Mesenchymal stem/stromal cells as a valuable source for the treatment of immune-mediated disorders
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01.12.2021 |
Markov A.
Thangavelu L.
Aravindhan S.
Zekiy A.O.
Jarahian M.
Chartrand M.S.
Pathak Y.
Marofi F.
Shamlou S.
Hassanzadeh A.
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Stem Cell Research and Therapy |
10.1186/s13287-021-02265-1 |
0 |
Ссылка
Over recent years, mesenchymal stem/stromal cells (MSCs) and their potential biomedical applications have received much attention from the global scientific community in an increasing manner. Firstly, MSCs were successfully isolated from human bone marrow (BM), but in the next steps, they were also extracted from other sources, mostly from the umbilical cord (UC) and adipose tissue (AT). The International Society for Cellular Therapy (ISCT) has suggested minimum criteria to identify and characterize MSCs as follows: plastic adherence, surface expression of CD73, D90, CD105 in the lack of expression of CD14, CD34, CD45, and human leucocyte antigen-DR (HLA-DR), and also the capability to differentiate to multiple cell types including adipocyte, chondrocyte, or osteoblast in vitro depends on culture conditions. However, these distinct properties, including self-renewability, multipotency, and easy accessibility are just one side of the coin; another side is their huge secretome which is comprised of hundreds of mediators, cytokines, and signaling molecules and can effectively modulate the inflammatory responses and control the infiltration process that finally leads to a regulated tissue repair/healing or regeneration process. MSC-mediated immunomodulation is a direct result of a harmonic synergy of MSC-released signaling molecules (i.e., mediators, cytokines, and chemokines), the reaction of immune cells and other target cells to those molecules, and also feedback in the MSC-molecule-target cell axis. These features make MSCs a respectable and eligible therapeutic candidate to be evaluated in immune-mediated disorders, such as graft versus host diseases (GVHD), multiple sclerosis (MS), Crohn’s disease (CD), and osteoarthritis (OA), and even in immune-dysregulating infectious diseases such as the novel coronavirus disease 2019 (COVID-19). This paper discussed the therapeutic applications of MSC secretome and its biomedical aspects related to immune-mediated conditions. Sources for MSC extraction, their migration and homing properties, therapeutic molecules released by MSCs, and the pathways and molecular mechanisms possibly involved in the exceptional immunoregulatory competence of MSCs were discussed. Besides, the novel discoveries and recent findings on immunomodulatory plasticity of MSCs, clinical applications, and the methods required for their use as an effective therapeutic option in patients with immune-mediated/immune-dysregulating diseases were highlighted.
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Isolation and characterization of Wad Medani virus obtained in the tuva Republic of Russia
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01.03.2021 |
Dedkov V.G.
Dolgova A.S.
Safonova M.V.
Samoilov A.E.
Belova O.A.
Kholodilov I.S.
Matsvay A.D.
Speranskaya A.S.
Khafizov K.
Karganova G.G.
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Ticks and Tick-borne Diseases |
10.1016/j.ttbdis.2020.101612 |
0 |
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© 2020 Elsevier GmbH Wad Medani virus (WMV) belongs to the genus Orbivirus and is a poorly studied arbovirus with unclear medical significance. Presently, a limited number of WMV strains are characterized and available in NCBI GenBank, some isolated many years ago. A new WMV strain was isolated in 2012 from Dermacentor nuttalli ticks collected from sheep in the Tuva Republic, Russia, and sequenced using high-throughput methods. Complete coding sequences were obtained revealing signs of multiple intersegment reassortments. These point to a high variability potential in WMV that may lead to the formation of strains with novel properties. These new data on WMV can promote better understanding of: ecological features of its circulation; relationships within the genus Orbivirus; and the medical significance of the virus.
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Isolation and characterization of Wad Medani virus obtained in the tuva Republic of Russia
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01.03.2021 |
Dedkov V.G.
Dolgova A.S.
Safonova M.V.
Samoilov A.E.
Belova O.A.
Kholodilov I.S.
Matsvay A.D.
Speranskaya A.S.
Khafizov K.
Karganova G.G.
