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1. Srsf1 and Elavl1 act antagonistically on neuronal fate choice in the developing neocortex by controlling TrkC receptor isoform expression

Author

Weber, A Ioana, primary, Parthasarathy, Srinivas, additional, Borisova, Ekaterina, additional, Epifanova, Ekaterina, additional, Preußner, Marco, additional, Rusanova, Alexandra, additional, Ambrozkiewicz, Mateusz C, additional, Bessa, Paraskevi, additional, Newman, Andrew G, additional, Müller, Lisa, additional, Schaal, Heiner, additional, Heyd, Florian, additional, and Tarabykin, Victor, additional

Published
2023
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5. Zeb2 as a regulator of adhesion interplay in the developing mouse neocortex

Author

Epifanova, Ekaterina, Brecht, Michael, Rosario, Marta, and Zampieri, Niccolo

Subjects
WX 6501, Integrins, Neuronalen Adhäsion, Cdh6, 570 Biologie, WX 6504, Neuronal adhesion, Neocortical development, WW 3880, ddc:570, Entwicklung des Neokortex, Zeb2, WW 2520, Nrp1
Abstract

Der menschliche Neokortex wird als Hauptsitz kognitiver Funktionen höherer Ordnung angesehen. Das Verständnis der neokortikalen Entwicklung anderer Säugetierarten ist von wesentlicher Bedeutung, um die menschliche Gehirnorganisation im Allgemeinen und neurologische Entwicklungsstörungen im Speziellen besser zu verstehen. In dieser Arbeit habe ich die Rolle des mit dem Mowat-Wilson-Syndrom assoziierten Transkriptionsfaktors Zeb2 in der neokortikalen Entwicklung der Maus untersucht. Ich habe nachgewiesen, dass Zeb2 die Adhäsion neugeborener kortikaler Neurone sowohl vor als auch nach der radialen Migration über zwei unabhängige molekulare Wege reguliert. Hierbei konnte ich zeigen, dass die Adhäsion im Vorfeld der radialen Migration über den molekularen Zeb2-Nrp1-Itgβ1- Weg reguliert wird. Zeb2 unterdrückt zell-intrinsisch die neuronale Adhäsion an die extrazelluläre Matrix und kontrolliert dadurch den Beginn der radialen Migration, die Dauer des multipolaren Stadiums sowie die Motilität multipolarer Neurone, ohne die radiale Migration selbst oder das spätere Zellschicksal innerhalb der kortikalen Schichten zu beeinflussen. Hierbei sind die apikalen Dendriten der Neurone normalerweise parallel zueinander und senkrecht zur Hirnhautoberfläche ausgerichtet. Ich habe gezeigt, dass die Ausrichtung der Neurone im Anschluss an ihre Migration von der Adhäsion der Zellen untereinander sowie zur extrazellulären Matrix abhängt und dieser Prozess unabhängig von der radialen Migration erfolgt. Zeb2 koordiniert das gesamt e Repertoire dieser postmigratorischen Adhäsion über den molekularen Zeb2-Cdh6-Itgβ1-Weg. Zusammenfassend zeigt diese Studie die Bedeutung der neuronalen Adhäsion während der neokortikalen Entwicklung auf und entschlüsselt die Regulationsmechanismen für die Initiierung der radialen Migration sowie für die postmigratorische Orientierung der Neurone der oberen kortikalen Schichten. The human brain is a highly sophisticated biological structure and its formation is a highly orchestrated process. The human neocortex, in particular, is the main place of higher-order cognitive functions. Understanding the neocortical development of other mammalian species is essential for understanding brain organisation in common neurodevelopmental disorders in particular. Here I studied the role of Mowat-Wilson syndrome-associated transcription factor Zeb2 in mouse neocortical development. I have shown in this study that Zeb2 regulates adhesion of new born cortical neurons both before and after radial locomotion via two independent molecular pathways. I have shown that adhesion prior to radial locomotion is tightly regulated via Zeb2-Nrp1-Itgβ1 molecular pathway. Zeb2 cell-intrinsically suppresses adhesion of neurons to the extracellular matrix and therefore restricts the initiation of radial locomotion, multipolar stage duration and motility of multipolar neurons without affecting radial locomotion itself and layer cell fate acquisition. Once radial migration is finished neurons have to form apical dendrite and establish contact with the meningeal surface. Normally, apical dendrites of neurons are oriented parallel to each other and perpendicular to the meningeal surface. I have shown that postmigratory orientation of neurons is dependent on cell-to-cell and cell-to-extracellular matrix adhesion and occurs independently from radial migration. Zeb2 orchestrates the whole repertoire of adhesion of neurons completed radial migration via Zeb2-Cdh6-Itgβ1 molecular pathway. I have demonstrated that Cadherin 6 balance is crucial for establishment of postmigratory neuronal orientation under normal conditions. Taken together, this study has revealed the importance of neuronal adhesion during neocortical development and separated the regulation mechanisms for initiation of radial migration and postmigratory orientation of upper layer neurons.

