Gender differences in the pharmacological actions of pegylated glucagon-Like peptide-1 on endothelial progenitor cells and angiogenic precursor cells in a combination of metabolic disorders and lung emphysema

In clinical practice, the metabolic syndrome (MetS) is often associated with chronic obstructive pulmonary disease (COPD). Although gender differences in MetS are well documented, little is known about sex-specific differences in the pathogenesis of COPD, especially when combined with MetS. Consequently, it is not clear whether the same treatment regime has comparable efficacy in men and women diagnosed with MetS and COPD. In the present study, using sodium glutamate, lipopolysaccharide, and cigarette smoke extract, we simulated lipid metabolism disorders, obesity, hyperglycemia, and pulmonary emphysema (comorbidity) in male and female C57BL/6 mice. We assessed the gender-specific impact of lipid metabolism disorders and pulmonary emphysema on angiogenic precursor cells (endothelial progenitor cells (EPC), pericytes, vascular smooth muscle cells, cells of the lumen of the nascent vessel), as well as the biological effects of pegylated glucagon-like peptide 1 (pegGLP-1) in this experimental paradigm. Simulation of MetS/COPD comorbidity caused an accumulation of EPC (CD45−CD31+CD34+), pericytes, and vascular smooth muscle cells in the lungs of female mice. In contrast, the number of cells involved in the angiogenesis decreased in the lungs of male animals. PegGLP-1 had a positive effect on lipids and area under the curve (AUC), obesity, and prevented the development of pulmonary emphysema. The severity of these effects was stronger in males than in females. Furthermore, PegGLP-1 stimulated regeneration of pulmonary endothelium. At the same time, PegGLP-1 administration caused a mobilization of EPC (CD45−CD31+CD34+) into the bloodstream in females and migration of precursors of angiogenesis and vascular smooth muscle cells to the lungs in male animals. Gender differences in stimulatory action of pegGLP-1 on CD31+ endothelial lung cells in vitro were not observed. Based on these findings, we postulated that the cellular mechanism of in vivo regeneration of lung epithelium was at least partly gender-specific. Thus, we concluded that a pegGLP-1-based treatment regime for metabolic disorder and COPD should be further developed primarily for male patients

Вариант вируса гриппа в, адаптированный к мышам, для изучения лечебной и профилактической эффективности противовирусных препаратов in vitro и in vivo

Objective: to develop a new antigenic relevance influenza B virus suitable for modeling influenza infection in mice to assess of in vivo and in vitro therapeutic and preventive efficacy of antiviral drugs.Materials and methods: was carried out an adaptation of influenza B virus in BALB/c mice. Was performed, comparative assessment of in vivo and in vitro pathogenicity of the parenta! virus and. adapted, influenza B virus. Was assessed, inhibition of neuraminidase with antiviral drugs (oseltamivir ethoxyacrylate and. Tamiflu) in relation to the adapted, influenza B virus.Results: adapted  influenza B virus (B/Novosibirsk/40/2017-MA strain) models non-lethal influenza infection with pronounced, clinical signs of the disease in experimental animals. Were described the destructive changes in lungs and. brain that increases during infection. Analysis of internal organs (lungs, brain, liver, heart, kidneys, spleen) were revealed viral load only in the lungs. Were evaluated, in vivo and in vitro efficacy of antiviral drugs (oseltamivir ethoxysuccinate and Tamiflu®) on the model of influenza infection. Were proved, the high, efficiency of the innovative drug — oseltamivir ethoxysuccinate.Conclusion: the antigen-relevant adapted, influenza B virus (B/Novosibirsk/40/2017-MA strain) can be used, to assess the drug effectiveness against influenza, as well as an additional tool for predicting the effectiveness of the vaccine against drifting strains.Цель: разработка нового, обладающего антигенной актуальностью, штамма вируса гриппа типа В, пригодного для моделирования гриппозной инфекции у экспериментальных мышей для оценки лечебной и профилактической эффективности противовирусных препаратов in vivo и in vitro.Mатериалы и методы: была проведена адаптация вируса гриппа В на мышах линии BALB/c. Выполнена сравнительная оценка патогенности родительского и адаптированного вариантов вируса гриппа В в экспериментах in vivo и in vitro. Используя адаптированный вариант вируса гриппа В, проведена оценка ингибирования нейраминидазы с помощью противовирусных лекарственных средств (осельтамивира этоксисукцинат, и Тамифлю®).Результаты: полученный адаптированный вариант, вируса гриппа В штамм. В/Novosibirsk/40/2017-MA моделирует у экспериментальных животных нелетальную гриппозную инфекцию с выраженными клиническими признаками заболевания. Описаны, деструктивные изменения в лёгких и головном, мозге, нарастающие в ходе инфекции. Вирусологический анализ внутренних органов (лёгкие, головной мозг, печень, сердце, почки, селезёнка) выявил репликацию вируса гриппа только в лёгких. На данной модели гриппозной инфекции проведена оценка эффективности противовирусных лекарственных средств (осель-тамивира этоксисукцинат, и Тамифлю®) in vivo и in vitro. Доказана высокая эффективность инновационного лекарственного средства осельтамивира этоксисукцинат..Заключение: полученный антигенно актуальный вирус гриппа В штамм В/Novosibirsk/40/2017-MA может, быть использован, для оценки эффективности противогриппозных препаратов, а также в качестве дополнительного инструмента прогнозирования эффективности вакцины, против дрейфующих штаммов

Mouse-adapted influenza B virus for in vitro and in vivo assessment of therapeutic and preventive efficacy of antiviral drugs

Objective: to develop a new antigenic relevance influenza B virus suitable for modeling influenza infection in mice to assess of in vivo and in vitro therapeutic and preventive efficacy of antiviral drugs.Materials and methods: was carried out an adaptation of influenza B virus in BALB/c mice. Was performed, comparative assessment of in vivo and in vitro pathogenicity of the parenta! virus and. adapted, influenza B virus. Was assessed, inhibition of neuraminidase with antiviral drugs (oseltamivir ethoxyacrylate and. Tamiflu) in relation to the adapted, influenza B virus.Results: adapted  influenza B virus (B/Novosibirsk/40/2017-MA strain) models non-lethal influenza infection with pronounced, clinical signs of the disease in experimental animals. Were described the destructive changes in lungs and. brain that increases during infection. Analysis of internal organs (lungs, brain, liver, heart, kidneys, spleen) were revealed viral load only in the lungs. Were evaluated, in vivo and in vitro efficacy of antiviral drugs (oseltamivir ethoxysuccinate and Tamiflu®) on the model of influenza infection. Were proved, the high, efficiency of the innovative drug — oseltamivir ethoxysuccinate.Conclusion: the antigen-relevant adapted, influenza B virus (B/Novosibirsk/40/2017-MA strain) can be used, to assess the drug effectiveness against influenza, as well as an additional tool for predicting the effectiveness of the vaccine against drifting strains