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Ticks and Tick-borne Diseases |
10.1016/j.ttbdis.2020.101612 |
0 |
Ссылка
© 2020 Elsevier GmbH Wad Medani virus (WMV) belongs to the genus Orbivirus and is a poorly studied arbovirus with unclear medical significance. Presently, a limited number of WMV strains are characterized and available in NCBI GenBank, some isolated many years ago. A new WMV strain was isolated in 2012 from Dermacentor nuttalli ticks collected from sheep in the Tuva Republic, Russia, and sequenced using high-throughput methods. Complete coding sequences were obtained revealing signs of multiple intersegment reassortments. These point to a high variability potential in WMV that may lead to the formation of strains with novel properties. These new data on WMV can promote better understanding of: ecological features of its circulation; relationships within the genus Orbivirus; and the medical significance of the virus.
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Arboviruses in the Astrakhan region of Russia for 2018 season: The development of multiplex PCR assays and analysis of mosquitoes, ticks, and human blood sera
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01.03.2021 |
Nikiforova M.A.
Kuznetsova N.A.
Shchetinin A.M.
Butenko A.M.
Kozlova A.A.
Larichev V.P.
Vakalova E.V.
Azarian A.R.
Rubalsky O.V.
Bashkina O.A.
Tkachuk A.P.
Gushchin V.A.
Gintsburg A.L.
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Infection, Genetics and Evolution |
10.1016/j.meegid.2021.104711 |
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© 2021 Elsevier B.V. The Astrakhan region of Russia is endemic for the number of arboviruses. In this paper, we describe the results of the detection of the list of neglected arboviruses in the Astrakhan region for the 2018 season. For the purpose of the study in-house PCR assays for detection of 18 arboviruses have been developed and validated using arboviruses obtained from Russian State Collection of Viruses. Pools of ticks (n = 463) and mosquitoes (n = 312) as well as 420 samples of human patients sera have been collected and analyzed. Using developed multiplex real-time PCR assays we were able to detect RNA of eight arboviruses (Crimean-Congo hemorrhagic fever virus, Dhori (Batken strain) virus, Batai virus, Tahyna virus, Uukuniemi virus, Inkoo virus, Sindbis virus and West Nile fever virus). All discovered viruses are capable of infecting humans causing fever and in some cases severe forms with hemorrhagic or neurologic symptoms. From PCR-positive samples, we were able to recover one isolate each of Dhori (Batken strain) virus and Crimean-Congo hemorrhagic fever virus which were further characterized by next-generation sequencing. The genomic sequences of identified Dhori (Batken strain) virus strain represent the most complete genome of Batken virus strain among previously reported.
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Potential immuno-nanomedicine strategies to fight COVID-19 like pulmonary infections
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01.02.2021 |
Bonam S.R.
Kotla N.G.
Bohara R.A.
Rochev Y.
Webster T.J.
Bayry J.
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Nano Today |
10.1016/j.nantod.2020.101051 |
0 |
Ссылка
© 2020 Elsevier Ltd COVID-19, coronavirus disease 2019, caused by the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has become a pandemic. At the time of writing this (October 14, 2020), more than 38.4 million people have become affected, and 1.0 million people have died across the world. The death rate is undoubtedly correlated with the cytokine storm and other pathological pulmonary characteristics, as a result of which the lungs cannot provide sufficient oxygen to the body's vital organs. While diversified drugs have been tested as a first line therapy, the complexity of fatal cases has not been reduced so far, and the world is looking for a treatment to combat the virus. However, to date, and despite such promise, we have received very limited information about the potential of nanomedicine to fight against COVID-19 or as an adjunct therapy in the treatment regimen. Over the past two decades, various therapeutic strategies, including direct-acting antiviral drugs, immunomodulators, a few non-specific drugs (simple to complex), have been explored to treat Acute Respiratory Distress Syndrome (ARDS), Severe Acute Respiratory Syndrome (SARS) and Middle East Respiratory Syndrome (MERS), influenza, and sometimes the common flu, thus, correlating and developing specific drugs centric to COVID-19 is possible. This review article focuses on the pulmonary pathology caused by SARS-CoV-2 and other viral pathogens, highlighting possible nanomedicine therapeutic strategies that should be further tested immediately.
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Potential immuno-nanomedicine strategies to fight COVID-19 like pulmonary infections
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01.02.2021 |
Bonam S.R.
Kotla N.G.
