Isolation of a Francisella tularensis mutant that is sensitive to serum and oxidative killing and is avirulent in mice: Correlation with the loss of MinD homologue expression

Abstract We constructed mutant strains of Francisella tularensis biotype novicida by insertional mutagenesis with a kanamycin resistance (Km^R) cassette. One mutant, KEM7, was defective for survival in macrophages in comparison with the wild-type (WT) strain and a random insertion strain, KEM21. While all three strains exhibited intracellular growth, the number of viable KEM7 present after 24–48 h of infection was approximately 10 times less than that of WT or KEM21. This observation was apparently due to a reduced number of viable KEM7 associated with the macrophages one hour after phagocytosis. KEM7 was approximately 3 times more susceptible than WT or KEM21 to killing by the products of the xanthine-xanthine oxidase reaction or by hydrogen peroxide. KEM7 was also found to be susceptible to killing by serum, whereas WT and KEM21 were resistant. Upon intravenous inoculation of C57BL/6 mice, the number of KEM7 in the livers and spleens 48 h post-infection was found to be 1000- to 10 000-times less than that of either KEM21 or WT. DNA sequence analysis at the Km^R insertion site suggested that the F. tularensis homologue of min D had been interrupted. Western immunoblot analysis confirmed the presence of a MinD homologue in F. tularensis WT and KEM21, and demonstrated its absence in KEM7.