Your search keyword '"Vasyutina ML"' showing total 5 results

1. P81 Antibody to Cardiotonic Steroid Reduces Blood Pressure and Vascular Fibrosis in Preeclampsia

Author

Agalakova, NI, Reznik, VA, Nadei, OV, Ershov, IA, Rassokha, OS, Vasyutina, ML, Galagudza, MM, and Bagrov, AY

Published

2019

2. Understanding complex dynamics of behavioral, neurochemical and transcriptomic changes induced by prolonged chronic unpredictable stress in zebrafish.

Author

Demin KA, Lakstygal AM, Krotova NA, Masharsky A, Tagawa N, Chernysh MV, Ilyin NP, Taranov AS, Galstyan DS, Derzhavina KA, Levchenko NA, Kolesnikova TO, Mor MS, Vasyutina ML, Efimova EV, Katolikova N, Prjibelski AD, Gainetdinov RR, de Abreu MS, Amstislavskaya TG, Strekalova T, and Kalueff AV

Subjects

Animals, Antidepressive Agents pharmacology, Anxiety drug therapy, Anxiety physiopathology, Behavior, Animal drug effects, Brain drug effects, Brain physiopathology, Disease Models, Animal, Female, Fluoxetine pharmacology, Male, Stress, Psychological drug therapy, Transcriptome drug effects, Behavior, Animal physiology, Stress, Psychological physiopathology, Transcriptome physiology, Zebrafish physiology

Abstract

Stress-related neuropsychiatric disorders are widespread, debilitating and often treatment-resistant illnesses that represent an urgent unmet biomedical problem. Animal models of these disorders are widely used to study stress pathogenesis. A more recent and historically less utilized model organism, the zebrafish (Danio rerio), is a valuable tool in stress neuroscience research. Utilizing the 5-week chronic unpredictable stress (CUS) model, here we examined brain transcriptomic profiles and complex dynamic behavioral stress responses, as well as neurochemical alterations in adult zebrafish and their correction by chronic antidepressant, fluoxetine, treatment. Overall, CUS induced complex neurochemical and behavioral alterations in zebrafish, including stable anxiety-like behaviors and serotonin metabolism deficits. Chronic fluoxetine (0.1 mg/L for 11 days) rescued most of the observed behavioral and neurochemical responses. Finally, whole-genome brain transcriptomic analyses revealed altered expression of various CNS genes (partially rescued by chronic fluoxetine), including inflammation-, ubiquitin- and arrestin-related genes. Collectively, this supports zebrafish as a valuable translational tool to study stress-related pathogenesis, whose anxiety and serotonergic deficits parallel rodent and clinical studies, and genomic analyses implicate neuroinflammation, structural neuronal remodeling and arrestin/ubiquitin pathways in both stress pathogenesis and its potential therapy.

Published

2020

3. Antibody against Na/K-ATPase Inhibitor Lowers Blood Pressure and Increases Vascular Fli1 in Experimental Preeclampsia.

Author

Agalakova NI, Reznik VA, Nadei OV, Ershov IA, Rassokha OS, Vasyutina ML, Ivanov DO, Adair CD, Galagudza MM, and Bagrov AY

Subjects

Animals, Bufanolides metabolism, Disease Models, Animal, Female, Fibrosis, Pre-Eclampsia enzymology, Pre-Eclampsia pathology, Pre-Eclampsia physiopathology, Pregnancy, Rats, Sprague-Dawley, Sodium Chloride, Dietary, Umbilical Arteries enzymology, Umbilical Arteries pathology, Umbilical Arteries physiopathology, Up-Regulation, Antibodies pharmacology, Antihypertensive Agents pharmacology, Blood Pressure drug effects, Bufanolides antagonists & inhibitors, Pre-Eclampsia prevention & control, Proto-Oncogene Protein c-fli-1 metabolism, Sodium-Potassium-Exchanging ATPase metabolism, Umbilical Arteries drug effects

Abstract

Background: Previous studies implicated cardiotonic steroids, including Na/K-ATPase inhibitor marinobufagenin (MBG), in the pathogenesis of preeclampsia (PE). We demonstrated that MBG induces fibrosis via mechanism involving inhibition of Fli1, a nuclear transcription factor and a negative regulator of collagen-1 synthesis. We hypothesized that PE blockade of increased MBG with antibody would lessen the fibrosis of umbilical arteries and lower the blood pressure in rats with PE., Methods: We tested 36 pregnant Sprague-Dawley rats in which 12 were made hypertensive by 1.8% Na supplementation (days 6-19 of gestation), 12 pregnant rats served controls. At day 19, PE rats received one intraperitoneal injection of polyclonal anti-MBG-4 antibody (0.5 ug/ml) for 4 hours., Results: PE was associated with higher blood pressure (117 ± 2 vs. 107 ± 2 mm Hg; P < 0.01), plasma MBG levels (1.54 ± 0.34 vs. 0.49 ± 0.11 nmol/L; P < 0.01), protein excretion (26 vs. 12 mg/24 hours), sFlt-1 (3-fold), decrease in Fli1 (7-fold) and increase in collagen-1 in aorta (4-fold) vs. control rats (all P < 0.01). In 12 rats treated with polyclonal anti-MBG-4 antibody blood pressure dropped (93 ± 3 mm Hg) and Fli1 was decreased much less (2-fold; P < 0.01 vs. nontreated rats)., Conclusions: These results demonstrate that in experimental PE elevated MBG level is implicated in umbilical fibrosis via suppression of Fli1., (© American Journal of Hypertension, Ltd 2019. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2020

4. The zebrafish tail immobilization (ZTI) test as a new tool to assess stress-related behavior and a potential screen for drugs affecting despair-like states.

