Mechanical stress-induced subcellular re-localization of N-terminally truncated tobacco Nt-4/1 protein
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Соловьев Андрей Геннадьевич
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BIOCHIMIE |
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The Nicotiana tabacum 4/1 protein (Nt-4/1) of unknown function expressed in plant vasculature has been shown to localize to cytoplasmic bodies associated with endoplasmic reticulum. Here, we analyzed molecular interactions of an Nt-4/1 mutant with a deletion of 90 N-terminal amino acid residues (Nt-4/1d90) having a diffuse GFP-like localization. Upon transient co-expression with VAP27, a membrane protein known to localize to the ER, ER-plasma membrane contact sites and plasmodesmata, Nt-4/1d90 was concentrated around the cortical ER tubules, forming a network matching the shape of the cortical ER. Additionally, in response to mechanical stress, Nt-4/1d90 was re-localized to small spherical bodies, whereas the subcellular localization of VAP27 remained essentially unaffected. The Nt-4/1d90-containing bodies associated with microtubules, which underwent noticeable bundling under the conditions of mechanical stress. The Nt-4/1d90 re-localization to spherical bodies could also be induced by incubation at an elevated temperature, although under heat shock conditions the re-localization was less efficient and incomplete. An Nt-4/1d90 mutant, which had phosphorylation-mimicking mutations in a predicted cluster of four potentially phosphorylated residues, was found to both inefficiently re-localize to spherical bodies and tend to revert back to the initial diffuse localization. The presented data show that Nt-4/1 has a potential for response to stresses that is manifested by its deletion mutant Nt-4/1d90, and this response can be mediated by protein dephosphorylation.
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Публикация |
KISS1 tumor suppressor restricts angiogenesis of breast cancer brain metastases and sensitizes them to oncolytic virotherapy in vitro
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Платонов М.Е
Уласов И.В
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CANCER LETTERS |
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Белок-супрессор опухолей KISS1 регулирует инвазию раковых клеток с помощью металлопротеиназы MMP9. Снижение экспрессии гена KISS1 способствует прогрессированию рака молочной железы и меланомы, что приводит к развитию отдаленных метастазов. В настоящем исследовании мы исследовали, является ли восстановление экспрессии KISS1 в клетках метастатического рака молочной железы человека с дефицитом KISS1 потенциалом в качестве передовой противоопухолевой стратегии. С этой целью мы разработали условно-репликативный человеческий аденовирус типа 5 с повышенной инфекционностью, кодирующий KISS1 в качестве «вооруженного» трансгена в области E3 Ad5 для эктопической экспрессии KISS1 в трансдуцированных раковых клетках. Онколитический потенциал вектора был исследован с использованием метастатических клонов мозга, поражающих мозг, клеток CN34 и MDA-MB-231, которые поддерживали высокий уровень репликации AdKISS1, коррелирует с устойчивой CRAd-опосредованной цитотоксичностью. Секрецию клеточных факторов, ответственных за ангиогенез опухоли, межклеточную коммуникацию и противоопухолевые иммунные ответы при экспрессии KISS1 в клетках рака молочной железы, анализировали с помощью набора RayBiotech Kiloplex Quantibody. В целом, наши результаты показывают, что экспрессия трансгена KISS1 обеспечивает важное преимущество CRAd-опосредованной цитотоксичности в клетках рака молочной железы и обладает потенциалом в качестве противоракового лечения в сочетании с онколитической виротерапией молочной железы и других метастатических раков.
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Публикация |
Biofabrication: A Guide to Technology and Terminology
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Миронов В.А.
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Trends in Biotechnology |
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Biofabrication holds the potential to generate constructs that more closely recapitulate the complexity and heterogeneity of tissues and organs than do currently available regenerative medicine therapies. Such constructs can be applied for tissue regeneration or as in vitro 3D models. Biofabrication is maturing and growing, and scientists with different backgrounds are joining this field, underscoring the need for unity regarding the use of terminology. We therefore believe that there is a compelling need to clarify the relationship between the different concepts, technologies, and descriptions of biofabrication that are often used interchangeably or inconsistently in the current literature. Our objective is to provide a guide to the terminology for different technologies in the field which may serve as a reference for the biofabrication community.
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Proton-independent activation of acidsensing ion channel 3 by an alkaloid, lindoldhamine, from Laurus nobilis
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Андреев Ярослав Алексеевич
Осмаков Дмитрий Игоревич
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British Journal of Pharmacology |
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Acid-sensing ion channels (ASICs) play an important role in synaptic plasticity and learning, as well as in nociception and mechanosensation. ASICs are involved in pain and in neurological and psychiatric diseases, but their therapeutic potential is limited by the lack of ligands activating them at physiological pH.
