Rhythm and blues: Influence of CLOCK T3111C on peripheral electrophysiological indicators of negative affective processing
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15.05.2020 |
Armbruster D.
Brocke B.
Kirschbaum C.
Witt S.H.
Lesch K.P.
Strobel A.
|
Physiology and Behavior |
10.1016/j.physbeh.2020.112831 |
0 |
Ссылка
© 2020 Elsevier Inc. Dysfunction in the circadian system has been linked to emotion regulation and mood disorders with genetic variation in clock genes as likely contributors. Here, we focused on endophenotypes of affective processing and investigated in two independent samples of healthy individuals (n1=99, n2=108) whether genotypes of a functional single nucleotide polymorphism (SNP) in the gene encoding CLOCK (CLOCK T3111C, rs1801260) differed in physiological responses to emotional stimuli. Both samples underwent an emotional startle paradigm with startle responses being measured via EMG. In the second sample, skin conductance responses as well as corrugator and zygomaticus activity were also assessed. In both samples, CLOCK T3111C was associated with overall startle responses to loud noise bursts with T/T homozygotes showing consistently more marked responses. However, in the all-female second sample, the effects of CLOCK on skin conductance responses to the same loud noise bursts depended on hormone status: similar to the startle results, in free-cycling women T/T homozygotes showed more pronounced skin conductance response (SCR) compared to C allele carriers. The opposite was true for women using combined oral contraceptives (COC). A further CLOCK × hormone status interaction effect was found for corrugator activity. In free-cycling women, T/T homozygotes presented with less corrugator activity to affective pictures compared to C allele carriers, while the opposite pattern emerged for COC users. The findings emphasize the potential role of CLOCK for affect and mood.
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тезис
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Rhythm and blues: Influence of CLOCK T3111C on peripheral electrophysiological indicators of negative affective processing
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15.05.2020 |
Armbruster D.
Brocke B.
Kirschbaum C.
Witt S.H.
Lesch K.P.
Strobel A.
|
Physiology and Behavior |
10.1016/j.physbeh.2020.112831 |
0 |
Ссылка
© 2020 Elsevier Inc. Dysfunction in the circadian system has been linked to emotion regulation and mood disorders with genetic variation in clock genes as likely contributors. Here, we focused on endophenotypes of affective processing and investigated in two independent samples of healthy individuals (n1=99, n2=108) whether genotypes of a functional single nucleotide polymorphism (SNP) in the gene encoding CLOCK (CLOCK T3111C, rs1801260) differed in physiological responses to emotional stimuli. Both samples underwent an emotional startle paradigm with startle responses being measured via EMG. In the second sample, skin conductance responses as well as corrugator and zygomaticus activity were also assessed. In both samples, CLOCK T3111C was associated with overall startle responses to loud noise bursts with T/T homozygotes showing consistently more marked responses. However, in the all-female second sample, the effects of CLOCK on skin conductance responses to the same loud noise bursts depended on hormone status: similar to the startle results, in free-cycling women T/T homozygotes showed more pronounced skin conductance response (SCR) compared to C allele carriers. The opposite was true for women using combined oral contraceptives (COC). A further CLOCK × hormone status interaction effect was found for corrugator activity. In free-cycling women, T/T homozygotes presented with less corrugator activity to affective pictures compared to C allele carriers, while the opposite pattern emerged for COC users. The findings emphasize the potential role of CLOCK for affect and mood.
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тезис
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Serotonin (5-HT) neuron-specific inactivation of Cadherin-13 impacts 5-HT system formation and cognitive function
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15.05.2020 |
Forero A.
Ku H.P.
Malpartida A.B.
Wäldchen S.
Alhama-Riba J.
Kulka C.
Aboagye B.
Norton W.H.J.
Young A.M.J.
Ding Y.Q.
Blum R.
Sauer M.
Rivero O.
Lesch K.P.
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Neuropharmacology |
10.1016/j.neuropharm.2020.108018 |
0 |
Ссылка
© 2020 The Authors Genome-wide screening approaches identified the cell adhesion molecule Cadherin-13 (CDH13) as a risk factor for neurodevelopmental disorders, nevertheless the contribution of CDH13 to the disease mechanism remains obscure. CDH13 is involved in neurite outgrowth and axon guidance during early brain development and we previously provided evidence that constitutive CDH13 deficiency influences the formation of the raphe serotonin (5-HT) system by modifying neuron-radial glia interaction. Here, we dissect the specific impact of CDH13 on 5-HT system development and function using a 5-HT neuron-specific Cdh13 knockout mouse model (conditional Cdh13 knockout, Cdh13 cKO). Our results show that exclusive inactivation of CDH13 in 5-HT neurons selectively increases 5-HT neuron density in the embryonic dorsal raphe, with persistence into adulthood, and serotonergic innervation of the developing prefrontal cortex. At the behavioral level, adult Cdh13 cKO mice display delayed acquisition of several learning tasks and a subtle impulsive-like phenotype, with decreased latency in a sociability paradigm alongside with deficits in visuospatial memory. Anxiety-related traits were not observed in Cdh13 cKO mice. Our findings further support the critical role of CDH13 in the development of dorsal raphe 5-HT circuitries, a mechanism that may underlie specific clinical features observed in neurodevelopmental disorders.
