[Study of the safety and immunogenicity of VLP-based vaccine for the prevention of rotavirus infection in neonatal minipig model].

INTRODUCTION: In Russia, almost half of the cases of acute intestinal infections of established etiology in 2022 are due to rotavirus infection (RVI). There is no specific treatment for rotavirus gastroenteritis. There is a need to develop modern, effective and safe vaccines to combat rotavirus infection that are not capable of multiplying (replicating) in the body of the vaccinated person. A promising approach is to create vaccines based on virus-like particles (VLPs). OBJECTIVE: Study of the safety and immunogenicity of a vaccine against rotavirus infection based on virus-like particles of human rotavirus A in newborn minipigs with multiple intramuscular administration. MATERIALS AND METHODS: Newborn minipigs were used as an animal model in this study. The safety of the tested vaccine was assessed based on thermometry data, clinical examination, body weight gain, clinical and biochemical blood parameters, as well as necropsy and histological examination. When studying the immunogenic properties of the Gam-VLP-rota vaccine in doses of 30 and 120 µg, the cellular, humoral and secretory immune response was studied. RESULTS: The results of assessing the general condition of animals during the immunization period, data from clinical, laboratory and pathomorphological studies indicate the safety of the vaccine against human rotavirus infection based on VLP (Gam-VLP-rota) when administered three times intramuscularly. Good local tolerance of the tested vaccine was demonstrated. The results of the assessment of humoral immunity indicate the formation of a stable immune response after three-time immunization with Gam-VLP-rota, stimulation of the production of antigen-specific IgG antibodies and their functional activity to neutralize human rotavirus A. It was shown that following the triple immunization with the minimum tested concentration of 30 µg/dose, animals developed a cell-mediated immune response. The results of the IgA titer in blood serum and intestinal lavages indicate the formation of both a systemic immunological response and the formation of specific secretory immunity to human rotavirus A. CONCLUSION: Thus, three-time intramuscular immunization of minipigs with the Gam-VLP-rota vaccine forms stable protective humoral and cellular immunity in experimental animals. Evaluated vaccine is safe and has good local tolerability.

Bacterial Lysate Complex Administered Intranasally Suppresses Inflammation in an In Vivo Model of Aseptic Lymphadenitis.

The effect of a bacterial lysate complex IRS 19 on local and systemic manifestations of inflammation was studied in a rat model of aseptic lymphadenitis. Injection of λ-carrageenan into the cervical lymph node via surgical approach caused an increase in the thickness of the capsule, disturbances in histoarchitecture, the appearance of necrosis foci, histiocytosis of subcapsular and cerebral sinuses in the lymph node, as well as an increase in the level of TNFα in the blood serum and the number of circulating leukocytes and neutrophils. Course intranasal administration of bacterial lysate complex in this model dose-dependently reduced the level of these markers of the systemic inflammatory response and the severity of microstructural disorders in the affected lymph nodes. Thus, bacterial lysate complex after intranasal administration produces a systemic anti-inflammatory effect that goes beyond the respiratory tract.

[Study of the specific toxic effects of the substance 1-[2-(2-benzoylphenoxy)ethyl]-6-methyluracil, the original non-nucleoside inhibitor of human immunodeficiency virus type 1 (Retroviridae; Orthoretrovirinae; Lentivirus: Human immunodeficiency virus 1) reverse transcriptase].

INTRODUCTION: Combination antiretroviral therapy is currently the main component of treatment for human immunodeficiency virus (HIV) infected patients. At the same time, the high mutational potential of the virus and the frequency of side effects of existing drugs dictate the need for the development and preclinical study of new, more effective and safer compounds.The aim of the study is to evaluate the specific types of toxicity of a new non-nucleoside inhibitor of human immunodeficiency virus type 1 (HIV-1) reverse transcriptase (RNA-dependent DNA revertase) (NNRTI) based on the substance 1-[2-(2-benzoylphenoxy)ethyl]-6-methyluracil, a benzophenone derivative. MATERIAL AND METHODS: The study investigated reproductive toxicity, embryotoxicity, immunotoxicity, genotoxic (in micronucleus test in and comet assay) and allergenic properties of the test itemcompound. It was tested on three species of animals in two doses: the estimated therapeutic dose (1 TD) and its tenfold equivalent (10 TD). Taking into account the metabolic coefficients, the doses for rats (Rattus) were 9 and 90 mg/kg, for mice (Mus musculus), 21 and 210 mg/kg, and for guinea pigs (Cavia porcellus), 8 and 80 mg/kg, respectively. RESULTS AND DISCUSSION: According to the obtained results, a favorable safety profile of the tested compound was established. Negative effects on the immune system, reproductive function, the body of pregnant animals and the fetus were not observed, as well as the compound did not have genotoxic and allergenic properties. CONCLUSION: These data allows to consider the studied compound as a promising therapeutic candidate for the treatment of HIV-1 infection.

[Pharmacotherapy for acute respiratory infections caused by influenza viruses: current possibilities].

Routinely the influenza virus significantly contributes to the formation of the annual incidence of acute respiratory infections, with a peak in winter season. The high level of mutagenic potential of influenza viruses is a standard factor determining the complexity of the rational choice of pharmacotherapy. The upcoming epidemiological season 20202021 brings additional challenges for health care practitioners mediated by the widespread prevalence in the human population of a new infection caused by the SARS-CoV-2 virus affecting the respiratory system among many organs and systems. An adequate choice of pharmacotherapy tools should be based on high efficiency and safety of drugs, with a possible reduction in such negative factors as polypharmacy. This review includes comparative pharmacological characteristics of drugs with activity against RNA viruses, along with parameters of their clinical efficacy.