Psoriasis is a common skin disease in which the development of the decisive role played by genetic and environmental factors. Many of the candidate genes linked with psoriasis, are directly related to acquired or congenital defects of the immune system, epithelial barrier permeability of the intestinal wall, and the keratinocyte membrain. Formation of an immune response to Th-1 type high expression and activity of antimicrobial peptides like state at their potential infection. This review discusses the possible immune mechanisms are involved in the relationship between infection and disease process in psoriatic skin. We survey the literature and discuss the suitability of infection factors in treatment modality for psoriasis.
Slesarenko N.A., Utz S.R., Kulaev K.A., Resnikova M.A., Panina L.V., Popova O.V. The role of infectious stimulus in the initiation and immune inflammation in psoriasis // Saratov Journal of Medical Scientific Research, Vol. 10, Issue 3, 2014, pp. 530-537

The present review summarizes data pertaining to the composition and structure of the carbohydrate moiety (core oligosaccharide) and lipid component (lipid A) of the various forms of lipopolysaccharide (LPS), one of the major pathogenicity factors ofYersinia pestis, the cause of plague. The review addresses the functions and the biological significance of genes for the biosynthesis of LPS, as well as the biological properties of LPS in strains from various intraspecies groups ofY. pestis and their mutants, including the contribution of LPS to the resistance of bacteria to factors of the innate immunity of both insect-vectors and mammal-hosts. Special attention is paid to temperature-dependent variations in the LPS structure, their genetic control and roles in the pathogenesis of plague. The evolutionary aspect is considered based on a comparison of the structure and genetics of the LPS ofY. pestis and other enteric bacteria, including otherYersinia species. The prospects of development of live plague vaccines created on the basis ofY. pestis strains with the genetically modified LPS are discussed.
Acta Naturae. 2012;4(3):46-58.

Development of computer methods in molecular biology and fast growth of microbial genomics data enabled new approach based on selecting in silico antigenic components to design vaccine constructs. It is expected that application of this technology will eliminate side effects of new vaccines and reduce the time consumption and financial expenses. The bioinformatics methods of sequence analysis are used to reveal the most prospective proteins or protein fragments of infectious agents as candidates for vaccine design. In these studies the specialized molecular immunology databases are widely used. The new approach ("Reverse vaccinology") could help in designing vaccines against diseases where traditional methods are not successful, e.g. when the viral genome reveals the extreme variability and permanent changes of antigenic properties that make difficulties for selection of molecular targets for medicines and candidate vaccines. A number of informational resources are already designed to collect and provide genomic data on certain microbes or viruses. The peculiarity of such resources is presentation of data, characterizing the different genomic variants of the same infectious agents. These structural data coupled with information on functional/immune features and software tools have to compose basis for constructing a new generation of vaccines against "common" and new infections such as AIDS, Hepatitis C, and SARS. The approaches published in literature, as well as the authors’ original results are discussed.
Current Computer-Aided Drug Design, 2005, 1 (2), 207-222.