Pasteurella pneumotropica is an opportunistic pathogen that causes lethal pneumonia in immunodeficient rodents. The virulence factors of this bacterium remain unknown. In this study, we identified the genes encoding two RTX toxins, designated as pnxI and pnxII, from the genomic DNA of P. pneumotropica ATCC 35149 and characterized with respect to hemolysis. The pnxI operon was organized according to the manner in which the genes encoded the structural RTX toxin (pnxIA), the type I secretion systems (pnxIB and pnxID), and the unknown orf. The pnxII gene was involved only with the pnxIIA that coded for a structural RTX toxin. Both the structural RTX toxins of deduced PnxIA and PnxIIA were involved in seven of the RTX repeat and repeat-like sequences. By quantitative PCR analysis of the structural RTX toxin-encoding genes in P. pneumotropica ATCC 35149, the gene expression of pnxIA was found to have increased from the early log phase, while that of pnxIIA increased from the late log to the early stationary phase. As expressed in Escherichia coli, both the recombinant proteins of PnxIA and PnxIIA showed weak hemolytic activity in both sheep and murine erythrocytes. On the basis of the results of the Southern blotting analysis, the pnxIA gene was detected in 82% of the isolates, while the pnxIIA gene was detected in 39%. These results indicate that the products of both pnxIA and pnxIIA were putative associations of virulence factors in the rodent pathogen P. pneumotropica.Pasteurella pneumotropica is a gram-negative, rod-shaped bacterium that is frequently isolated from the upper respiratory tracts, digestive tracts, and vaginas of rodents (2,26). This bacterium is the major cause of pasteurellosis in immunodeficient and immunosuppressed animals, while certain effects on health are not observed in immunocompetent animals (2, 26). For the microbiological control of laboratory rodents, P. pneumotropica is one of the pathogens that must be prevented in rodent colonies. In P. pneumotropica infections, clinical diseases have generally presented with skin lesions, ophthalmitis, conjunctivitis, and otitis media (2); furthermore, clinical diseases have also been known to lead to fatal pneumonia in immunodeficient animals (15,24,26).Although details of the virulence factors of P. pneumotropica are still unavailable, predicted virulence associations have been reported (4,15,16,26). Of these, hemolysis is one of the phenotypic characteristics widely distributed in pathogenic bacteria. In particular, many pathogens that belong to the family Pasteurellaceae possess one of the pore-forming protein toxins occurring concurrently with hemolysis-a toxin determined to be a repeat in the structural toxin (RTX toxin) (42). RTX toxins are recognized as members of the type I exoprotein secretion system and were first characterized as hemolysins and leukotoxins produced by Actinobacillus pleuropneumoniae, Aggregatibacter (Actinobacillus) actinomycetemcomitans, Bordetella pertussis, enterohemorrhagic Escherichia coli, and Mannheimia haemolyti...
