Molecular and clinical aspects of embryotoxicity induced by acetylcholinesterase inhibitors
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Бурыкина Татьяна Ивановна (Доцент)
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Toxicology |
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Acetylcholinesterase inhibitors are widely used for a variety of medical, agricultural and public health purposes. Consequently, exposure is highly possible during lifetime. However, their systematic use raises concerns for the potential impact on the fetus and newborn since these substances may affect angiogenesis, the neonatal and maternal intensive care, neuroimmune function and response, mammary growth/lactation via cholinergic/non-cholinergic central and peripheral neuroendocrine pathways. New methodologies, neuroscientific technologies and research studies are needed to harness existing knowledge along with the proper management, availability for new acetylcholinesterase inhibitors, with stable pharmacodynamics and clinical outcomes.
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Публикация |
Mesenchymal Stem Cell Therapy For Ischemic Heart Disease: Advances And Challenges
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Коноплянников Михаил Анатольевич (ведущий научный сотрудник)
Котова Светлана Леонидовна (старший научный сотрудник)
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Current Pharmaceutical Design |
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Ischemic Heart Disease (IHD) has been recognized as the main cause of mortality in the modern world. Application of cell therapy technologies for the IHD treatment has been actively studied from the beginning of 2000s. The review is dedicated to the use of mesenchymal stem cells (MSC) in the therapy of IHD. The strategies of the MSC modification in vitro for improvement of their regenerative potential are extensively discussed, including preconditioning to enhance the cell survival, boosting their paracrine effect and manipulating their cardiomyogenic differentiation. The optimization of the MSC delivery and opportunities related to the use of biomaterials as cell carriers are also discussed. The results of the most important clinical studies on the MSC-based IHD therapy are presented, including those completed and published in the literature and the ongoing clinical trials registered at clinicaltrials.gov by June 2018.
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Role of a receptor-like kinase K1 in pea Rhizobium symbiosis development
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Порозов Юрий Борисович (Руководитель лабораторией биоинформатики, Доцент)
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Planta |
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The LysM receptor-like kinase K1 is involved in regulation of pea-rhizobial symbiosis development.
The ability of the crop legume Pisum sativum L. to perceive the Nod factor rhizobial signals may depend on several receptors that differ in ligand structure specificity. Identification of pea mutants defective in two types of LysM receptor-like kinases (LysM-RLKs), SYM10 and SYM37, featuring different phenotypic manifestations and impaired at various stages of symbiosis development, corresponds well to this assumption. There is evidence that one of the receptor proteins involved in symbiosis initiation, SYM10, has an inactive kinase domain. This implies the presence of an additional component in the receptor complex, together with SYM10, that remains unknown. Here, we describe a new LysM-RLK, K1, which may serve as an additional component of the receptor complex in pea. To verify the function of K1 in symbiosis, several P. sativum non-nodulating mutants in the k1 gene were identified using the TILLING approach. Phenotyping revealed the blocking of symbiosis development at an appropriately early stage, strongly suggesting the importance of LysM-RLK K1 for symbiosis initiation. Moreover, the analysis of pea mutants with weaker phenotypes provides evidence for the additional role of K1 in infection thread distribution in the cortex and rhizobia penetration. The interaction between K1 and SYM10 was detected using transient leaf expression in Nicotiana benthamiana and in the yeast two-hybrid system. Since the possibility of SYM10/SYM37 complex formation was also shown, we tested whether the SYM37 and K1 receptors are functionally interchangeable using a complementation test. The interaction between K1 and other receptors is discussed.
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How regularities of mortality statistics explain why we age despite having potentially ageless somatic stem cells
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Крутько Вячеслав Николаевич (Профессор )
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Biogerontology |
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Researchers working in the area of ageing have found numerous manifestations of this process at the molecular biological level, including DNA and protein damage, accumulation of metabolic by-products, lipids peroxidation, macromolecular cross-linking, non-enzymatic glycosylation, anti-oxidant/pro-oxidant misbalance, rising of pro-inflammatory cytokines, etc. This results in an increase in the proportion of cells in growth arrest, reduction of the rate of information processing, metabolic rate decrease, and decrease in rates of other processes characterizing dynamic aspects of the organism’s interaction with its environment. Such staggering multilevel diversity in manifestation of senescence precludes (without methodology of systems biology) development of a correct understanding of its primary causes and does not allow for developing approaches capable of postponing ageing or reducing organisms’ ageing rate to attain health preservation. Moreover, it turns out that damage production and damage elimination processes, the misbalance of which results in the ageing process, can to a large extent be regulated by external signals. The purpose of this report is to provide evidence supporting this view and its compatibility with the regularities of mortality statistics, because the main idea is very simple. Even potentially a non-senescent but certainly not immortal body must start to age under inadequate conditions (like a non-melting piece of ice taken out from the deepfreeze inevitably start to melt at the temperatures above zero Celsius). This conclusion is totally consistent with existing patterns of mortality and with agelessness potential of somatic stem cells. Therefore, there is no need to build up and explore too complicated, computational and sophisticated systems models of intrinsic ageing to understand the origin of this mainly extrinsic root cause of natural ageing, which is controlled by environmental signals. In our case, a simple phenomenological black-box approach with Input–Output analysis is ample. Here Input refers to the environmentally dependent initial force of mortality, whereas Output is a rate of age-related increase of mortality force.
