Capnocytophaga canimorsus is a gram-negative rod that causes opportunistic infections resulting in bacteremia, septicemia, meningitis, and death in immunocompromised, splenectomized, and alcoholic individuals. Infections caused by a related species, Capnocytophaga cynodegmi, remain localized at the site of the wound where the organism is introduced. Both organisms are part of the normal canine oral flora and are introduced through puncture wounds via dog bites. We found that both C. canimorsus and C. cynodegmi attach, are phagocytized, and multiply intracellularly in J774 mouse macrophage cells. After 48 h of infection by C. canimorsus, large sections of the macrophage cell layer were observed to detach and lyse, while the monolayer infected with C. cynodegmi demonstrated no cytotoxic effects. Tissue culture supernatants from the C. canimorsus-infected J774 cells filtered through a 0.22-m-pore membrane produced a similar effect on fresh monolayers, while filtrates from C. cynodegmi and uninfected controls produced no effect. No endotoxin release was observed in these supernatants. We conclude that the cytotoxic phenotype of C. canimorsus is the likely result of a toxin produced by this organism.
We developed an in vitro model to study the temperature-regulated cytotoxicity and intracellular growth of Mycobacterium haemophilum in cultured human epithelial and endothelial cells. M. haemophilum associated with human epithelial and endothelial cells at similar rates when incubated at 33 and 37؇C, but only the epithelial cell line supported the multiplication of this organism. M. haemophilum grew equally well with epithelial cells at both temperatures. The aminoglycoside antibiotic amikacin was used to study the intracellular growth of M. haemophilum in the epithelial cells at 33 and 37؇C. Although an approximately equal number of bacteria were found within cells after 2 days of incubation at both temperatures, intracellular replication of M. haemophilum was 1,000-fold greater at 33 than at 37؇C. This intracellular multiplication was associated with destruction of the monolayers at 33 but not at 37؇C, and only culture filtrates from infected monolayers incubated at 33؇C were cytotoxic to fresh epithelial cell monolayers. This strain of M. haemophilum also produced contactdependent hemolysis of sheep erythrocytes, demonstrating the possible presence of a cytolysin. These studies suggest that M. haemophilum has a preference for growth with cultured human epithelial cells. In addition, intracellular growth is best at 33؇C in epithelial cells, and this correlated with cytotoxicity at this temperature. This phenotype may be caused by induction of a soluble cytotoxic component, possibly a hemolytic cytolysin.
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