Bohara R.A.
Rochev Y.
Webster T.J.
Bayry J.
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Nano Today |
10.1016/j.nantod.2020.101051 |
0 |
Ссылка
© 2020 Elsevier Ltd COVID-19, coronavirus disease 2019, caused by the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has become a pandemic. At the time of writing this (October 14, 2020), more than 38.4 million people have become affected, and 1.0 million people have died across the world. The death rate is undoubtedly correlated with the cytokine storm and other pathological pulmonary characteristics, as a result of which the lungs cannot provide sufficient oxygen to the body's vital organs. While diversified drugs have been tested as a first line therapy, the complexity of fatal cases has not been reduced so far, and the world is looking for a treatment to combat the virus. However, to date, and despite such promise, we have received very limited information about the potential of nanomedicine to fight against COVID-19 or as an adjunct therapy in the treatment regimen. Over the past two decades, various therapeutic strategies, including direct-acting antiviral drugs, immunomodulators, a few non-specific drugs (simple to complex), have been explored to treat Acute Respiratory Distress Syndrome (ARDS), Severe Acute Respiratory Syndrome (SARS) and Middle East Respiratory Syndrome (MERS), influenza, and sometimes the common flu, thus, correlating and developing specific drugs centric to COVID-19 is possible. This review article focuses on the pulmonary pathology caused by SARS-CoV-2 and other viral pathogens, highlighting possible nanomedicine therapeutic strategies that should be further tested immediately.
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Functional mechanisms for the development of acute respiratory viral infection
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01.01.2021 |
Medvedev I.N.
Bakulina E.D.
Rysakova O.G.
Garina E.V.
Dorontsev A.V.
Sibgatulina F.R.
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International Journal of Pharmaceutical Research |
10.31838/ijpr/2021.13.01.057 |
0 |
Ссылка
© 2020, Advanced Scientific Research. All rights reserved. In the modern world, acute respiratory viral infections are a widespread and socially significant disease. Having the similarity of structure, epidemiology and strong tropism to the respiratory tract, each causative agent of acute respiratory viral infection has its own characteristics. The most severe course with complications is characteristic of influenza. More than 200 viruses are known to cause acute respiratory viral infections. Their diversity is very great. This creates a situation when a person, having been ill with a disease caused by one virus, can immediately become infected with other viruses of this group and get sick again. For a year in the world, for an adult, 3-4 cases of the disease of acute respiratory viral infection occur. A child suffers from this infection 6-9 times during the year. 3.9 million deaths worldwide are associated with acute respiratory viral infections each year. Due to the enormous social significance of acute respiratory viral infection, the World Health Organization has launched the Battle against Respiratory Viruses initiative to combat it. Her prerequisites were problems with the treatment and prevention of acute respiratory viral infection. It is aimed at improving diagnostic methods to differentiate viral and bacterial infections at the earliest stages of the disease, developing effective antiviral drugs for the most common viruses and safe and effective stimulants of defense mechanisms in the body. It becomes clear that acute respiratory viral infections are a diverse group of infectious diseases of the respiratory tract that have similar developmental mechanisms, epidemiological and clinical characteristics. Given that these diseases have a high contagiousness, rapid spread, a significant number of complications, especially among people at risk, they require serious and lengthy research.
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Polymorphisms in dipeptidyl peptidase 4 reduce host cell entry of Middle East respiratory syndrome coronavirus
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01.12.2020 |
Kleine-Weber H.
Schroeder S.
Krüger N.
Prokscha A.
Naim H.
Müller M.
Drosten C.
Pöhlmann S.
Hoffmann M.