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Clinical implications of hepatitis b virus rna and covalently closed circular dna in monitoring patients with chronic hepatitis b today with a gaze into the future: The field is unprepared for a sterilizing cure
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Чуланов Владимир Петрович (Профессор)
Волочкова Елена Васильевна (Заведующий кафедрой)
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GENES |
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Chronic hepatitis B virus (HBV) infection has long remained a critical global health issue. Covalently closed circular DNA (cccDNA) is a persistent form of the HBV genome that maintains HBV chronicity. Decades of extensive research resulted in the two therapeutic options currently available: nucleot(s)ide analogs and interferon (IFN) therapy. A plethora of reliable markers to monitor HBV patients has been established, including the recently discovered encapsidated pregenomic RNA in serum, which can be used to determine treatment end-points and to predict the susceptibility of patients to IFN. Additionally, HBV RNA splice variants and cccDNA and its epigenetic modifications are associated with the clinical course and risks of hepatocellular carcinoma (HCC) and liver fibrosis. However, new antivirals, including CRISPR/Cas9, APOBEC-mediated degradation of cccDNA, and T-cell therapies aim at completely eliminating HBV, and it is clear that the diagnostic arsenal for defining the long-awaited sterilizing cure is missing. In this review, we discuss the currently available tools for detecting and measuring HBV RNAs and cccDNA, as well as the state-of-the-art in clinical implications of these markers, and debate needs and goals within the context of the sterilizing cure that is soon to come. View Full-Text
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Peroxidase Activity of Human Hemoproteins: Keeping the Fire under Control
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Власова Ирина Ивановна (старший научный сотрудник)
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Molecules |
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The heme in the active center of peroxidases reacts with hydrogen peroxide to form highly reactive intermediates, which then oxidize simple substances called peroxidase substrates. Human peroxidases can be divided into two groups: (1) True peroxidases are enzymes whose main function is to generate free radicals in the peroxidase cycle and (pseudo)hypohalous acids in the halogenation cycle. The major true peroxidases are myeloperoxidase, eosinophil peroxidase and lactoperoxidase. (2) Pseudo-peroxidases perform various important functions in the body, but under the influence of external conditions they can display peroxidase-like activity. As oxidative intermediates, these peroxidases produce not only active heme compounds, but also protein-based tyrosyl radicals. Hemoglobin, myoglobin, cytochrome c/cardiolipin complexes and cytoglobin are considered as pseudo-peroxidases. Рeroxidases play an important role in innate immunity and in a number of physiologically important processes like apoptosis and cell signaling. Unfavorable excessive peroxidase activity is implicated in oxidative damage of cells and tissues, thereby initiating the variety of human diseases. Hence, regulation of peroxidase activity is of considerable importance. Since peroxidases differ in structure, properties and location, the mechanisms controlling peroxidase activity and the biological effects of peroxidase products are specific for each hemoprotein. This review summarizes the knowledge about the properties, activities, regulations and biological effects of true and pseudo-peroxidases in order to better understand the mechanisms underlying beneficial and adverse effects of this class of enzymes. View Full-Text
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HIBISCUS: Hydroxychloroquine for the secondary prevention of thrombotic and obstetrical events in primary antiphospholipid syndrome
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Макацария Александр Давидович (Заведующий кафедрой)
Бицадзе Виктория Омаровна (Профессор)
Хизроева Джамиля Хизриевна (Профессор)
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Autoimmunity Reviews |
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The relapse rate in antiphospholipid syndrome (APS) remains high, i.e. around 20%–21% at 5 years in thrombotic APS and 20–28% in obstetrical APS [2, 3]. Hydroxychloroquine (HCQ) appears as an additional therapy, as it possesses immunomodulatory and anti-thrombotic various effects [4–16]. Our group recently obtained the orphan designation of HCQ in antiphospholipid syndrome by the European Medicine Agency. Furthermore, the leaders of the project made the proposal of an international project, HIBISCUS, about the use of Hydroxychloroquine in secondary prevention of obstetrical and thrombotic events in primary APS. This study has been launched in several countries and at now, 53 centers from 16 countries participate to this international trial. This trial consists in two parts: a retrospective and a prospective study. The French part of the trial in thrombosis has been granted by the French Minister of Health in December 2015 (the academic trial independent of the pharmaceutical industry PHRC N PAPIRUS) and is coordinated by one of the members of the leading consortium of HIBISCUS.