EXPERIMENTAL APPROACH:
We extracted, purified and determined the structure of a bisbenzylisoquinoline alkaloid, lindoldhamine, (LIN) from laurel leaves. Its effect on ASIC3 channels were characterized, using two-electrode voltage-clamp electrophysiological recordings from Xenopus laevis oocytes.
KEY RESULTS:
At pH 7.4 or higher, LIN activated a sustained, proton-independent, current through rat and human ASIC3 channels, but not rat ASIC1a or ASIC2a channels. LIN also potentiated proton-induced transient currents and promoted recovery from desensitization in human, but not rat, ASIC3 channels.
CONCLUSIONS AND IMPLICATIONS:
We describe a novel ASIC subtype-specific agonist LIN, which induced proton-independent activation of human and rat ASIC3 channels at physiological pH. LIN also acts as a positive allosteric modulator of human, but not rat, ASIC3 channels. This unique, species-selective, ligand of ASIC3, opens new avenues in studies of ASIC structure and function, as well as providing new approaches to drug design.
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Публикация |
Immunization of domestic ducks with live nonpathogenic H5N3 influenza virus prevents shedding and transmission of highly pathogenic H5N1 virus to chickens
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Гордейчук Илья Владимирович
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Viruses |
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Wild ducks are known to be able to carry avian influenza viruses over long distances and infect domestic ducks, which in their turn infect domestic chickens. Therefore, prevention of virus transmission between ducks and chickens is important to control the spread of avian influenza. Here we used a low pathogenic wild aquatic bird virus A/duck/Moscow/4182/2010 (H5N3) for prevention of highly pathogenic avian influenza virus (HPAIV) transmission between ducks and chickens. We first confirmed that the ducks orally infected with H5N1 HPAIV A/chicken/Kurgan/3/2005 excreted the virus in feces. All chickens that were in contact with the infected ducks became sick, excreted the virus, and died. However, the ducks orally inoculated with 10⁴ 50% tissue culture infective doses of A/duck/Moscow/4182/2010 and challenged 14 to 90 days later with H5N1 HPAIV did not excrete the challenge virus. All contact chickens survived and did not excrete the virus. Our results suggest that low pathogenic virus of wild aquatic birds can be used for prevention of transmission of H5N1 viruses between ducks and chickens.
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тезис
Публикация |
Mechanical stress-induced subcellular re-localization of N-terminally truncated tobacco Nt-4/1 protein
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Соловьев Андрей Геннадьевич (ведущий научный сотрудник Лаборатория молекулярной биологии и биохимии)
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BIOCHIMIE |
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The Nicotiana tabacum 4/1 protein (Nt-4/1) of unknown function expressed in plant vasculature has been shown to localize to cytoplasmic bodies associated with endoplasmic reticulum. Here, we analyzed molecular interactions of an Nt-4/1 mutant with a deletion of 90 N-terminal amino acid residues (Nt-4/1d90) having a diffuse GFP-like localization. Upon transient co-expression with VAP27, a membrane protein known to localize to the ER, ER-plasma membrane contact sites and plasmodesmata, Nt-4/1d90 was concentrated around the cortical ER tubules, forming a network matching the shape of the cortical ER. Additionally, in response to mechanical stress, Nt-4/1d90 was re-localized to small spherical bodies, whereas the subcellular localization of VAP27 remained essentially unaffected. The Nt-4/1d90-containing bodies associated with microtubules, which underwent noticeable bundling under the conditions of mechanical stress. The Nt-4/1d90 re-localization to spherical bodies could also be induced by incubation at an elevated temperature, although under heat shock conditions the re-localization was less efficient and incomplete. An Nt-4/1d90 mutant, which had phosphorylation-mimicking mutations in a predicted cluster of four potentially phosphorylated residues, was found to both inefficiently re-localize to spherical bodies and tend to revert back to the initial diffuse localization. The presented data show that Nt-4/1 has a potential for response to stresses that is manifested by its deletion mutant Nt-4/1d90, and this response can be mediated by protein dephosphorylation.
