The Role of Neuronal Factors in the Epigenetic Reprogramming of Microglia in the Normal and Diseased Central Nervous System
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11.10.2019 |
Veremeyko T.
Yung A.
Dukhinova M.
Strekalova T.
Ponomarev E.
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Frontiers in Cellular Neuroscience |
10.3389/fncel.2019.00453 |
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© Copyright © 2019 Veremeyko, Yung, Dukhinova, Strekalova and Ponomarev. Twenty years ago, the scientific community exhibited relatively little interest in the study of microglial cells. However, recent technical and conceptual advances in this field have greatly increased interest in the basic biology of these cells within various neurodegenerative diseases, including multiple sclerosis, Alzheimer’s disease, and traumatic brain/spinal cord injuries. The main functions of these cells in the normal central nervous system (CNS) remain poorly understood, despite considerable elucidation of their roles in pathological conditions. Microglia populate the brain before birth and remain in close lifelong contact with CNS-resident cells under the influence of the local microenvironment. Within the CNS parenchyma, microglia actively interact with two main cell types, astrocytes and neurons, which produce many factors that affect microglia phenotypes in the normal CNS and during neuroinflammation. These factors include interleukin (IL)-34, macrophage colony-stimulating factor, transforming growth factor-β, and IL-4, which promote microglial expansion, survival, and differentiation to an anti-inflammatory phenotype in the normal CNS. Under inflammatory conditions, however, astrocytes produce several pro-inflammatory factors that contribute to microglial activation. The interactions of microglia with neurons in the normal and diseased CNS are especially intriguing. Microglia are known to interact actively with neurons by facilitating axonal pruning during development, while neurons provide specific factors that alter microglial phenotypes and functions. This review focuses mainly on the roles of soluble neuronal factors that affect microglial phenotypes and functions and the possible involvement of these factors in the pathology of neurodegenerative diseases.
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Paip2 is localized to active promoters and loaded onto nascent mRNA in Drosophila
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18.07.2018 |
Kachaev Z.
Lebedeva L.
Kozlov E.
Toropygin I.
Schedl P.
Shidlovskii Y.
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Cell Cycle |
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© 2018, © 2018 Informa UK Limited, trading as Taylor & Francis Group. Paip2 (Poly(A)-binding protein–interacting protein 2) is a conserved metazoan-specific protein that has been implicated in regulating the translation and stability of mRNAs. However, we have found that Paip2 is not restricted to the cytoplasm but is also found in the nucleus in Drosophila embryos, salivary glands, testes, and tissue culture cells. Nuclear Paip2 is associated with chromatin, and in chromatin immunoprecipitation experiments it maps to the promoter regions of active genes. However, this chromatin association is indirect, as it is RNA-dependent. Thus, Paip2 is one more item in the growing list of translation factors that are recruited to mRNAs co-transcriptionally.
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Design, in silico prioritization and biological profiling of apoptosis-inducing lactams amenable by the Castagnoli-Cushman reaction
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15.05.2018 |
Krasavin M.
Gureyev M.
Dar'in D.
Bakulina O.
Chizhova M.
Lepikhina A.
Novikova D.
Grigoreva T.
Ivanov G.
Zhumagalieva A.
Garabadzhiu A.
Tribulovich V.
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Bioorganic and Medicinal Chemistry |
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© 2018 Elsevier Ltd Five lactam chemotypes amenable by the Castagnoli-Cushman reaction of imines and cyclic anhydrides have been investigated for their ability to activate p53 tumor suppressing transcription factor thus induce apoptosis in p53 + cancer cells. A virtual library of 1.07 million chemically diverse compounds based on these scaffolds was subjected to in silico screening first. The compounds displaying high docking score were visually prioritized to identify the best-fitting compounds, i. e. the ones which adequately mimic the interactions of clinical candidate inhibitor Nutlin-3a. These 38 compounds were synthesized and tested for apoptosis induction in p53 + H116 cancer cells to identify 9 potent apoptosis-inducers (two of them exceeding the activity of Nutlin-3a) which belonged to four different chemotypes. The activation of p53 involved in the proapoptotic activity observed was supported by effective induction of EGFP expression in human osteocarcinoma U2OS-pLV reporter cell line. Moreover, the two most potent apoptosis inducers displayed antiproliferative profile identical to several known advanced p53 activators: they inhibited the growth of p53 +/+ HCT116 cells in much lower concentration range compared to p53 −/− HCT116 cells.
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Structure and Functions of the Mediator Complex
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01.04.2018 |
Putlyaev E.
Ibragimov A.
Lebedeva L.
Georgiev P.
Shidlovskii Y.
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Biochemistry (Moscow) |
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© 2018, Pleiades Publishing, Ltd. Mediator is a key factor in the regulation of expression of RNA polymerase II-transcribed genes. Recent studies have shown that Mediator acts as a coordinator of transcription activation and participates in maintaining chromatin architecture in the cell nucleus. In this review, we present current concepts on the structure and functions of Mediator.
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The role of DNA-methyltransferases in the life cycle of hepatitis b virus and pathogenesis of chronic hepatitis b
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01.01.2018 |
Kostyushev D.
Zueva A.
Brezgin S.
Lipatnikov A.
Volchkova E.
Maleyev V.
Chulanov V.
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Voprosy Virusologii |
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© 2017 Izdatel'stvo Meditsina. All rights reserved. Chronic hepatitis B is caused by a persistent form of hepatitis B virus, covalentiy closed circular DNA (cccDNA). Stability of cccDNA is associated with intracellular localization of cccDNA and formation of minichromosome, regu-lated by epigenetic mechanisms. One of the key mechanisms in epigenetics is methylation of DNA on CpG islands. Expression levels of DNA-methyltransferases (DNMTs) in chronic hepatitis B patients were shown to be upregu-lated. Nevertheless, the role of DNMTs in the life cycle of HBV and their effects on the cell remain elusive. In this review, we discuss latest achievements on the role of DNMTs in chronic hepatitis B and HBV in vitro models.
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