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Oncobox bioinformatical platform for selecting potentially effective combinations of target cancer drugs using high-throughput gene expression data
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Буздин Антон Александрович (Заведующий лабораторией)
Сорокин Максим Игоревич (Научный сотрудник)
Поддубская Елена Владимировна (Старший научный сотрудник)
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Cancers |
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Sequential courses of anticancer target therapy lead to selection of drug-resistant cells, which results in continuous decrease of clinical response. Here we present a new approach for predicting effective combinations of target drugs, which act in a synergistic manner. Synergistic combinations of drugs may prevent or postpone acquired resistance, thus increasing treatment efficiency. We cultured human ovarian carcinoma SKOV-3 and neuroblastoma NGP-127 cancer cell lines in the presence of Tyrosine Kinase Inhibitors (Pazopanib, Sorafenib, and Sunitinib) and Rapalogues (Temsirolimus and Everolimus) for four months and obtained cell lines demonstrating increased drug resistance. We investigated gene expression profiles of intact and resistant cells by microarrays and analyzed alterations in 378 cancer-related signaling pathways using the bioinformatical platform Oncobox. This revealed numerous pathways linked with development of drug resistant phenotypes. Our approach is based on targeting proteins involved in as many as possible signaling pathways upregulated in resistant cells. We tested 13 combinations of drugs and/or selective inhibitors predicted by Oncobox and 10 random combinations. Synergy scores for Oncobox predictions were significantly higher than for randomly selected drug combinations. Thus, the proposed approach significantly outperforms random selection of drugs and can be adopted to enhance discovery of new synergistic combinations of anticancer target drugs. View Full-Text
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T-cadherin promotes autophagy and survival in vascular smooth muscle cells through MEK1/2/Erk1/2 axis activation
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Леш Клаус-Петер Юлиус (Заведующий лабораторией психиатрической нейробиологии)
Свистунов А.А (Первый проректор)
Несвижский Юрий Владимирович (Профессор)
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Cellular Signalling |
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Autophagy is an evolutionary conserved intracellular catabolic process of vital importance to cell and tissue homeostasis. Autophagy is implicated in the pathogenesis of atherosclerosis but participating cells, molecular mechanisms and functional outcomes have not been fully elucidated. T-cadherin, an atypical glycosylphosphatidylinositol-anchored member of the cadherin superfamily of adhesion molecules, is upregulated on smooth muscle cells (SMCs)1
in atherosclerotic lesions. Here, using rat and murine aortic SMCs as
experimental models, we surveyed the ability of T-cadherin to regulate
autophagy in SMCs during serum-starvation stress. Ectopic upregulation
of T-cadherin in SMCs resulted in augmented autophagy characterized by
increased autophagic flux, LC3-II abundance and autophagosome formation.
Analysis of signal transduction pathway effectors and use of specific
pharmacological inhibitors demonstrated that T-cadherin-associated
enhancement of the autophagic response to serum-deprivation was
dependent on MEK1/2/Erk1/2 activation and independent of
PI3K/Akt/mTORC1, reactive oxygen species or endoplasmic reticulum
stress. T-cadherin upregulation on SMCs conferred a survival advantage
during prolonged serum-starvation which was sensitive to inhibition of
MEK1/2/Erk1/2 by PD98059 or UO126 and to blockade of autophagy by
chloroquine. Loss of T-cadherin expression in SMCs diminished autophagy
responsiveness and compromised survival under conditions of
serum-starvation. Overall our findings have identified T-cadherin as a
novel positive regulator of autophagy and survival in SMCs.
