Liberation of endotoxin during growth of Neisseria meningitidis in a chemically-defined medium

Endotoxin liberation by strains of N. meningitidis isolated from patients and healthy carriers

The main objective of this study was to assess whether the capacity of Neisseria meningitidis to release endotoxin depends upon the type of strain or upon bacterial mass. Endotoxin release was studied in 32 strains isolated from patients with meningococcal infections and in 49 from asymptomatic carriers, using a quantitative test (limulus test with a chromogenic substrate). The results show that the strains from patients release significantly higher amounts of endotoxin than strains from carriers regardless of serogroup and isolation site. No correlation was found between stage of bacterial growth and the amount of endotoxin liberated. These findings suggest that endotoxin liberation is a characteristic of certain strains of N. meningitidis and is not determined simply by bacterial mass.

Endotoxin shedding by enterobacteria: free and cell-bound endotoxin differ in Limulus activity

The endotoxin activities of gram-negative bacteria and their lipopolysaccharides (LPS) have been quantitated by a chromogenic Limulus amocbocyte lysate (CLAL) assay. When bacterial cell exposing various cell surface structures were compared, the highest Limulus activities were found in R strains of Escherichia coli and Salmonella typhimurium mutants. E. coli with K antigens did not differ from K-negative strains. By measuring beta-hydroxymyristic acid (3-OH tetradecanoic acid, beta-OHC14:0), it was possible to compare the CLAL activities of LPS bound to bacterial cells, LPS shed into the culture medium, and purified LPS. After 16 h of growth, the cell-free culture supernatants of three E. coli O1K1 strains and S. typhimurium showed CLAL activities 14.3 to 20.3 times higher than did the corresponding bacterial cell suspensions in relation to their beta-OHC14:0 contents. Four other E. coli strains (O serotypes O14, O24, and O75) and the S. typhimurium 395 R mutants MR5 and MR6 showed CLAL values 2.8 to 7.9 times higher in their culture supernatants. LPS of E. coli O1K1 and S. typhimurium had lower CLAL activities than the culture supernatants (1/10 and 1/4, respectively). Although the beta-OHC14:0 concentrations of the culture supernatants were approximately half those of the corresponding bacterial cells, all had CLAL values that were 2 to 21 times higher. The bacterial cell suspension, culture supernatant, and purified LPS of S. typhimurium MS were compared by CLAL assay and a quantitative enzyme-linked immunosorbent assay based on monoclonal antibodies to the O5 antigen. Endotoxin shed into the culture medium was the most CLAL-active form of LPS, while purified LPS was the most antigen-active form. The results emphasize the importance of appropriate standards when quantifying endotoxin in various states. In conclusion, E. coli and S. typhimurium bacteria shed significant amounts of endotoxin into the surrounding medium during growth. This form of LPS is more CLAL active than the cell-bound or purified LPS.

Properties and participation of "free" endotoxin in the toxic activity of Morganella morganii

"Free" and "bound" Morganella morganii endotoxin was characterized by chemical (determination of proteins, saccharides and 3-deoxy-2-octulosonic acid) and immunochemical (double-diffusion test, immunoelectrophoresis, tandem crossed immunoelectrophoresis) methods. Chemical analysis showed that "free" endotoxin contains more protein and phosphorus and less saccharides than bound endotoxin. Immunochemical tests revealed differences in the structure of polysaccharide portions of both endotoxins, and, on the other hand, identity of certain antigenic determinants. Free endotoxin possessed a higher biological activity.

Release of endotoxin from bacteria exposed to ciprofloxacin and its prevention with polymyxin B

An in vitro system for studying the phenomenon of antibiotic-induced release of endotoxin from gram-negative bacteria is described. Endotoxin was measured by a quantitative limulus lysate microassay. Using a strain of Escherichia coli, ciprofloxacin was shown to cause an immediate and sustained increase in endotoxin release compared to control cultures whereas gentamicin did not, despite an equally rapid bactericidal effect. The potential value of the anti-endotoxin effect of polymyxin B was examined using a polymyxin B resistant strain of Klebsiella aerogenes. Ciprofloxacin alone caused endotoxin release, but when given with polymyxin B significantly less endotoxin was detected. These results indicate that in antibiotic-induced endotoxin release, the rate of cell death is less important than the site of antibiotic effect, and suggest that ciprofloxacin may act directly on the cell wall as well as on DNA gyrase. It is possible that polymyxin B could be used to reduce the extent of endotoxin release, and that this would be of clinical benefit.

Quantitation of endotoxin in blood from patients with meningococcal disease using a limulus lysate test in combination with chromogenic substrate

The levels of endotoxin in blood were determined using the Limulus lysate test in combination with a chromogenic substrate. Plasma was analyzed from four patients with fatal meningococcal septicaemia and from one patient who survived meningococcal meningitis. All septicaemia patients showed high levels of endotoxin in their blood during the early stage of their disease. In two of these patients, blood samples collected at intervals of two days revealed a gradual disappearance of measurable endotoxin from the circulation. The patient with meningitis had no clinical signs of circulatory deficiency or coagulopathy and was consistently negative for endotoxin using this test procedure. Pretreating the plasma with heat and alkali and combining the Limulus lysate test with a chromogenic substrate seem to provide a sensible method for the detection and quantitation of endotoxin in blood.