Published
2022

6. Adhesion dynamics in the neocortex determine the start of migration and the post-migratory orientation of neurons

Author

Epifanova, Ekaterina, primary, Salina, Valentina, additional, Lajkó, Denis, additional, Textoris-Taube, Kathrin, additional, Naumann, Thomas, additional, Bormuth, Olga, additional, Bormuth, Ingo, additional, Horan, Stephen, additional, Schaub, Theres, additional, Borisova, Ekaterina, additional, Ambrozkiewicz, Mateusz C., additional, Tarabykin, Victor, additional, and Rosário, Marta, additional

Published
2021
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7. Assessment of suffosion in the territory of settlement Sabetta, the Yamal Peninsula

Author

Strokova, Ludmila Aleksandrovna and Epifanova, Ekaterina Aleksandrovna

Subjects
Materials Science (miscellaneous), Management, Monitoring, Policy and Law, Natural (archaeology), susceptibility, картографирование, sandy soils, particle size distribution, mapping, Waste Management and Disposal, полуостров Ямал, frequency ratio method, Settlement (structural), степень неоднородности, гранулометрический состав, danger, Geotechnical Engineering and Engineering Geology, Soil gradation, suffosion, восприимчивость, Fuel Technology, Thematic map, опасность, Soil water, Spatial ecology, Economic Geology, Alluvium, uniformity coefficient, Stage (hydrology), Physical geography, Geology, суффозия, пески, суффозионная опасность
Abstract

Актуальность. Активное освоение полуострова Ямал приводит к трансформации геологической среды, часто сопровождающейся активизацией природных и техноприродных процессов. Многочисленные исследования посвящены описанию геокриологических процессов этого региона. В данной работе внимание уделяется особому слабоизученному процессу - суффозии, на основе изучения гранулометрического состава песков, широко распространенных на территории Ямала. Целью работы является оценка суффозионной устойчивости грунтов и определение пространственных закономерностей распространения суффозионно-опасных грунтов в районе населенного пункта Сабетта. Методы. На первом этапе в ArcGIS составлены тематические карты факторов, обусловливающих развитие суффозии. Было выбрано четыре фактора: уклон, кривизна поверхности, экспозиция склонов, геологическое строение территории. На втором этапе проведена обработка данных по гранулометрическому составу грунтов. Были определены: степень неоднородности гранулометрического состава, максимальный размер суффозионных частиц, степень суффозионности грунтов основных стратиграфо-генетических комплексов, распространенных в районе. Оценка суффозионности песчаных грунтов выполнена по двум методикам. Составлена инвентаризационная карта проявлений суффозионно-опасных песков. Заключительным этапом стало составление прогнозной карты восприимчивости территории к суффозии на основе изучения пространственных закономерностей распределения проявлений с учетом веса обусловливающих ее факторов. Результаты работы и область их применения. Наиболее предрасположены к суффозии зоны развития современных аллювиальных отложений, средней восприимчивостью характеризуется территория второй надпойменной террасы и с уклонами поверхности более 12 градусов, наименее предрасположена к суффозии территория развития современных аллювиально-морских отложений. Полученные данные по степени суффозионности песчаных грунтов рекомендуется использовать при проектировании инженерных сооружений. Используемую в работе технологию построения карт восприимчивости к суффозии рекомендуется опробовать при изучении геокриологических процессов, в первую очередь, бугров пучения. The active development of the Yamal Peninsula leads to the transformation of the geological environment, often accompanied by the activation of natural and technological processes. Numerous studies are devoted to the description of geocryological processes in this region. In this work, we paid attention to a special poorly studied process - suffusion, based on the study of the grain size distribution of sands that are widely distributed in the territory of Yamal. The main aim of the research is to assess the suffusion stability of soils and determine the spatial patterns of the distribution of suffusionhazardous soils in the area of the settlement Sabetta. Methods. At the first stage, we compiled the thematic maps of the factors that determine the development of suffusion in ArcGIS. We chose four factors, namely: the slope, the curvature of the surface, the exposure of the slopes, and the geological structure of the territory. At the second stage, we processed the data on the grain size distribution of soils. The following factors were determined: uniformity coefficient, the maximum size of suffosion particles, and the degree of soil suffosion of the main stratigraphic-genetic complexes distributed in the area. The assessment of the suffusion of sandy soils was performed using two methods. An inventory map of the manifestations of suffusion-hazardous sands has been compiled. The final stage was the preparation of a forecast map of the territory's susceptibility to suffusion based on the study of spatial patterns of the distribution of its manifestations. Results. The zones of development of modern alluvial deposits are the most prone to suffusion, the territory of the second abovefloodplain terrace is characterized by an average susceptibility and surface slopes of more than 12 degrees, the territory of development of modern alluvial-marine deposits is the least susceptible to suffusion. We recommended using the obtained data on the degree of suffosion of sandy and coarse-grained soils in the design of engineering structures. We recommended using the technology of susceptibility mapping in the study of geocryological processes, first of all, heaving mounds.