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Analysis of the expression levels of genes that encode cytoskeletal proteins in Drosophila melanogaster larvae during micro- and hypergravity effect simulations of different durations
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Огнева И. В. (Профессор)
Свистунов А.А (Первый проректор)
Несвижский Юрий Владимирович (Профессор)
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Biophysics (Russian Federation) |
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The goal of this study was to find genes that encode cytoskeletal proteins that are potential candidates for the role of triggers in cell mechanosensitivity in the fruit fly. Centrifugation was used to simulate the hypergravity effects (2g group); the constantly changing orientation of the larvae in the gravity field was performed in order to simulate the effects of microgravity (0g group) for 1.5, 6, 12 and 24 h. mRNA levels of different genes that encode the components of both tubulin and actin cytoskeleton were assessed by qRT-PCR. In the 0g group the mRNA levels of beta-tubulin and Msps were reduced after 1.5 h of the exposure and remained unchanged until 12 h, while they exceeded the control level after 24 h. The mRNA level of chaperonin containing T-complex 1 polypeptide subunits recovered earlier: after 6 and 12 h of the microgravity exposure. At the same time, the hypergravity effect led to more significant changes in the mRNA level of TCP1 complex components compared with those of tubulin and Msps. The mRNA level of beta-actin isoforms under micro- and hypergravity was decreased up to 12 h of the exposure, however, it remained reduced under microgravity conditions, while it recovered (Act87E) and even exceeded (Act57B) the reference level under hypergravity conditions. The mRNA level of supervillin was almost unchanged. Under microgravity conditions the mRNA level of fimbrin was decreased (it recovered by the 24 h time point), while the mRNA level of alpha-actinin was significantly increased by the 12 h time point of the exposure and after 24 h it was reduced to the control level. In contrast, under hypergravity conditions the mRNA level of fimbrin initially increased, and after 24 h it dropped below the control, while the mRNA level of alpha-actinin was significantly reduced, and after 24 h it was higher than the reference level. Similar results were obtained earlier in the experiments in rodents, but similar dynamics were observed for alpha-actinin isoforms 1 and 4, although no changes were observed for fimbrin. Since Drosophila melanogaster has no alpha-actinin isoform 4, it is hypothesized that its role in the cell is played by fimbrin.
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Type 3 Diabetes Mellitus: A Novel Implication of Alzheimers Disease
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Тарасов В. В. (Директор)
Баранова А.М. (Ведущий научный сотрудник)
Несвижский Юрий Владимирович (Профессор)
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CURRENT TOPICS IN MEDICINAL CHEMISTRY |
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Background: The vascular endothelial growth factor (VEGF) is a neuroprotective cytokine that promotes neurogenesis and angiogenesis in the brain. In animal models, it has been shown that environmental enrichment and exercise, two non-pharmacological interventions that are beneficial decreasing the progression of Alzheimer disease (AD) and depressive-like behavior, enhance hippocampal VEGF expression and neurogenesis. Furthermore, the stimulation of VEGF expression promotes neurotransmission and synaptic plasticity processes such as neurogenesis. It is thought that these VEGF actions in the brain, may underly its beneficial therapeutic effects against psychiatric and other neurological conditions.
Conclusion: In this review, evidence linking VEGF deficit with the development of AD as well as the potential role of VEGF signaling as a therapeutic target for cotinine and other interventions in neurodegenerative conditions are discussed.
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Влияние введения смеси фосфотидилхолинов на состояние кортикального цитоскелета волокон камбаловидной мышцы крысы
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Огнева И. В. (Профессор)
Свистунов А.А. (Первый проректор)
Несвижский Юрий Владимирович (Профессор)
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Авиакосмическая и экологическая медицина |
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Цель работы - оценка состояния кортикального цитоскелета волокон камбаловидной мышцы крысы в результате 6-часового антиортостатического вывешивания на фоне предшествующего, в течение 3 сут по 100 мкг/сут, введения смеси фосфатидилхолинов (лецитина). Данные о периметре волокон, толщине подмембранного цитоскелета и доле разрывов в нем относительно периметра получали, используя иммуногистохимическую окраску на альфа-актинин-4. Периметр волокон оставался неизменным во всех группах исследования. При этом доля разрывов была выше в группах вывешивания, чем в соответствующих контрольных группах. Толщина окрашенного слоя, соответствующего подмембранному цитоскелету, не менялась в контрольных группах и в группе вывешивания без лецитина, однако в группе вывешивания на фоне лецитина она достоверно увеличивалась по сравнению с соответствующей контрольной группой на 27 % (p < 0,05) соответственно.