Author

Demin KA, Lakstygal AM, Chernysh MV, Krotova NA, Taranov AS, Ilyin NP, Seredinskaya MV, Tagawa N, Savva AK, Mor MS, Vasyutina ML, Efimova EV, Kolesnikova TO, Gainetdinov RR, Strekalova T, Amstislavskaya TG, de Abreu MS, and Kalueff AV

Subjects

Animals, Anxiety drug therapy, Behavior, Animal, Disease Models, Animal, Motor Activity, Pharmaceutical Preparations, Zebrafish

Abstract

Background: Affective disorders, especially depression and anxiety, are highly prevalent, debilitating mental illnesses. Animal experimental models are a valuable tool in translational affective neuroscience research. A hallmark phenotype of clinical and experimental depression, the learned helplessness, has become a key target for 'behavioral despair'-based animal models of depression. The zebrafish (Danio rerio) has recently emerged as a promising novel organism for affective disease modeling and CNS drug screening. Despite being widely used to assess stress and anxiety-like behaviors, there are presently no clear-cut despair-like models in zebrafish., New Method: Here, we introduce a novel behavioral paradigm, the zebrafish tail immobilization (ZTI) test, as a potential tool to assess zebrafish despair-like behavior. Conceptually similar to rodent 'despair' models, the ZTI protocol involves immobilizing the caudal half of the fish body for 5 min, leaving the cranial part to move freely, suspended vertically in a small beaker with water., Results: To validate this model, we used exposure to low-voltage electric shock, alarm pheromone, selected antidepressants (sertraline and amitriptyline) and an anxiolytic drug benzodiazepine (phenazepam), assessing the number of mobility episodes, time spent 'moving', total distance moved and other activity measures of the cranial part of the body, using video-tracking. Both electric shock and alarm pheromone decreased zebrafish activity in this test, antidepressants increased it, and phenazepam was inactive. Furthermore, a 5-min ZTI exposure increased serotonin turnover, elevating the 5-hydroxyindoleacetic acid/serotonin ratio in zebrafish brain, while electric shock prior to ZTI elevated both this and the 3,4-dihydroxyphenylacetic acid/dopamine ratios. In contrast, preexposure to antidepressants sertraline and amitriptyline lowered both ratios, compared to the ZTI test-exposed fish., Comparison With Existingmethod(s): The ZTI test is the first despair-like experimental model in zebrafish., Conclusions: Collectively, this study suggests the ZTI test as a potentially useful protocol to assess stress-/despair-related behaviors, potentially relevant to CNS drug screening and behavioral phenotyping of zebrafish., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2020

5. Silicon-containing nanocarriers for targeted drug delivery: synthesis, physicochemical properties and acute toxicity.

Author

Sonin DL, Korolev DV, Postnov VN, Naumysheva EB, Pochkaeva EI, Vasyutina ML, and Galagudza MM

Subjects

Adsorption, Drug Liberation, Nanoparticles toxicity, Silicon Dioxide chemistry, Silicon Dioxide metabolism, Drug Carriers chemistry, Drug Delivery Systems methods, Nanoparticles chemistry, Silicon chemistry, Silicon Dioxide chemical synthesis, Silicon Dioxide toxicity

Abstract

Silicon-containing nanoparticles (NPs) are considered promising drug carriers for targeted drug delivery. In this study, we investigated the physical and chemical properties of silicon-containing NPs, including silica and organomodified silica NPs (SiO2NPs and OrSiO2NPs, respectively), with different surface modifications, with the aim of increasing drug-loading efficiency. In addition, we described the original synthesis methods of different sizes of OrSiO2NPs, as well as new hybrid OrSiO2NPs with a silica core (SiO2 + OrSiO2NPs). Animal experiments revealed that the silicon-containing NPs investigated were non-toxic, as evidenced by a lack of hemodynamic response after intravenous administration. Bioelimination studies showed rapid renal excretion of OrSiO2NPs. In drug release kinetics studies, adenosine was immobilized on SiO2NPs using three different approaches: physical adsorption, ionic, and covalent bonding. We observed that the rate of adenosine desorption critically depended on the type of immobilization; therefore, adenosine release kinetics can be adjusted by SiO2NP surface modification technique. Adsorption of adenosine on SiO2 + OrSiO2NPs resulted in a significant attenuation of adenosine-induced hypotension and bradycardia.

Published

2016