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Emerging microbes & infections |
10.1080/22221751.2020.1713705 |
0 |
Ссылка
Middle East respiratory syndrome (MERS) coronavirus (MERS-CoV) causes a severe respiratory disease in humans. The MERS-CoV spike (S) glycoprotein mediates viral entry into target cells. For this, MERS-CoV S engages the host cell protein dipeptidyl peptidase 4 (DPP4, CD26) and the interface between MERS-CoV S and DPP4 has been resolved on the atomic level. Here, we asked whether naturally-occurring polymorphisms in DPP4, that alter amino acid residues required for MERS-CoV S binding, influence cellular entry of MERS-CoV. By screening of public databases, we identified fourteen such polymorphisms. Introduction of the respective mutations into DPP4 revealed that all except one (Δ346-348) were compatible with robust DPP4 expression. Four polymorphisms (K267E, K267N, A291P and Δ346-348) strongly reduced binding of MERS-CoV S to DPP4 and S protein-driven host cell entry, as determined using soluble S protein and S protein bearing rhabdoviral vectors, respectively. Two polymorphisms (K267E and A291P) were analyzed in the context of authentic MERS-CoV and were found to attenuate viral replication. Collectively, we identified naturally-occurring polymorphisms in DPP4 that negatively impact cellular entry of MERS-CoV and might thus modulate MERS development in infected patients.
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Polymorphisms in dipeptidyl peptidase 4 reduce host cell entry of Middle East respiratory syndrome coronavirus
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01.12.2020 |
Kleine-Weber H.
Schroeder S.
Krüger N.
Prokscha A.
Naim H.
Müller M.
Drosten C.
Pöhlmann S.
Hoffmann M.
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Emerging microbes & infections |
10.1080/22221751.2020.1713705 |
0 |
Ссылка
Middle East respiratory syndrome (MERS) coronavirus (MERS-CoV) causes a severe respiratory disease in humans. The MERS-CoV spike (S) glycoprotein mediates viral entry into target cells. For this, MERS-CoV S engages the host cell protein dipeptidyl peptidase 4 (DPP4, CD26) and the interface between MERS-CoV S and DPP4 has been resolved on the atomic level. Here, we asked whether naturally-occurring polymorphisms in DPP4, that alter amino acid residues required for MERS-CoV S binding, influence cellular entry of MERS-CoV. By screening of public databases, we identified fourteen such polymorphisms. Introduction of the respective mutations into DPP4 revealed that all except one (Δ346-348) were compatible with robust DPP4 expression. Four polymorphisms (K267E, K267N, A291P and Δ346-348) strongly reduced binding of MERS-CoV S to DPP4 and S protein-driven host cell entry, as determined using soluble S protein and S protein bearing rhabdoviral vectors, respectively. Two polymorphisms (K267E and A291P) were analyzed in the context of authentic MERS-CoV and were found to attenuate viral replication. Collectively, we identified naturally-occurring polymorphisms in DPP4 that negatively impact cellular entry of MERS-CoV and might thus modulate MERS development in infected patients.
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Polymorphisms in dipeptidyl peptidase 4 reduce host cell entry of Middle East respiratory syndrome coronavirus
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01.12.2020 |
Kleine-Weber H.
Schroeder S.
Krüger N.
Prokscha A.
Naim H.
Müller M.
Drosten C.
Pöhlmann S.
Hoffmann M.
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Emerging microbes & infections |
10.1080/22221751.2020.1713705 |
0 |
Ссылка
Middle East respiratory syndrome (MERS) coronavirus (MERS-CoV) causes a severe respiratory disease in humans. The MERS-CoV spike (S) glycoprotein mediates viral entry into target cells. For this, MERS-CoV S engages the host cell protein dipeptidyl peptidase 4 (DPP4, CD26) and the interface between MERS-CoV S and DPP4 has been resolved on the atomic level. Here, we asked whether naturally-occurring polymorphisms in DPP4, that alter amino acid residues required for MERS-CoV S binding, influence cellular entry of MERS-CoV. By screening of public databases, we identified fourteen such polymorphisms. Introduction of the respective mutations into DPP4 revealed that all except one (Δ346-348) were compatible with robust DPP4 expression. Four polymorphisms (K267E, K267N, A291P and Δ346-348) strongly reduced binding of MERS-CoV S to DPP4 and S protein-driven host cell entry, as determined using soluble S protein and S protein bearing rhabdoviral vectors, respectively. Two polymorphisms (K267E and A291P) were analyzed in the context of authentic MERS-CoV and were found to attenuate viral replication. Collectively, we identified naturally-occurring polymorphisms in DPP4 that negatively impact cellular entry of MERS-CoV and might thus modulate MERS development in infected patients.
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Immunosuppressive therapy of biopsy proved immune-mediated lymphocytic myocarditis in the virus-negative and virus-positive patients.
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01.11.2020 |
Blagova O.
