Far Eastern Scarlet-Like Fever is a Special Clinical and Epidemic Manifestation of Yersinia pseudotuberculosis Infection in Russia

Pseudotuberculosis in humans until the 1950s was found in different countries of the world as a rare sporadic disease that occurred in the form of acute appendicitis and mesenteric lymphadenitis. In Russia and Japan, the Yersinia pseudotuberculosis (Y. pseudotuberculosis) infection often causes outbreaks of the disease with serious systemic inflammatory symptoms, and this variant of the disease has been known since 1959 as Far Eastern Scarlet-like Fever (FESLF). Russian researchers have proven that the FESLF pathogen is associated with a concrete clonal line of Y. pseudotuberculosis, characterized by a specific plasmid profile (pVM82, pYV 48 MDa), sequence (2ST) and yadA gene allele (1st allele). This review summarized the most important achievements in the study of FESLF since its discovery in the Far East. It has been established that the FESLF causative agent is characterized by a unique phenomenon of psychrophilicity, which consists of its ability to reproduce in the environment with its biologically low and variable temperature (4–12 °C), at which the pathogen multiplies and accumulates while maintaining or increasing its virulence, which ensures the emergence and development of the epidemic process. The key genetic and biochemical mechanisms of Y. pseudotuberculosis adaptation to changing environmental conditions were characterized, and the morphological manifestations of the adaptive variability of these bacteria in different conditions of their habitat were revealed. The main features of the pathogenesis and morphogenesis of FESLF, including those associated with the Y. pseudotuberculosis toxigenicity, were presented. The pathogenetic value of the plasmid PVM82, found only in the FESLF pathogen, was shown

Features of changes in spectra of fatty acids of the bacteria of the Enterobacteriaceae family in the process of forming stable (dormant) cell forms

Introduction. With the advent of the paradigm of heterogeneity of the bacterial population, attention has been drawn to the phenotype of dormant cells, the active generation of which occurs when adverse environmental conditions of microorganisms appear. These cells are characterized by metabolic and reproductive dormancy, as well as antibiotic resistance. However, upon the occurrence of favorable living conditions, they are able to germinate again and cause an exacerbation of infectious diseases. In recent years, a threatening decrease in the effectiveness of antimicrobial therapy and an increase in the incidence of persistent, chronic and hospital infections have been associated with these phenotypes of pathogenic bacteria. Given the key role of fatty acid (FA) in the adaptation of bacteria, the aim of this study was to identify the specific features of changes in the fatty acid composition of gram-negative bacteria from the Enterobacteriaceae family during their long-term storage under extreme conditions and the formation of dormant (uncultured) subpopulations of cell forms.Materials and methods. Static cultures of following reference strains were used in the study: Yersinia pseudotuberculosis, Salmonella enterica Typhimurium, and Escherichia coli, stored under vaseline oil at 4-8°С for 5-10 years. Dormant cell forms were obtained by removing the oil layer and collecting the microbial mass. The ultrastructural features of the dormant cell forms were confirmed by transmission electron microscopy. The viability of dormant cells was assessed by a molecular genetic method. The lack of reproductive activity of dormant forms was checked by repeated inoculations on LB broth, Endo and Serov media and incubation at 4-6°C, 22-24°C, and 37°С. Methyl esters of total FAs were obtained according to the procedure approved by the European Committee for Standardization and recommended by the Sherlock MIS protocol. Analysis of fatty acid methyl esters was carried out by gas chromatography in combination with mass spectrometry. After preliminary homogenization of the bacterial masses, lipids were extracted, and FA spectra were obtained by electron impact at 70 eVResults. It was demonstrated that phenotypic uncultured generation of dormant cells is formed under extreme conditions (low temperature, nutrient deficiency, hypoxia) in populations of E. coli, Y. pseudotuberculosis and S. Typhimurium. A comparative analysis of changes in the fatty acid spectrum in the dormant phenotype revealed certain features compared to vegetative cells associated with a decrease in the unsaturation index and the dominance of long-chain saturated FAs (C14-C18).Conclusion. The biological significance of the observed transformations is apparently associated with the special role of these FA fractions in the reversible formation of dormant (uncultivated) cell phenotype and as an alternative source of carbohydrates in a metabolically inactive state, as well as their subsequent reversal to vegetative cells upon favorable living conditions