Virulence of HtpG+ and HtpG− strains of Yersinia pestis for Mice and Guinea Pigs

HtpG (high-temperature protein G) is a bacterial homologue of the highly conserved molecular chaperone Hsp90 of eukaryotes, which plays an important role in protection against stress in many bacterial species. The role of the htpG gene encoding the synthesis of high-temperature prokaryotic G protein in the pathogenesis of bacterial infections is still unclear. The aim of this work is to study the functional importance of HtpG in the pathogenesis of plague. Materials and methods. Isogenic Yersinia pestis sets based on attenuated and virulent strains differing in the presence of the functional htpG gene (YPO3119) were generated with the help of site-directed mutagenesis. The HtpG amino acid sequence was analyzed using the BLAST program. The properties of the resulting mutant strains were evaluated using microbiological and biological methods. Results and discussion. The bioinformatics analysis showed high conservativeness of the HtpG protein within the Y. pestis species (100% identity), as well as 99 % identity with the Y. pseudotuberculosis protein and 96 % identity – Y. enterocolitica protein. Y. pestis htpG knock-out mutants showed increase of susceptibility to temperature and oxidative stress like mutants of the other bacterial species. However, the mutant was not sensitive to osmotic stress and human serum complement. The loss of the ability to synthesize HtpG by plague microbe did not affect the virulence and average life duration of mice and guinea pigs challenged subcutaneously. It means that htpG gene is not a good molecular target for the treatment and/or immunoprophylaxis of plague.