Nedostup A.
Kogan E.
Zaitsev A.
Fomin V.
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Cardiovascular Pathology |
10.1016/j.carpath.2020.107260 |
0 |
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© 2020 Purpose: to study the effect of immunosupressive therapy (IST) in the virus-negative and virus-positive patients with immune-mediated myocarditis. Methods: in 60 patients (45 male, 46.7 ± 11.8 years, mean LV EDD, 6.7 ± 0.7 cm, EF 26.2 ± 9.1%) active/borderline myocarditis was verified by endomyocardial biopsy (n = 38), intraoperative biopsy (n = 10), examination of explanted heart (n = 3) and autopsy (n = 9). Indications for IST determined based on histological, immune activity. The follow-up was 19.0 [7.25; 40.25] months. Results: The viral genome in the myocardium was detected in 32 patients (V+ group), incl. parvovirus B19 in 23. The anti-heart antibody level was equally high in the V+ and V- patients. Antiviral therapy was administered in 24 patients. IST (in 22 V+ and 24 V- patients) include steroids (n = 40), hydroxychloroquine (n = 20), azathioprine (n = 21). The significant decrease of LV EDD (6.7 ± 0.7 to 6.4 ± 0.8), PAP (48.9 ± 15.5 to 39.4 ± 11.5 mm Hg, р<0,01), increase of EF (26.5 ± 0.9 to 36.0 ± 10.8), and lower lethality (23.9% and 64.3%; RR 0.37, 95% CI 0.19–0.71), p<0.01, were found only in IST group. Significant improvement due to IST were achieved not only in V-, but also in V+ patients. Conclusions: IST in patients with immune-mediated lymphocytic myocarditis is effective and is associated with lower lethality both in virus-negative and virus-positive patients.
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Genetic diversity of Kemerovo virus and phylogenetic relationships within the Great Island virus genetic group
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01.03.2020 |
Safonova M.
Gmyl A.
Lukashev A.
Speranskaya A.
Neverov A.
Fedonin G.
Pimkina E.
Matsvay A.
Khafizov K.
Karganova G.
Kozlovskaya L.
Valdokhina A.
Bulanenko V.
Dedkov V.
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Ticks and Tick-borne Diseases |
10.1016/j.ttbdis.2019.101333 |
0 |
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© 2019 Elsevier GmbH Kemerovo virus (KEMV) is a member of the Great Island virus genetic group, belonging to the tick-borne arboviruses of the genus Orbivirus within the family Reoviridae. Nine strains of KEMV, which were isolated from various locations in Russia, were sequenced by high-throughput sequencing to study their intraspecific diversity and the interspecific relationships of viruses within the Great Island genetic group. For the first time, multiple reassortment within KEMV was reliably demonstrated. Different types of independently emerged alternative reading frames in segment 9 and heterogeneity of the viral population in one of the KEMV strains were found. The hypothesis of the role of an alternative open reading frame (ORF) in segment 9 in KEMV cellular tropism was not confirmed in this study.
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Genetic diversity of Kemerovo virus and phylogenetic relationships within the Great Island virus genetic group
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01.03.2020 |
Safonova M.
Gmyl A.
Lukashev A.
Speranskaya A.
Neverov A.
Fedonin G.
Pimkina E.
Matsvay A.
Khafizov K.
Karganova G.
Kozlovskaya L.
Valdokhina A.
Bulanenko V.
Dedkov V.
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Ticks and Tick-borne Diseases |
10.1016/j.ttbdis.2019.101333 |
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Ссылка
© 2019 Elsevier GmbH Kemerovo virus (KEMV) is a member of the Great Island virus genetic group, belonging to the tick-borne arboviruses of the genus Orbivirus within the family Reoviridae. Nine strains of KEMV, which were isolated from various locations in Russia, were sequenced by high-throughput sequencing to study their intraspecific diversity and the interspecific relationships of viruses within the Great Island genetic group. For the first time, multiple reassortment within KEMV was reliably demonstrated. Different types of independently emerged alternative reading frames in segment 9 and heterogeneity of the viral population in one of the KEMV strains were found. The hypothesis of the role of an alternative open reading frame (ORF) in segment 9 in KEMV cellular tropism was not confirmed in this study.