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тезис
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Serotonin (5-HT) neuron-specific inactivation of Cadherin-13 impacts 5-HT system formation and cognitive function
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15.05.2020 |
Forero A.
Ku H.P.
Malpartida A.B.
Wäldchen S.
Alhama-Riba J.
Kulka C.
Aboagye B.
Norton W.H.J.
Young A.M.J.
Ding Y.Q.
Blum R.
Sauer M.
Rivero O.
Lesch K.P.
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Neuropharmacology |
10.1016/j.neuropharm.2020.108018 |
0 |
Ссылка
© 2020 The Authors Genome-wide screening approaches identified the cell adhesion molecule Cadherin-13 (CDH13) as a risk factor for neurodevelopmental disorders, nevertheless the contribution of CDH13 to the disease mechanism remains obscure. CDH13 is involved in neurite outgrowth and axon guidance during early brain development and we previously provided evidence that constitutive CDH13 deficiency influences the formation of the raphe serotonin (5-HT) system by modifying neuron-radial glia interaction. Here, we dissect the specific impact of CDH13 on 5-HT system development and function using a 5-HT neuron-specific Cdh13 knockout mouse model (conditional Cdh13 knockout, Cdh13 cKO). Our results show that exclusive inactivation of CDH13 in 5-HT neurons selectively increases 5-HT neuron density in the embryonic dorsal raphe, with persistence into adulthood, and serotonergic innervation of the developing prefrontal cortex. At the behavioral level, adult Cdh13 cKO mice display delayed acquisition of several learning tasks and a subtle impulsive-like phenotype, with decreased latency in a sociability paradigm alongside with deficits in visuospatial memory. Anxiety-related traits were not observed in Cdh13 cKO mice. Our findings further support the critical role of CDH13 in the development of dorsal raphe 5-HT circuitries, a mechanism that may underlie specific clinical features observed in neurodevelopmental disorders.
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тезис
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Serotonin (5-HT) neuron-specific inactivation of Cadherin-13 impacts 5-HT system formation and cognitive function
|
15.05.2020 |
Forero A.
Ku H.P.
Malpartida A.B.
Wäldchen S.
Alhama-Riba J.
Kulka C.
Aboagye B.
Norton W.H.J.
Young A.M.J.
Ding Y.Q.
Blum R.
Sauer M.
Rivero O.
Lesch K.P.
|
Neuropharmacology |
10.1016/j.neuropharm.2020.108018 |
0 |
Ссылка
© 2020 The Authors Genome-wide screening approaches identified the cell adhesion molecule Cadherin-13 (CDH13) as a risk factor for neurodevelopmental disorders, nevertheless the contribution of CDH13 to the disease mechanism remains obscure. CDH13 is involved in neurite outgrowth and axon guidance during early brain development and we previously provided evidence that constitutive CDH13 deficiency influences the formation of the raphe serotonin (5-HT) system by modifying neuron-radial glia interaction. Here, we dissect the specific impact of CDH13 on 5-HT system development and function using a 5-HT neuron-specific Cdh13 knockout mouse model (conditional Cdh13 knockout, Cdh13 cKO). Our results show that exclusive inactivation of CDH13 in 5-HT neurons selectively increases 5-HT neuron density in the embryonic dorsal raphe, with persistence into adulthood, and serotonergic innervation of the developing prefrontal cortex. At the behavioral level, adult Cdh13 cKO mice display delayed acquisition of several learning tasks and a subtle impulsive-like phenotype, with decreased latency in a sociability paradigm alongside with deficits in visuospatial memory. Anxiety-related traits were not observed in Cdh13 cKO mice. Our findings further support the critical role of CDH13 in the development of dorsal raphe 5-HT circuitries, a mechanism that may underlie specific clinical features observed in neurodevelopmental disorders.
