Summary.Monoclonal anti bodies to the lipopolysaccharide (LPS) core region were produced by immunising mice with Escherichia coli strain J5 (chemotype Rc). One of these bound to the deepest part of the core, i.e., Lipid A, and reacted with other heatkilled but not live gram-negative bacilli, including E. coli, Klebsiella pneumoniae and Pseudomonas aeruginosa. Eight other monoclonal antibodies, binding to the terminal glucose residue of Rc LPS, reacted with live cells of E. coli strains only. Thus, the 0 antigen does not necessarily render the core inaccessible to antibody. However, despite binding to live bacteria, these monoclonal antibodies neither enhanced phagocytic killing, nor protected mice from dying from gram-negative infection or endotoxaemia. It is concluded that antibodies reacting with the most immunodominant parts of the J5 core are not protective.
An antiserum with a high content of antibodies, binding to the Gram-negative lipopolysaccharide core region, was prepared by immunizing rabbits with the rough Escherichia coli mutant J5. This antiserum was capable of protecting mice against lethal challenge doses of E. coli 0 111:B4 in a mouse model where the animals were compromised by means of mucin plus hemoglobin (LD 50 = 10(3) bacteria). However, no protection was observed in a non-compromised mouse model (LD 50 = 10(7) bacteria). This observation might explain why in the past so many discrepant results have been obtained in mouse protection studies with cross-reactive antisera.
Summary. Growth of Bacteroides fragilis and Escherichia coli was monitored during early stages of single (mono-) and mixed intra-abdominal infection in a rat fibrin clot model. When B. fragilis and E. coli were together involved in the infection, B. fragilis numbers increased about 6 h after an initial decline. This increase was not found with B. fragilis mono-infections. The numbers of E. coli increased rapidly in both mono-and mixed infections and stayed high for several days, but only mixed infection resulted in abscesses that persisted for more than 7 days. Macrophages, the main component of the peritoneal cellular defence mechanism, were outnumbered by polymorphonuclear leucocytes during the first 6 h of infection. Further characterisation of the macrophage population by means of monoclonal antibodies showed a shift from resident to exudate macrophages as the result of influx of the latter.
Summary. Peritoneal cells from rats infected intraperitoneally with Escherichia coli andBacteroides fragilis, alone or in combination were examined in vitro. Cells were harvested 6 h after implantation of fibrin clots infected with E. coli or B. fragilis, separately or containing both species, and assayed for their bactericidal capacities, chemiluminescence and production of cidal metabolites. Peritoneal cell populations from rats with implants of any of the infected clots showed similar distribution of different subpopulations. Bactericidal activity of peritoneal cells did not differ with the bacterial species used. Chemiluminescence values of peritoneal cells from rats with mono-infected B. fragilis or mixed-infected implanted clots, after stimulation with either particles or chemical stimuli, were significantly higher than those of rats with mono-infected E. coli or sterile clots. The same tendency was seen with regard to the production of cidal metabolites such as hydrogen peroxide and superoxide anions although no significant differences were found.
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