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Universal Library Preparation Protocol for Efficient High-Throughput Sequencing of Double-Stranded RNA Viruses
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01.01.2020 |
Dolgova A.
Safonova M.
Dedkov V.
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Methods in Molecular Biology |
10.1007/978-1-0716-0138-9_14 |
0 |
Ссылка
© Springer Science+Business Media, LLC, part of Springer Nature 2020. This chapter reports a library preparation protocol for efficient high-throughput sequencing of double-stranded RNA viruses. The protocol consists of four main steps, viz., enzyme treatment, precipitation using lithium chloride, full-length amplification of cDNAs, and tailing adapters for high-throughput sequencing. This protocol will be useful for all double-stranded RNA viruses and for all of the high-throughput sequencing platforms.
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The Effect of Sample Bias and Experimental Artefacts on the Statistical Phylogenetic Analysis of Picornaviruses
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06.11.2019 |
Vakulenko Y.
Deviatkin A.
Lukashev A.
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Viruses |
10.3390/v11111032 |
1 |
Ссылка
Statistical phylogenetic methods are a powerful tool for inferring the evolutionary history of viruses through time and space. The selection of mathematical models and analysis parameters has a major impact on the outcome, and has been relatively well-described in the literature. The preparation of a sequence dataset is less formalized, but its impact can be even more profound. This article used simulated datasets of enterovirus sequences to evaluate the effect of sample bias on picornavirus phylogenetic studies. Possible approaches to the reduction of large datasets and their potential for introducing additional artefacts were demonstrated. The most consistent results were obtained using "smart sampling", which reduced sequence subsets from large studies more than those from smaller ones in order to preserve the rare sequences in a dataset. The effect of sequences with technical or annotation errors in the Bayesian framework was also analyzed. Sequences with about 0.5% sequencing errors or incorrect isolation dates altered by just 5 years could be detected by various approaches, but the efficiency of identification depended upon sequence position in a phylogenetic tree. Even a single erroneous sequence could profoundly destabilize the whole analysis by increasing the variance of the inferred evolutionary parameters.
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Molecular Characterization of Leishmania RNA virus 2 in Leishmaniamajor from Uzbekistan
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21.10.2019 |
Kleschenko Y.
Grybchuk D.
Matveeva N.
Macedo D.
Ponirovsky E.
Lukashev A.
Yurchenko V.
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Genes |
10.3390/genes10100830 |
0 |
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Here we report sequence and phylogenetic analysis of two new isolates of Leishmania RNA virus 2 (LRV2) found in Leishmania major isolated from human patients with cutaneous leishmaniasis in south Uzbekistan. These new virus-infected flagellates were isolated in the same region of Uzbekistan and the viral sequences differed by only nineteen SNPs, all except one being silent mutations. Therefore, we concluded that they belong to a single LRV2 species. New viruses are closely related to the LRV2-Lmj-ASKH documented in Turkmenistan in 1995, which is congruent with their shared host (L. major) and common geographical origin.
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First detection of tick-borne encephalitis virus in Ixodes ricinus ticks and their rodent hosts in Moscow, Russia
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01.10.2019 |
Makenov M.
Karan L.
Shashina N.
Akhmetshina M.
Zhurenkova O.
Kholodilov I.
Karganova G.
Smirnova N.
Grigoreva Y.
Yankovskaya Y.
Fyodorova M.
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Ticks and Tick-borne Diseases |
10.1016/j.ttbdis.2019.101265 |
0 |
Ссылка
© 2019 Elsevier GmbH Here, we report the first confirmed autochthonous tick-borne encephalitis case diagnosed in Moscow in 2016 and describe the detection of tick-borne encephalitis virus (TBEV) in ticks and small mammals in a Moscow park. The paper includes data from two patients who were bitten by TBEV-infected ticks in Moscow city; one of these cases led to the development of the meningeal form of TBE. Both TBEV-infected ticks attacked patients in the same area. We collected ticks and trapped small mammals in this area in 2017. All samples were screened for the presence of pathogens causing tick-borne diseases by PCR. The TBEV-positive ticks and small mammals’ tissue samples were subjected to virus isolation. The sequencing of the complete polyprotein gene of the positive samples was performed. A total of 227 questing ticks were collected. TBEV was detected in five specimens of Ixodes ricinus. We trapped 44 small mammals, mainly bank voles (Myodes glareolus) and pygmy field mice (Apodemus uralensis). Two samples of brain tissue from bank voles yielded a positive signal in RT-PCR for TBEV. We obtained six virus isolates from the ticks and brain tissue of a bank vole. Complete genome sequencing showed that the obtained isolates belong to the European subtype and have low diversity with sequence identities as high as 99.9%. GPS tracking showed that the maximum distance between the exact locations where the TBEV-positive ticks were collected was 185 m. We assume that the forest park had been free of TBEV and that the virus was recently introduced.