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тезис
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Increase of γ-Fe<inf>2</inf>O<inf>3</inf>/CNT composite quantum capacitance by structural design for performance optimization of electrode materials
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05.05.2020 |
Shunaev V.V.
Ushakov A.V.
Glukhova O.E.
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International Journal of Quantum Chemistry |
10.1002/qua.26165 |
0 |
Ссылка
© 2020 Wiley Periodicals, Inc. Performance optimization of electrode materials for lithium-ion batteries is one the most important scientific problems. In this paper, we suggest structural design of γ-Fe2O3/CNT composite for increase of its quantum capacitance that is required by modern energy storage devices capable of quick transfer or accumulation of energy and ensuring long-term autonomous operation. For this goal, we investigate the specific quantum capacitance of the γ-Fe2O3/CNT composites with a different content of maghemite by quantum chemical methods. The content of maghemite is varied by length of CNTs as well as by number of γ-Fe2O3 unit cell the weight ratio equals 13.71%, 20.74%, 26.69%, and 34.30%. It is found that the quantum capacitance grows with increasing maghemite concentration. Calculations show that the value of QC at the Fermi level for γ-Fe2O3/CNT is correlated with the theoretical specific capacity of the material. Proposed in this work approach to calculating the quantum capacitance with further analysis of its dependence on voltage can be an effective tool for optimizing the content of the composite with the aim of balancing the Faradaic and non-Faradaic component of its functional activity.
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тезис
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Increase of γ-Fe<inf>2</inf>O<inf>3</inf>/CNT composite quantum capacitance by structural design for performance optimization of electrode materials
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05.05.2020 |
Shunaev V.V.
Ushakov A.V.
Glukhova O.E.
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International Journal of Quantum Chemistry |
10.1002/qua.26165 |
0 |
Ссылка
© 2020 Wiley Periodicals, Inc. Performance optimization of electrode materials for lithium-ion batteries is one the most important scientific problems. In this paper, we suggest structural design of γ-Fe2O3/CNT composite for increase of its quantum capacitance that is required by modern energy storage devices capable of quick transfer or accumulation of energy and ensuring long-term autonomous operation. For this goal, we investigate the specific quantum capacitance of the γ-Fe2O3/CNT composites with a different content of maghemite by quantum chemical methods. The content of maghemite is varied by length of CNTs as well as by number of γ-Fe2O3 unit cell the weight ratio equals 13.71%, 20.74%, 26.69%, and 34.30%. It is found that the quantum capacitance grows with increasing maghemite concentration. Calculations show that the value of QC at the Fermi level for γ-Fe2O3/CNT is correlated with the theoretical specific capacity of the material. Proposed in this work approach to calculating the quantum capacitance with further analysis of its dependence on voltage can be an effective tool for optimizing the content of the composite with the aim of balancing the Faradaic and non-Faradaic component of its functional activity.
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тезис
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Increase of γ-Fe<inf>2</inf>O<inf>3</inf>/CNT composite quantum capacitance by structural design for performance optimization of electrode materials
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05.05.2020 |
Shunaev V.V.
Ushakov A.V.
Glukhova O.E.
|
International Journal of Quantum Chemistry |
10.1002/qua.26165 |
0 |
Ссылка
© 2020 Wiley Periodicals, Inc. Performance optimization of electrode materials for lithium-ion batteries is one the most important scientific problems. In this paper, we suggest structural design of γ-Fe2O3/CNT composite for increase of its quantum capacitance that is required by modern energy storage devices capable of quick transfer or accumulation of energy and ensuring long-term autonomous operation. For this goal, we investigate the specific quantum capacitance of the γ-Fe2O3/CNT composites with a different content of maghemite by quantum chemical methods. The content of maghemite is varied by length of CNTs as well as by number of γ-Fe2O3 unit cell the weight ratio equals 13.71%, 20.74%, 26.69%, and 34.30%. It is found that the quantum capacitance grows with increasing maghemite concentration. Calculations show that the value of QC at the Fermi level for γ-Fe2O3/CNT is correlated with the theoretical specific capacity of the material. Proposed in this work approach to calculating the quantum capacitance with further analysis of its dependence on voltage can be an effective tool for optimizing the content of the composite with the aim of balancing the Faradaic and non-Faradaic component of its functional activity.
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тезис
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Effect of Mn substitution on the crystal and magnetic structure of Bi<inf>1−x</inf>Ca<inf>x</inf>FeO<inf>3−x/2</inf> multiferroics
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01.05.2020 |
Khomchenko V.
Karpinsky D.
Bushinsky M.
Zhaludkevich D.
Franz A.
Silibin M.