Published
2021

8. Olig3 regulates early cerebellar development

Author

Lowenstein, Elijah D, primary, Rusanova, Aleksandra, additional, Stelzer, Jonas, additional, Hernaiz-Llorens, Marc, additional, Schroer, Adrian E, additional, Epifanova, Ekaterina, additional, Bladt, Francesca, additional, Isik, Eser Göksu, additional, Buchert, Sven, additional, Jia, Shiqi, additional, Tarabykin, Victor, additional, and Hernandez-Miranda, Luis R, additional

Published
2021
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9. Author response: Olig3 regulates early cerebellar development

Author

Lowenstein, Elijah D, primary, Rusanova, Aleksandra, additional, Stelzer, Jonas, additional, Hernaiz-Llorens, Marc, additional, Schroer, Adrian E, additional, Epifanova, Ekaterina, additional, Bladt, Francesca, additional, Isik, Eser Göksu, additional, Buchert, Sven, additional, Jia, Shiqi, additional, Tarabykin, Victor, additional, and Hernandez-Miranda, Luis R, additional

Published
2021
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10. Olig3 acts as a master regulator of cerebellar development

Author

Lowenstein, Elijah D., primary, Rusanova, Aleksandra, additional, Stelzer, Jonas, additional, Hernaiz-Llorens, Marc, additional, Schroer, Adrian E., additional, Epifanova, Ekaterina, additional, Bladt, Francesca, additional, Isik, Eser Göksu, additional, Jia, Shiqi, additional, Tarabykin, Victor, additional, and Hernandez-Miranda, Luis R., additional

Published
2020
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13. Interleukin-10 restores glutamate receptor-mediated Ca2+-signaling in brain circuits under loss of Sip1 transcription factor.

Author

Turovskaya, Maria V., Epifanova, Ekaterina A., Tarabykin, Victor S., Babaev, Alexei A., and Turovsky, Egor A.

Subjects
*TRANSCRIPTION factors, *NEURAL circuitry, *INTERLEUKIN-10, *EPILEPTIFORM discharges, *PROTEIN kinases, *GLUTAMIC acid
Abstract