Читать
тезис
Публикация |
KISS1 tumor suppressor restricts angiogenesis of breast cancer brain metastases and sensitizes them to oncolytic virotherapy in vitro
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Платонов М.Е (старший научный сотрудник, лаборатория молекулярной биохимии)
Уласов И.В (внештатный научный сотрудник, лаборатория молекулярной биохимии)
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CANCER LETTERS |
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Белок-супрессор опухолей KISS1 регулирует инвазию раковых клеток с помощью металлопротеиназы MMP9. Снижение экспрессии гена KISS1 способствует прогрессированию рака молочной железы и меланомы, что приводит к развитию отдаленных метастазов. В настоящем исследовании мы исследовали, является ли восстановление экспрессии KISS1 в клетках метастатического рака молочной железы человека с дефицитом KISS1 потенциалом в качестве передовой противоопухолевой стратегии. С этой целью мы разработали условно-репликативный человеческий аденовирус типа 5 с повышенной инфекционностью, кодирующий KISS1 в качестве «вооруженного» трансгена в области E3 Ad5 для эктопической экспрессии KISS1 в трансдуцированных раковых клетках. Онколитический потенциал вектора был исследован с использованием метастатических клонов мозга, поражающих мозг, клеток CN34 и MDA-MB-231, которые поддерживали высокий уровень репликации AdKISS1, коррелирует с устойчивой CRAd-опосредованной цитотоксичностью. Секрецию клеточных факторов, ответственных за ангиогенез опухоли, межклеточную коммуникацию и противоопухолевые иммунные ответы при экспрессии KISS1 в клетках рака молочной железы, анализировали с помощью набора RayBiotech Kiloplex Quantibody. В целом, наши результаты показывают, что экспрессия трансгена KISS1 обеспечивает важное преимущество CRAd-опосредованной цитотоксичности в клетках рака молочной железы и обладает потенциалом в качестве противоракового лечения в сочетании с онколитической виротерапией молочной железы и других метастатических раков.
Читать
тезис
Публикация |
Biofabrication: A Guide to Technology and Terminology
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Миронов В.А. (внештатный научный сотрудник)
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Trends in Biotechnology |
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Biofabrication holds the potential to generate constructs that more closely recapitulate the complexity and heterogeneity of tissues and organs than do currently available regenerative medicine therapies. Such constructs can be applied for tissue regeneration or as in vitro 3D models. Biofabrication is maturing and growing, and scientists with different backgrounds are joining this field, underscoring the need for unity regarding the use of terminology. We therefore believe that there is a compelling need to clarify the relationship between the different concepts, technologies, and descriptions of biofabrication that are often used interchangeably or inconsistently in the current literature. Our objective is to provide a guide to the terminology for different technologies in the field which may serve as a reference for the biofabrication community.
Читать
тезис
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Proton-independent activation of acidsensing ion channel 3 by an alkaloid, lindoldhamine, from Laurus nobilis
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Андреев Ярослав Алексеевич (Заведующий лабораторией Молекулярной и клеточной биологии)
Осмаков Дмитрий Игоревич (старший научный сотрудник, лаборатория молекулярной и клеточной биологии)
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British Journal of Pharmacology |
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Acid-sensing ion channels (ASICs) play an important role in synaptic plasticity and learning, as well as in nociception and mechanosensation. ASICs are involved in pain and in neurological and psychiatric diseases, but their therapeutic potential is limited by the lack of ligands activating them at physiological pH.
EXPERIMENTAL APPROACH:
We extracted, purified and determined the structure of a bisbenzylisoquinoline alkaloid, lindoldhamine, (LIN) from laurel leaves. Its effect on ASIC3 channels were characterized, using two-electrode voltage-clamp electrophysiological recordings from Xenopus laevis oocytes.
KEY RESULTS:
At pH 7.4 or higher, LIN activated a sustained, proton-independent, current through rat and human ASIC3 channels, but not rat ASIC1a or ASIC2a channels. LIN also potentiated proton-induced transient currents and promoted recovery from desensitization in human, but not rat, ASIC3 channels.
CONCLUSIONS AND IMPLICATIONS:
We describe a novel ASIC subtype-specific agonist LIN, which induced proton-independent activation of human and rat ASIC3 channels at physiological pH. LIN also acts as a positive allosteric modulator of human, but not rat, ASIC3 channels. This unique, species-selective, ligand of ASIC3, opens new avenues in studies of ASIC structure and function, as well as providing new approaches to drug design.