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Materials Letters |
10.1016/j.matlet.2020.127470 |
0 |
Ссылка
© 2020 Elsevier B.V. The room- and low-temperature neutron diffraction measurements of the Bi0.9Ca0.1Fe0.6Mn0.4O3+δ compound have been carried out to disclose the influence of Mn substitution on the multiferroic properties of the low-doped Bi1−xCaxFeO3−x/2 perovskites combining ferroelectric and weak ferromagnetic behavior. It has been proven that the material under study retains a polar R3c structure specific to the parent Bi0.9Ca0.1FeO2.95. The Mn doping results in the elimination of oxygen vacancies giving rise to the increase in spontaneous electric polarization. The chemical modification stabilizes the collinear antiferromagnetic structure at room temperature. The reorientation of the antiferromagnetic vector from the c to a axis takes place with decreasing temperature. Reflecting the competitive character of the superexchange interactions between Fe3+, Mn3+ and Mn4+, the coexistence of ferromagnetic glassy and antiferromagnetic long-range-ordered phases is observed at low temperatures.
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Ultrasonic-assisted modifications of macroporous resin to improve anthocyanin purification from a Pyrus communis var. Starkrimson extract
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01.04.2020 |
Belwal T.
Li L.
Yanqun X.
Cravotto G.
Luo Z.
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Ultrasonics Sonochemistry |
10.1016/j.ultsonch.2019.104853 |
0 |
Ссылка
© 2019 Elsevier B.V. The present study presents an attempt to modify the surface properties of macroporous resins (MRs) in order to improve anthocyanin adsorption and desorption from Pyrus communis var Starkrimson fruit peel extract. A number of MRs were tested to optimise the ultrasonic-assisted adsorption (UAA) conditions; including ultrasonic power (100–400 W), resin-to-extract ratio (1–3 g/50 mL) and temperature (20–40 °C). Similarly, varying ultrasonic-assisted desorption (UAD) conditions were optimised; including ultrasonic power (200–600 W), resin-to-solvent ratio (1–4 g/50 mL), ethanol concentration (60–90% v/v) and temperature (20–40 °C). The Amberlyst 15 (H) cationic resin was found to be superior to the other tested resins. The maximum adsorption capacity (659 µg/g) of cyanidin 3-galactoside (Cy 3-gal) was achieved under the optimised UAA conditions (400 W, 20 °C and 1 g/50 mL), while 616 µg/g of Cy 3-gal was recovered under the optimised UAD conditions (582 W, 1 g/50 mL, 60% and 20 °C). Moreover, titratable-acid and total-sugar contents were found to be significantly lower under UAA than under conventional-assisted adsorption (CAA). ANOVA revealed that process factors had significant effects on the Cy 3-gal purification, as depicted by their linear, quadratic and interactive effects. While anthocyanin adsorption was found to be significantly improved at lower ultrasonic power, higher power promoted the desorption process. Adsorption under optimized UAA conditions followed pseudo second-order kinetics and multilayer adsorption (Freundlich isotherm) onto the Amberlyst 15 (H) resin surface was observed. The particle-size distribution curve and scanning electron microscopic images also revealed higher resin-surface roughness, peeling and the appearance of pores on the surface under ultrasonication. This is the first study to use ultrasonication to modify a cationic exchange resin for the improvement of Cy 3-gal purification from a fruit extract. This study can recommend the use of ultrasonication as a low-cost green technique that can improve macroporous resin characteristics for better purification of compounds from an extract.
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тезис
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Ultrasonic-assisted modifications of macroporous resin to improve anthocyanin purification from a Pyrus communis var. Starkrimson extract
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01.04.2020 |
Belwal T.
Li L.
Yanqun X.
Cravotto G.
Luo Z.
