Growth, Virulence, and Immunogenicity ofListeria monocytogenes aroMutants

Mutants ofListeria monocytogeneswith deletions in genes of the common branch of the biosynthesis pathway leading to aromatic compounds were constructed as possible virulence-attenuated carrier strains for protein antigens or vaccine DNA.aroA,aroB, and in particulararoEmutants showed strongly reduced growth rates in epithelial cells and even in rich culture media. The metabolism of thearomutants under these conditions was predominantly anaerobic. Aerobic metabolism and a wild-type growth rate were, however, regained upon the addition of vitamin K2, suggesting that thearomutants are deficient in oxidative respiration due to the lack of menaquinone. Replication of thearomutants in the host cell's cytosol and cell-to-cell spread were drastically slowed down, and allaromutants showed high virulence attenuation in mice, i.e., the 50% lethal dose in BALB/c mice was increased at least 104-fold for thearoA,aroB, andaroA/Bmutants and >105-fold for thearoEmutant compared to the parent strain. Nevertheless, mice preimmunized witharomutant bacteria elicited good T-cell response and full protection against a subsequent challenge with the virulent wild-type strain. A total of 5 × 106aroA,aroB, andaroA/Bmutant bacteria were sufficient to obtain a protective T-cell response, while 5 × 108aroEoraroA/Emutants were necessary to achieve comparable numbers of antigen-specific T cells. These numbers were well tolerated without causing any signs of disease, indicating thatListeriastrains with deletions in genes of the basic branch of the aromatic amino acid pathway could be useful vaccine carriers for inducing T-cell immunity.