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Using statistical phylogenetics for investigation of enterovirus 71 genotype a reintroduction into circulation
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25.09.2019 |
Vakulenko Y.
Deviatkin A.
Lukashev A.
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Viruses |
10.3390/v11100895 |
0 |
Ссылка
© 2019 by the authors. Licensee MDPI, Basel, Switzerland. Neurovirulent enterovirus 71 (EV-A71) caused a massive epidemic in China in 2008-2011. While subgenotype C4 was the major causative agent, a few isolates were almost identical to the prototype EV-A71 strain and belonged to genotype A. This variant was allegedly extinct since 1970, and its identification in this epidemic suggests reintroduction of the archive virus. Regression analysis of genetic distances (TempEst software) was of moderate utility due to the low resolution of classical phylogenetic methods. Bayesian phylogenetic analysis (BEAST software) suggested artificial introduction event based on highly aberrant phylogenetic tree branch rates that differed by over three standard deviations from the mean substitution rate for EV71. Manual nucleotide-level analysis was used to further explore the virus spread pattern after introduction into circulation. Upon reintroduction, the virus accumulated up to seven substitutions in VP1, most of them non-synonymous and located within the capsid's canyon or at its rims, compatible with readaptation of a lab strain to natural circulation.
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Lysine-specific post-translational modifications of proteins in the life cycle of viruses
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02.09.2019 |
Loboda A.
Soond S.
Piacentini M.
Barlev N.
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Cell Cycle |
10.1080/15384101.2019.1639305 |
0 |
Ссылка
© 2019, © 2019 Informa UK Limited, trading as Taylor & Francis Group. The process of protein post-translational modifications (PTM) is one of the critical mechanisms of regulation of many cellular processes, which makes it an attractive target for various viruses. Since viruses cannot replicate on their own, they have developed unique abilities to alter metabolic and signaling cell pathways, including protein PTMs, to ensure faithful replication of their genomes. This review describes several ways of how lysine-specific PTMs are used by various viruses to ensure its successful invasion and replication. Covalent modifications like acetylation, ubiquitination, and methylation form a complex system of reversible and often competing modifications, which adds an additional level of complexity to the system of regulation of the activity of host proteins involved in viral replication and propagation. In furthering these, we also describe the manner in which PTM pathways can also be accosted by various types of viruses to neutralize the host’s cellular mechanisms for anti-viral protection and highlight key areas for future therapeutic targeting and design.
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Selection of Domestic Cell Lines for the Creation of Diagnostic and Preventive Preparations against Enterovirus 71
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01.09.2019 |
Konyushko O.
Grachev V.
Popova V.
Ozherelkov S.
Vorovich M.
Ivanova A.
Sotskova S.
Kozhevnikova T.
Sanin A.
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Bulletin of Experimental Biology and Medicine |
10.1007/s10517-019-04590-1 |
0 |
Ссылка
© 2019, Springer Science+Business Media, LLC, part of Springer Nature. We studied the sensitivity of domestic proprietary human and animal cell lines from the collection of M. P. Chumakov Federal Scientific Center for Research and Development of Immuneand-Biological Products to infection with different enterovirus 71 strains. A cell system based on domestic proprietary permanent cell line 4647 was for the first time used for reproduction of four enterovirus 71 strains (BrCr, 42266, 42934, and 43374). It was shown that strain 4647 is the optimal cell substrate for enterovirus 71 reproduction. The titers of enterovirus 71 for all four strains considerably (by 2 lgTCID50/ml and more) increased during sequential passages in permanent cell line 4647. The prospects of using permanent cell line 4647 for creation of diagnostic and preventive preparations against 71 was demonstrated.
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