|
Ultrasonics Sonochemistry |
10.1016/j.ultsonch.2019.104853 |
0 |
Ссылка
© 2019 Elsevier B.V. The present study presents an attempt to modify the surface properties of macroporous resins (MRs) in order to improve anthocyanin adsorption and desorption from Pyrus communis var Starkrimson fruit peel extract. A number of MRs were tested to optimise the ultrasonic-assisted adsorption (UAA) conditions; including ultrasonic power (100–400 W), resin-to-extract ratio (1–3 g/50 mL) and temperature (20–40 °C). Similarly, varying ultrasonic-assisted desorption (UAD) conditions were optimised; including ultrasonic power (200–600 W), resin-to-solvent ratio (1–4 g/50 mL), ethanol concentration (60–90% v/v) and temperature (20–40 °C). The Amberlyst 15 (H) cationic resin was found to be superior to the other tested resins. The maximum adsorption capacity (659 µg/g) of cyanidin 3-galactoside (Cy 3-gal) was achieved under the optimised UAA conditions (400 W, 20 °C and 1 g/50 mL), while 616 µg/g of Cy 3-gal was recovered under the optimised UAD conditions (582 W, 1 g/50 mL, 60% and 20 °C). Moreover, titratable-acid and total-sugar contents were found to be significantly lower under UAA than under conventional-assisted adsorption (CAA). ANOVA revealed that process factors had significant effects on the Cy 3-gal purification, as depicted by their linear, quadratic and interactive effects. While anthocyanin adsorption was found to be significantly improved at lower ultrasonic power, higher power promoted the desorption process. Adsorption under optimized UAA conditions followed pseudo second-order kinetics and multilayer adsorption (Freundlich isotherm) onto the Amberlyst 15 (H) resin surface was observed. The particle-size distribution curve and scanning electron microscopic images also revealed higher resin-surface roughness, peeling and the appearance of pores on the surface under ultrasonication. This is the first study to use ultrasonication to modify a cationic exchange resin for the improvement of Cy 3-gal purification from a fruit extract. This study can recommend the use of ultrasonication as a low-cost green technique that can improve macroporous resin characteristics for better purification of compounds from an extract.
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тезис
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Lung-on-a-chip: the future of respiratory disease models and pharmacological studies
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01.03.2020 |
Shrestha J.
Razavi Bazaz S.
Aboulkheyr Es H.
Yaghobian Azari D.
Thierry B.
Ebrahimi Warkiani M.
Ghadiri M.
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Critical reviews in biotechnology |
10.1080/07388551.2019.1710458 |
0 |
Ссылка
Recently, organ-on-a-chip models, which are microfluidic devices that mimic the cellular architecture and physiological environment of an organ, have been developed and extensively investigated. The chips can be tailored to accommodate the disease conditions pertaining to many organs; and in the case of this review, the lung. Lung-on-a-chip models result in a more accurate reflection compared to conventional in vitro models. Pharmaceutical drug testing methods traditionally use animal models in order to evaluate pharmacological and toxicological responses to a new agent. However, these responses do not directly reflect human physiological responses. In this review, current and future applications of the lung-on-a-chip in the respiratory system will be discussed. Furthermore, the limitations of current conventional in vitro models used for respiratory disease modeling and drug development will be addressed. Highlights of additional translational aspects of the lung-on-a-chip will be discussed in order to demonstrate the importance of this subject for medical research.
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Effect of combined Ca/Ti and Ca/Nb substitution on the crystal and magnetic structure of BiFeO<inf>3</inf>
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01.12.2019 |
Khomchenko V.
Karpinsky D.
Ivanov M.
Franz A.
Dubkov S.
Silibin M.
Paixão J.
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Journal of Magnetism and Magnetic Materials |
10.1016/j.jmmm.2019.165561 |
1 |
Ссылка
© 2019 Elsevier B.V. Herein, we report on the crystal structure, magnetic and local ferroelectric properties of the Bi1−xCaxFe1−xTixO3 and Bi1−xCaxFe1−x/2Nbx/2O3 perovskites prepared by a solid state reaction method. It has been found that the Ca2+/Nb5+-containing series is characterized by a narrower concentration range (x ≤ 0.2) over which the acentric R3c structure specific to the pure BiFeO3 can be stabilized. The compositional variation in the critical concentration defining the polar/nonpolar (R3c/Pnma) phase boundary can be understood as related to the chemical modification-induced changes in the lattice spacing diminishing the stability of the a−a−a− tilting in favor of the a−b+a− one. Both the Ca2+/Ti4+ and Ca2+/Nb5+ substitutions ensure the suppression of a cycloidal antiferromagnetic order, thus leading to the formation of a weak ferromagnetic polar state. While this effect is proven to be associated with a composition-driven reduction in polar displacements, lattice defects are supposed to contribute to the instability of the cycloidal spin arrangement.
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Effects of maternal separation on serotonergic systems in the dorsal and median raphe nuclei of adult male Tph2-deficient mice
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05.11.2019 |
Lieb M.
Weidner M.
Arnold M.
Loupy K.
Nguyen K.
Hassell J.
Schnabel K.
Kern R.
Day H.
Lesch K.
Waider J.
Lowry C.