Purpose of the work was to assess the cortical cytoskeleton of m. soleus fibers from rats after 6-hr tail-suspension preceded by 3 days of phosphatidylcholine (lecithin) injections at a dose of 100 µг/d. Data about the fiber perimeter, submembrane cytoskeleton thickness and percentage of bonds breaks along the perimeter were obtained using the alpha-actinin-4 anti-body stain. The fiber perimeter remained unchanged in all groups under study. However, the percentage of breaks was high in suspension groups but not in respective groups of control. Thickness of the stained layer commensurate to the submembrane cytoskeleton did not change in the control groups and in the suspension group without lecithin injections but increased reliably in the suspension group that recieved injections by 27 % (p < 0.05) in comparison with its control.
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Similarity of female central (hypogonadotropic) hypogonadism and postmenopause
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Зекцер В.Ю. (Ассистент)
Свистунов А.А. (Первый проректор)
Несвижский Юрий Владимирович (Профессор)
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Climacteric |
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Objectives: Central (hypogonadotropic) hypogonadism in women could be a cause of persistent amenorrhea and hypoestrogenemia as observed in postmenopause. This study aimed to compare the clinical, hormonal and biochemical features in women with non-physiological (central hypogonadism) and physiological (postmenopause) hypoestrogenemia.
Methods: A total of 161 young women, median age 24.9 years (interquartile range (IQR) 21.2; 30.5) with central hypogonadism (with isolated hypogonadotropic hypogonadism, n = 76, and with hypopituitarism, n = 85), 53 healthy young women, median age 23.9 years (IQR 23.1; 28.0) and 50 healthy postmenopausal women, median age 56.0 years (IQR 53.1; 58.5), were examined. Psychoemotional, neurovegetative and urogenital symptoms, sex steroid levels, parameters of lipid and mineral metabolism were evaluated.
Results: In young women with central hypogonadism, the frequencies of psychoemotional, neurovegetative and urogenital complaints differed significantly from those in healthy young women and were similar to those in postmenopausal women. Concentrations of estradiol, testosterone, dehydroepiandrosterone sulfate, parameters of lipid and mineral metabolism as well as quality of life in women with central hypogonadism were not typical of healthy young women but were similar to those of postmenopausal women of middle/old age.
Conclusions: Despite the young age of women with central hypogonadism, clinical, hormonal and biochemical abnormalities were similar in many aspects to those in postmenopausal women at middle/old age. These revealed features could be considered as signs of premature aging in young amenorrheic women with low gonadotropin levels.
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Bilayer permeability during phase transition as an Erlang flow of hydrophilic pores resulting from diffusion in the radius space
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Аносов Андрей Анатольевич (Заведующий кафедрой)
Смирнова Елена Юрьевна (Доцент)
Несвижский Юрий Владимирович (Профессор)
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Biochemistry (Moscow) Supplement Series A: Membrane and Cell Biology |
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The formation of hydrophilic pores in lipid bilayer during phase transition is described using Smolukhowski's equation with an additional term of the hydrophobic pore source. This term is added to account for defects in lipid packing during phase transition. We assume that the temporal sequence of the pores is a stochastic process, a non -stationary second- order Erlang flow. Flow characteristics depend on the equation solution and determine the formation times of the hydrophilic pore. The calculated distribution of the durations of intervals between hydrophilic pore formations is in a good agree ment with experimental data published before. In terms of this model we describe the influence of poly (ethylene glycol) on the pore formation frequency.
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PUBMED DOI |
Single Mutation in Peptide Inhibitor of TRPV1 Receptor Changes Its Effect from Hypothermic to Hyperthermic Level in Animals
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Андреев Я. А. (Заведующий лабораторией Молекулярной и клеточной биологии)
Логашина Ю. А. (Младший научный сотрудник лаборатории Молекулярной и клеточной биологии)
Несвижский Юрий Владимирович (Профессор)
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Russian Journal of Bioorganic Chemistry |
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The TRPV1 receptor plays a significant role in many biological processes, such as perception of external temperature (above 43°C), inflammation development, and thermoregulation. Activation of TRPV1 leads to the pain occurrence and decrease in the body temperature, while inhibition of this receptor can lead to an increase in the temperature. The TRPV1 peptide modulators from sea anemone Heteractis crispa extract (APHC1 and APHC3) have been previously characterized as molecules, which generated a pronounced analgesic effect and a decrease in the body temperature in experimental animals. Using the combined APHC1 and APHC3 amino acid sequences, we have prepared a hybrid peptide molecule named A13 that contains all residues potentially important for the activity of the peptide precursors. Biological tests on animals have shown that the hybrid molecule not only combines the analgesic properties of both peptides but, unlike the peptide precursors, also raises the body temperature of experimental animals.
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Публикация |