В. В. Иванов scite author profile

Metabolic syndrome is accompanied by oxidative stress in animals and humans. The main source of ROS in experimental metabolic syndrome is NADPH oxidase and possibly adipocyte mitochondria. It is now documented that oxidative stress induces insulin resistance of adipocytes and increases secretion of leptin, MCP-1, IL-6, and TNF-α by adipocytes. It was established that oxidative stress induces a decrease in adiponectin production by adipocytes. It has also been shown that obesity itself can induce oxidative stress. Oxidative stress can cause an alteration of intracellular signaling in adipocytes that apparently leads to the formation of insulin resistance of adipocytes. Chronic stress, glucocorticoids, mineralocorticoids, angiotensin-II, TNF-α also play an important role in the pathogenesis of oxidative stress of adipocytes. Oxidative stress is not only a consequence of metabolic syndrome, but also a reason and a foundational link in the pathogenesis of the metabolic syndrome.

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Plasma metabolomics of the time resolved response to Opisthorchis felineus infection in an animal model (golden hamster, Mesocricetus auratus)

Kokova

Verhoeven

Perina

et al. 2020

PLoS Negl Trop Dis

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Background Opisthorchiasis is a hepatobiliary disease caused by flukes of the trematode family Opisthorchiidae. Opisthorchiasis can lead to severe hepatobiliary morbidity and is classified as a carcinogenic agent. Here we investigate the time-resolved metabolic response to Opisthorchis felineus infection in an animal model. Methodology Thirty golden hamsters were divided in three groups: severe infection (50 metacercariae/ hamster), mild infection (15 metacercariae/hamster) and uninfected (vehicle-PBS) groups. Each group consisted of equal number of male and female animals. Plasma samples were collected one day before the infection and then every two weeks up to week 22 after infection. The samples were subjected to 1 H Nuclear Magnetic Resonance (NMR) spectroscopy and multivariate statistical modelling.

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Changes in some Parameters of the Immune Response in Rats after Cold Stress

Goundasheva

Andonova

Иванов

1994

Journal of Veterinary Medicine, Series B

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The influence of stress upon the endocrine system and its relationship to the immune system have been studied. The simulation of chronic cold stress in rats caused an increase in ACTH, corticosterone, and T, and T, levels. The different hormonal background in stressed animals affected the characteristics and the intensity of the immune response, which was traced in dynamics and through the action of to9 ovine erythrocytes.A strong suppression of B-lymphocytes and of PFC count was observed. Increased Fcy-RFC-suppressing activity was also determined. The PFC suppression changed simultaneously with the rate and dynamics of Fcy-RFC-suppressing activity in animals under stress.In control rats (immunized with ovine erythrocytes only), the antigen caused insignificant changes in corticosterone level, which was not typical for stress and was not accompanied by suppressing activity in the immune response.

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High-fat, high-carbohydrate diet-induced experimental model of metabolic syndrome in rats

et al. 2021

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РЕЗЮМЕЦель. Разработать экспериментальную модель метаболического синдрома (МС) у крыс на основе высокожировой и высокоуглеводной диеты. Материалы и методы.Исследование выполнено на 20 самцах крыс линии Вистар, которые были распределены на контрольную и опытную группы. Крысы контрольной группы находились на стандартной диете. Крысы опытной группы в течение 12 нед получали высокожировую и высокоуглеводную диету, содержащую животный жир (17%), фруктозу (17%) и 20%-й раствор фруктозы вместо питьевой воды. В конце исследования у животных измеряли массу тела, артериальное давление (АД), проводили глюкозотолерантный (ГТТ) и инсулинотолерантный (ИТТ) тесты. В плазме крови определяли отдельные показатели липидного обмена, в печени -содержание триацилглицеролов (ТАГ) и холестерина (ХС).Результаты. Содержание животных на высокожировой и высокоуглеводной диете в течение 12 нед приводило к повышению АД, увеличению удельной массы висцеральной жировой ткани. Выполнение ГТТ и ИТТ позволило выявить у крыс с МС гипергликемию, нарушение толерантности к глюкозе и инсулинорезистентность. Было обнаружено увеличение концентрации ТАГ в плазме крови крыс опытной группы, при этом уровень общего ХС не отличался от контроля. У крыс с МС наблюдалось увеличение удельной массы печени, а также содержания в ней ТАГ и ХС.Заключение. Полученная экспериментальная модель диет-индуцированного метаболического синдрома воспроизводит большинство типичных признаков МС у человека и может быть полезна в изучении патофизиологических основ развития МС и методов его профилактики и лечения. Ключевые слова: метаболический синдром, высокожировая и высокоуглеводная диета, ожирение, дислипидемия, гипергликемия, инсулинорезистентность. Конфликт интересов. Авторы декларируют отсутствие явных и потенциальных конфликтов интересов, связанных с публикацией настоящей статьи. Источник финансирования. Исследование выполнено при финансовой поддержке РФФИ и Томской области в рамках научного проекта № 19-415-703015 (№ 18-44-700009, 18-44703008) и Совета по грантам президента Российской Федерации (МК-143.2020.4). Соответствие принципам этики. Исследование выполнено с соблюдением принципов гуманности, изложенных в директивах Европейского сообщества (86/609/ЕЕС) и Хельсинкской декларации. Исследование одобрено локальным этическим комитетом СибГМУ (протокол № 7793 от 27.05.2019).

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Crateside — A new flavonol glycoside from Crataegus monogyna and C. pentagyna

Nikolov¹,

Batyuk²,

Иванов³

1973

Chem Nat Compd

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The experimental model of type 2 diabetes mellitus caused by a high-fat diet with low-dose streptozotocin in rats

et al. 2020

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Impact of cold adaptation on cardiac tolerance to ischemia-reperfusion. Role of glucocorticoid and thyroid hormones

Tsibulnikov

Маслов

Naryzhnaya

et al. 2019

gpb

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We have established that the continuous cold exposure (CCE, 4°C, 4 weeks) causes cold adaptation, increases systolic blood pressure, exerts infarct-limiting effect during coronary artery occlusion (45 min) and reperfusion (2 h). The CCE increases adrenal weight, heart weight and triiodothyronine (T 3 ) level but does not change thymus, spleen weight, serum cortisol, corticosterone and thyroxin (T 4 ) levels. The long-term (4°C, 8 h/day, 4 weeks) intermittent cold exposure (LICE) induces adaptation to the cold and increases T 4 level. The brief (4°C, 1.5 h/day, 4 weeks) intermittent cold exposure (BICE) also evokes adaptation to the cold but had no effect on the blood pressure, the cardiac tolerance to ischemia/reperfusion, and does not change thymus, spleen weight, serum cortisol, corticosterone, T 3 and T 4 levels.

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Ascorbic acid glucoside reduces neurotoxicity and glutathione depletion in mouse brain induced by nitrotriazole radiosensitazer

et al. 2013

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