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Behavioural Brain Research |
10.1016/j.bbr.2019.112086 |
0 |
Ссылка
© 2019 Elsevier B.V. Previous studies have highlighted interactions between serotonergic systems and adverse early life experience as important gene x environment determinants of risk of stress-related psychiatric disorders. Evidence suggests that mice deficient in Tph2, the rate-limiting enzyme for brain serotonin synthesis, display disruptions in behavioral phenotypes relevant to stress-related psychiatric disorders. The aim of this study was to determine how maternal separation in wild-type, heterozygous, and Tph2 knockout mice affects mRNA expression of serotonin-related genes. Serotonergic genes studied included Tph2, the high-affinity, low-capacity, sodium-dependent serotonin transporter (Slc6a4), the serotonin type 1a receptor (Htr1a), and the corticosterone-sensitive, low-affinity, high-capacity sodium-independent serotonin transporter, organic cation transporter 3 (Slc22a3). Furthermore, we studied corticotropin-releasing hormone receptors 1 (Crhr1) and 2 (Crhr2), which play important roles in controlling serotonergic neuronal activity. For this study, offspring of Tph2 heterozygous dams were exposed to daily maternal separation for the first two weeks of life. Adult, male wild-type, heterozygous, and homozygous offspring were subsequently used for molecular analysis. Maternal separation differentially altered serotonergic gene expression in a genotype- and topographically-specific manner. For example, maternal separation increased Slc6a4 mRNA expression in the dorsal part of the dorsal raphe nucleus in Tph2 heterozygous mice, but not in wild-type or knockout mice. Overall, these data are consistent with the hypothesis that gene x environment interactions, including serotonergic genes and adverse early life experience, play an important role in vulnerability to stress-related psychiatric disorders.
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Polymorphism of 3-(5-phenyl-1,3,4-oxadiazol-2-yl)- And 3-[5-(pyridin-4-yl)-1,3,4-oxadiazol-2-yl]-2H-chromen-2-ones
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01.11.2019 |
Shishkina S.
Konovalova I.
Trostianko P.
Geleverya A.
Kovalenko S.
Bunyatyan N.
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Acta Crystallographica Section C: Structural Chemistry |
10.1107/S2053229619014256 |
0 |
Ссылка
© 2019 International Union of Crystallography. This study of 3-(5-phenyl-1,3,4-oxadiazol-2-yl)-2H-chromen-2-one, C17H10N2O3, 1, and 3-[5-(pyridin-4-yl)-1,3,4-oxadiazol-2-yl]-2H-chromen-2-one, C16H9ON3O3, 2, was performed on the assumption of the potential anticancer activity of the compounds. Three polymorphic structures for 1 and two polymorphic structures for 2 have been studied thoroughly. The strongest intermolecular interaction is stacking of the 'head-to-head' type in all the studied crystals. The polymorphic structures of 1 differ with respect to the intermolecular interactions between stacked columns. Two of the polymorphs have a columnar or double columnar type of crystal organization, while the third polymorphic structure can be classified as columnar-layered. The difference between the two structures of 2 is less pronounced. Both crystals can be considered as having very similar arrangements of neighbouring columns. The formation of polymorphic modifications is caused by a subtle balance of very weak intermolecular interactions and packing differences can be identified only using an analysis based on a study of the pairwise interaction energies.
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Temperature-driven structural transformations in Ca/Ti- and Ba/Ti-doped BiFeO<inf>3</inf>
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01.11.2019 |
Khomchenko V.
Karpinsky D.
Zhaludkevich D.
Latushka S.
Franz A.
Sikolenko V.
Nekludov K.
Dubkov S.
Silibin M.
Paixão J.
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Materials Letters |
10.1016/j.matlet.2019.07.091 |
0 |
Ссылка
© 2019 Elsevier B.V. The structural parameters of the Bi0.85AE0.15Fe0.85Ti0.15O3 (AE = Ca and Ba) multiferroics have been determined using variable temperature neutron powder diffraction. The compounds adopt the polar rhombohedral R3c structure near room temperature and undergo phase transitions into either the nonpolar orthorhombic Pnma (AE = Ca) or cubic Pm3-m (AE = Ba) structures on heating. In the ferroelectric phase, a temperature-driven lattice expansion is accompanied by both a diminishing of the off-center ionic displacements (thus resulting in a decrease in the spontaneous electric polarization) and a reduction in the magnitude of the antiphase oxygen octahedra tilting. Being largely different for the materials under study, the latter parameter is supposed to specify the dissimilarity in their magnetic properties.
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Synthesis, X-ray crystal structure, Hirshfeld surface analysis, and molecular docking study of novel inhibitor of hepatitis B: methyl 4-fluoro-3-(morpholinosulfonyl)benzo[b]thiophene-2-carboxylate
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01.11.2019 |
Ivachtchenko A.
Mitkin O.
