimental Pseudomonas aeruginosa pneumonia in mice.
We employed a Pseudomonas aeruginosa mouse pneumonia model to evaluate the ability of a murine monoclonal antibody (MAb) specific for the O-side chain of P. aeruginosa Fisher Immunotype-1 lipopolysaccharide (LPS) to achieve and sustain therapeutic levels in plasma and lung tissue, reduce bacterial populations in the lung, and prevent pneumonia-associated mortality. An IgG3 MAb (Y1-5A4) administered to mice i.v. over a dose range of 125-1,000 micrograms/mouse produced plasma and lung tissue levels at 2 hr of 61-507 micrograms/ml and 4.3-150 micrograms/g, respectively. The 1,000 micrograms MAb dose reduced bacterial counts in lung tissue (log10 cfu/g +/- S. ⋯ Protection was noted following administration of 1,000 micrograms of MAb up to 6 hr after bacterial challenge (P less than 0.05, compared with untreated control). Histological examination of lung tissue from infected mice revealed less acute inflammation, necrosis, and hemorrhage in MAb-treated compared with untreated control animals and greater localization of Pseudomonas antigen within the phagocytic cells in alveolar space. These findings document the in vivo therapeutic efficacy of an LPS-specific IgG MAb in a murine model of acute P. aeruginosa pneumonia, based in part upon the achievability of effective MAb concentrations in plasma and lung tissue.