This study aimed to investigate the connection between the mutation of the Sip1 transcription factor and impaired Ca2+-signaling, which reflects changes in neurotransmission in the cerebral cortex in vitro. We used mixed neuroglial cortical cell cultures derived from Sip1 mutant mice. The cells were loaded with a fluorescent ratiometric calcium-sensitive probe Fura-2 AM and epileptiform activity was modeled by excluding magnesium ions from the external media or adding a GABA(A) receptor antagonist, bicuculline. Intracellular calcium dynamics were recorded using fluorescence microscopy. To identify the level of gene expression, the Real-Time PCR method was used. It was found that cortical neurons isolated from homozygous (Sip1fl/fl) mice with the Sip1 mutation demonstrate suppressed Ca2+ signals in models of epileptiform activity in vitro. Wild-type cortical neurons are characterized by synchronous high-frequency and high-amplitude Ca2+ oscillations occurring in all neurons of the network in response to Mg2+-free medium and bicuculline. But cortical Sip1fl/fl neurons only single Ca2+ pulses or attenuated Ca2+ oscillations are recorded and only in single neurons, while most of the cell network does not respond to these stimuli. This signal deficiency of Sip1fl/fl neurons correlates with a suppressed expression level of the genes encoding the subunits of NMDA, AMPA, and KA receptors; protein kinases PKA, JNK, CaMKII; and also the transcription factor Hif1α. These negative effects were partially abolished when Sip1fl/fl neurons are grown in media with anti-inflammatory cytokine IL-10. IL-10 increases the expression of the above-mentioned genes but not to the level of expression in wild-type. At the same time, the amplitudes of Ca2+ signals increase in response to the selective agonists of NMDA, AMPA and KA receptors, and the proportion of neurons responding with Ca2+ oscillations to a Mg2+-free medium and bicuculline increases. IL-10 restores neurotransmission in neuronal networks with the Sip1 mutation by regulating the expression of genes encoding signaling proteins. [ABSTRACT FROM AUTHOR]

Published
2022
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16. Mutation in the Sip1 transcription factor leads to a disturbance of the preconditioning of AMPA receptors by episodes of hypoxia in neurons of the cerebral cortex due to changes in their activity and subunit composition. The protective effects of interleukin-10

Author

Turovskaya, Maria V., primary, Zinchenko, Valery P., additional, Babaev, Alexei A., additional, Epifanova, Ekaterina A., additional, Tarabykin, Victor S., additional, and Turovsky, Egor A., additional

Published
2018
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20. Interleukin-10 restores glutamate receptor-mediated Ca 2+ -signaling in brain circuits under loss of Sip1 transcription factor.

Author

Turovskaya MV, Epifanova EA, Tarabykin VS, Babaev AA, and Turovsky EA

Subjects
Animals, Bicuculline pharmacology, Cells, Cultured, Cerebral Cortex physiology, Mice, N-Methylaspartate, Receptors, Glutamate metabolism, Transcription Factors metabolism, alpha-Amino-3-hydroxy-5-methyl-4-isoxazolepropionic Acid, Calcium metabolism, Interleukin-10 metabolism
Abstract

Objective: This study aimed to investigate the connection between the mutation of the Sip1 transcription factor and impaired Ca 2+ -signaling, which reflects changes in neurotransmission in the cerebral cortex in vitro ., Methods: We used mixed neuroglial cortical cell cultures derived from Sip1 mutant mice. The cells were loaded with a fluorescent ratiometric calcium-sensitive probe Fura-2 AM and epileptiform activity was modeled by excluding magnesium ions from the external media or adding a GABA(A) receptor antagonist, bicuculline. Intracellular calcium dynamics were recorded using fluorescence microscopy. To identify the level of gene expression, the Real-Time PCR method was used., Results: It was found that cortical neurons isolated from homozygous ( Sip1 fl/fl ) mice with the Sip1 mutation demonstrate suppressed Ca 2+ signals in models of epileptiform activity in vitro . Wild-type cortical neurons are characterized by synchronous high-frequency and high-amplitude Ca 2+ oscillations occurring in all neurons of the network in response to Mg 2+ -free medium and bicuculline. But cortical Sip1 fl/fl neurons only single Ca 2+ neurons correlates with a suppressed expression level of the genes encoding the subunits of NMDA, AMPA, and KA receptors; protein kinases PKA, JNK, CaMKII; and also the transcription factor Hif1α. These negative effects were partially abolished when 2+ oscillations are recorded and only in single neurons, while most of the cell network does not respond to these stimuli. This signal deficiency of Sip1 fl/fl oscillations to a Mg Sip1 fl/fl neurons are grown in media with anti-inflammatory cytokine IL-10. IL-10 increases the expression of the above-mentioned genes but not to the level of expression in wild-type. At the same time, the amplitudes of Ca 2+ signals increase in response to the selective agonists of NMDA, AMPA and KA receptors, and the proportion of neurons responding with Ca 2+ oscillations to a Mg 2+ -free medium and bicuculline increases., Conclusion: IL-10 restores neurotransmission in neuronal networks with the Sip1 mutation by regulating the expression of genes encoding signaling proteins.

Published
2022
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