Kravchenko D.
Kovalenko S.
Shishkina S.
Bunyatyan N.
Konovalova I.
Dmitrieva I.
Ivanov V.
Langer T.
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Heliyon |
10.1016/j.heliyon.2019.e02738 |
0 |
Ссылка
© 2019 The Author(s) A method of 4-fluoro-3-(morpholinosulfonyl)benzo[b]thiophene-2-carboxylate synthesis has been developed and the electronic and spatial structure of a new biologically active molecule has been studied both theoretically and experimentally. The title compound was crystallized from acetonitrile and the single crystal X-ray analysis has revealed that it exists in a monoclinic P21/c space group, with one molecule in the asymmetric part of the unit cell. Hirshfeld surface analysis was used to study intermolecular interactions in the crystal. Molecular docking study evaluates the investigated compound as a new potential inhibitor of hepatitis B. Testing for anti-hepatitis B virus activity has shown that this substance demonstrates in vitro nanomolar inhibitory activity against HBV. Organic chemistry; Theoretical chemistry; Pharmaceutical chemistry, Hepatitis B; HBV; Pharmaceutical crystals; 4-Fluoro-3-(morpholinosulfonyl)benzo[b]thiophene-2-carboxylate; Benzothiophene; Hydrogen bond; Hirshfeld surface analysis; Molecular docking study
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Replenishment of hepatitis B virus cccDNA pool is restricted by baseline expression of host restriction factors in vitro
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01.11.2019 |
Brezgin S.
Kostyusheva A.
Bayurova E.
Gordeychuk I.
Isaguliants M.
Goptar I.
Nikiforova A.
Smirnov V.
Volchkova E.
Glebe D.
Kostyushev D.
Chulanov V.
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Microorganisms |
10.3390/microorganisms7110533 |
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© 2019 by the authors. Licensee MDPI, Basel, Switzerland. Background: Covalently closed circular DNA (cccDNA) of hepatitis B virus (HBV) is the major cause of viral persistence in patients with chronic HBV infection. Understanding the mechanisms underlying stability and persistence of HBV cccDNA in hepatocytes is critical for developing novel therapeutics and managing chronic hepatitis B. In this study, we observed an unexpected increase in HBV cccDNA levels upon suppression of transcription by de novo DNA methyltransferase DNMT3A and uncovered additional mechanisms potentially involved in HBV cccDNA maintenance. Methods: HBV-expressing cell lines were transfected with a DNMT3A-expressing plasmid. Real-time PCR and HBsAg assays were used to assess the HBV replication rate. Cell cycling was analyzed by fluorescent cell sorting. CRISPR/Cas9 was utilized to abrogate expression of APOBEC3A and APOBEC3B. Alterations in the expression of target genes were measured by real-time PCR. Results: Similar to previous studies, HBV replication induced DNMT3A expression, which in turn, led to reduced HBV transcription but elevated HBV cccDNA levels (4-to 6-fold increase). Increased levels of HBV cccDNA were not related to cell cycling, as DNMT3A accelerated proliferation of infected cells and could not contribute to HBV cccDNA expansion by arresting cells in a quiescent state. At the same time, DNMT3A suppressed transcription of innate immunity factors including cytidine deaminases APOBEC3A and APOBEC3B. CRISPR/Cas9-mediated silencing of APOBEC3A and APOBEC3B transcription had minor effects on HBV transcription, but significantly increased HBV cccDNA levels, similar to DNMT3A. In an attempt to further analyze the detrimental effects of HBV and DNMT3A on infected cells, we visualized γ-H2AX foci and demonstrated that HBV inflicts and DNMT3A aggravates DNA damage, possibly by downregulating DNA damage response factors. Additionally, suppression of HBV replication by DNMT3A may be related to reduced ATM/ATR expression. Conclusion: Formation and maintenance of HBV cccDNA pools may be partially suppressed by the baseline expression of host inhibitory factors including APOBEC3A and APOBEC3B. HBV inflicts DNA damage both directly and by inducing DNMT3A expression.
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Synthesis, in vivo and in silico anticonvulsant activity studies of new derivatives of 2-(2,4-dioxo-1,4-dihydroquinazolin-3(2H)-yl)acetamide
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15.10.2019 |
El Kayal W.
Shtrygol S.
Zalevskyi S.
Shark A.
Tsyvunin V.
Kovalenko S.
Bunyatyan N.
Perekhoda L.
Severina H.
Georgiyants V.