Читать
тезис
Публикация |
Immunization of domestic ducks with live nonpathogenic H5N3 influenza virus prevents shedding and transmission of highly pathogenic H5N1 virus to chickens
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Гордейчук Илья Владимирович (Доцент)
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Viruses |
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Wild ducks are known to be able to carry avian influenza viruses over long distances and infect domestic ducks, which in their turn infect domestic chickens. Therefore, prevention of virus transmission between ducks and chickens is important to control the spread of avian influenza. Here we used a low pathogenic wild aquatic bird virus A/duck/Moscow/4182/2010 (H5N3) for prevention of highly pathogenic avian influenza virus (HPAIV) transmission between ducks and chickens. We first confirmed that the ducks orally infected with H5N1 HPAIV A/chicken/Kurgan/3/2005 excreted the virus in feces. All chickens that were in contact with the infected ducks became sick, excreted the virus, and died. However, the ducks orally inoculated with 10⁴ 50% tissue culture infective doses of A/duck/Moscow/4182/2010 and challenged 14 to 90 days later with H5N1 HPAIV did not excrete the challenge virus. All contact chickens survived and did not excrete the virus. Our results suggest that low pathogenic virus of wild aquatic birds can be used for prevention of transmission of H5N1 viruses between ducks and chickens.
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Публикация |
Phylogenetic and functional analyses of a plant protein related to human B-cell receptor-associated proteins.
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Соловьев А. Г. (Ведущий научный сотрудник, лаборатория молекулярной биологии и биохимии, Институт молекулярной медицины)
Шария М.А. (Профессор)
Несвижский Юрий Владимирович (Профессор)
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Biochimie |
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Human B-cell receptor-associated protein BAP31 (HsBAP31) is the endoplasmic reticulum-resident protein involved in protein sorting and transport as well as pro-apoptotic signaling. Plant orthologs of HsBAP31 termed 'plant BAP-like proteins' (PBL proteins) have thus far remained unstudied. Recently, the PBL protein from Nicotiana tabacum (NtPBL) was identified as an interactor of Nt-4/1, a plant protein known to interact with plant virus movement proteins and affect the long-distance transport of potato spindle tuber viroid (PSTVd) via the phloem. Here, we have compared the sequences of PBL proteins and studied the biochemical properties of NtPBL. Analysis of a number of fully sequenced plant genomes revealed that PBL-encoding genes represent a small multigene family with up to six members per genome. Two conserved motifs were identified in the C-terminal region of PBL proteins. The NtPBL C-terminal hydrophilic region (NtPBL-C) was expressed in bacterial cells, purified, and used for analysis of its RNA binding properties in vitro. In gel shift experiments, NtPBL-C was found to bind several tested RNAs, showing the most efficient binding to microRNA precursors (pre-miRNA) and less efficient interaction with PSTVd. Mutational analysis suggested that NtPBL-C has a composite RNA-binding site, with two conserved lysine residues in the most C-terminal protein region being involved in binding of pre-miRNA but not PSTVd RNA. Virus-mediated transient expression of NtPBL-C in plants resulted in stunting and leaf malformation, developmental abnormalities similar to those described previously for blockage of miRNA biogenesis/function. We hypothesize that the NtPBL protein represents a previously undiscovered component of the miRNA pathway.
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Публикация |
Marine Cyclic Guanidine Alkaloids Monanchomycalin B and Urupocidin A Act as Inhibitors of TRPV1, TRPV2 and TRPV3, but not TRPA1 Receptors
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Андреев Я. А. (Заведующий лабораторией Молекулярной и клеточной биологии)
Шария М.А. (Профессор)
Несвижский Юрий Владимирович (Профессор)
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Marine Drugs |
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Marine sponges contain a variety of low-molecular-weight compounds including guanidine alkaloids possessing different biological activities. Monanchomycalin B and urupocidin A were isolated from the marine sponge Monanchora pulchra. We found that they act as inhibitors of the TRPV1, TRPV2, and TRPV3 channels, but are inactive against the TRPA1 receptor. Monanchomycalin B is the most active among all published marine alkaloids (EC50 6.02, 2.84, and 3.25 μM for TRPV1, TRPV2, and TRPV3, correspondingly). Moreover, monanchomycalin B and urupocidin A are the first samples of marine alkaloids affecting the TRPV2 receptor. Two semi-synthetic urupocidin A derivatives were also obtained and tested against TRP (Transient Receptor Potential) receptors that allowed us to collect some data concerning the structure-activity relationship in this series of compounds. We showed that the removal of one of three side chains or double bonds in the other side chains in urupocidin A led to a decrease of the inhibitory activities. New ligands specific to the TRPV subfamily may be useful for the design of medicines as in the study of TRP channels biology.
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Публикация |