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European Journal of Medicinal Chemistry |
10.1016/j.ejmech.2019.06.085 |
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© 2019 Elsevier Masson SAS In order to expand the arsenal of biologically active substances of anticonvulsive action by the interaction of 2-(2,4-dioxo-1,4-dihydroquinazolin-3(2H)-yl)acetic acid with the corresponding amines in the presence of N,N′-carbonyldiimidazole in the dioxane medium, a systematic series of 2-(2,4-dioxo-1,4-dihydroquinazolin-3(2H)-yl)-N-R-acetamides was obtained. A novel approach to synthesis of the key intermediate - 2-(2,4-dioxo-1,4-dihydro-quinazolin-3(2H)-yl)acetic acid was developed. The structure and purity of the resulting substances was confirmed by elemental analysis, 1H NMR, 13C NMR spectroscopy and LC/MS. Based on the results of docking studies using SCIGRESS software, selected compounds with the best affinity for anticonvulsant protein biomes (PDB codes: 4COF, 3F8E and 1 EOU) are promising for experimental studies of anticonvulsant activity. A comparative analysis of the results of molecular docking and in vivo results suggests that there is a positive correlation between scoring protein inhibition and experimental data. Pharmacological studies have revealed the leader compound 2-(2,4-dioxo-1,4-dihydroquinazolin-3(2H)-yl)-N-[(2,4-dichlorophenyl)methyl]acet-amide, which improved all the experimental convulsive syndrome rates in mice without motor coordination impairment and may be recommended for further research. The lowest values of the scoring function of the ligand-peptide interaction are obtained for the synthesized compound and сarbonic anhydrase II (gene name CA2) (PDB code 1 EOU), so its inhibition is proposed by us as the most probable mechanism of the anticonvulsive effect of the leader compound.
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The influence of taurine and L-carnitine on 6 β-hydroxycortisol/cortisol ratio in human urine of healthy volunteers
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11.10.2019 |
Makhova A.
Shikh E.
Bulko T.
Sizova Z.
Shumyantseva V.
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Drug metabolism and personalized therapy |
10.1515/dmpt-2019-0013 |
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Background Cytochrome P450s (CYPs, EC 1.14.14.1) are the main enzymes of drug metabolism. The functional significance of CYPs also includes the metabolism of foreign chemicals and endogenic biologically active compounds. The CYP3A4 isoform contributes to the metabolism of about half of all marketed medicinal preparations. The aim of this study was to investigate the effects of two biologically active compounds: 2-aminoethane-sulfonic acid (taurine) and 3-hydroxy-4-trimethylaminobutyrate (L-carnitine) on urinary 6β-hydroxycortisol/cortisol (6β-OHC/cortisol) metabolic ratio as a biomarker of the CYP3A4 activity of healthy volunteers. Taurine is used for the treatment of chronic heart failure and liver disease. Cardiologists, nephrologists, neurologists, gerontologists in addition to the main etiopathogenetic therapies, use L-carnitine. The quantification of the 6β-OHC/cortisol metabolic ratio as a biomarker of CYP3A4 activity in human urine was used for the assessment of CYP3A4 catalytic activity as a non-invasive test. Methods The study included 18 healthy male volunteers (aged from 18 to 35 years old). The volunteers took taurine in a dose of 500 mg twice a day or L-carnitine in a dose of 2.5 mL 3 times a day for 14 consecutive days. The test drug was given 20 min before meals. The collection of urine samples was performed before and after 3, 7, 10, and 14 days after taurine intake. The metabolic ratio of 6β-OHC/cortisol in morning spot urine samples was studied by the liquid chromatography/mass spectroscopy (LC/MS) method. Results The ratio of 6-6β-OHC/cortisol was used as a biomarker to study the taurine and L-carnitine influence on CYP3A4 metabolism of cortisol. The ratio of urinary 6β-OCH/cortisol in the morning urine samples of volunteers before the beginning of taurine therapy (baseline ratio) was 2.71 ± 0.2. Seven days after the administration of taurine in a dose of 500 mg twice a day, the 6β-OCH/cortisol ratio was 3.3 ± 0.2, which indicated the increased catalytic activity of CYP3A4 towards cortisol. As for the L-carnitine supplementation, analysis of the 6β-OCH/cortisol ratio in the urine for 14 days did not show any significant changes in this baseline ratio, indicating the lack of L-carnitine influence on the catalytic activity of CYP3A4 to cortisol. Conclusions The results obtained demonstrated the influence of taurine on 6β-OCH/cortisol metabolic ratio as a biomarker of CYP3A4 catalytic activity to cortisol. L-carnitine did not affect the activity of CYP3A4. The lack of a clinically meaningful effect of L-carnitine was established.
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