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Caractérisation d'antiviraux contre divers Bunyaviridae, criblage, validation et étude du cap-snatching et les mécanismes d'initiation de la transcription du phlebovirus Toscana / Characterization of antivirals against various Bunyaviridae, screening, validation and study of cap-snatching and transcription initiation mechanisms of phlebovirus ToscanaAmroun, Abdennour 21 December 2017 (has links)
Lors d’un crible d’une chimiothèque de ChemBridge (28 500 composés), nous avons identifié deux molécules (T10 et T13), chimiquement très proches, capables d’inhiber la réplication du phlebovirus Toscana (TOSV) (Phenuiviridae) dans des cellules de singe Vero E6. Une recherche d’analogues disponibles commercialement a permis d’identifier le (T101) capable d’inhiber divers virus appartenant à l’ordre des Bunyavirales, mais aussi des flavivirus et des alphavirus. Le large spectre d’activité du T101 suggérait une cible cellulaire que nous avons pu identifier avec son mécanisme d’action potentiel (confidentiel avant dépôt de brevet). En collaboration avec un groupe de chimistes de l’Institut de Virologie de Hambourg (Allemagne), nous avons synthétisé et testé environ 300 analogues structuraux (2D et 3D) de ces molécules en vue d’optimiser l’activité antivirale par une étude SAR (relation structure-activité). Les meilleures molécules (index de sélectivité CC50/IC50> 400) suivant les virus et l’origine de l’espèce cellulaire (humaine, singe et souris), ont été sélectionnées pour des études de leurs propriétés de solubilité, d’absorption, et de stabilité métabolique (ADME-TOX). La molécule la plus active sur cellules murines sera testée lors d’infections expérimentales de souris.En parallèle, j’ai écrit une revue sur la RdRp des Bunyavirales en décrivant sa structure, ses motifs et les différents mécanismes de synthèse des ARN viraux. J’ai également fait une étude sur le mécanisme de vol de coiffe du TOSV. J’ai essayé de construire un système de génétique inverse pour TOSV. Enfin j’ai aussi participé à l’étude de l’évolution du CHIKV dans les cellules d’insectes et de mammifères / We have screened a subset of the ChemBridge chemical library (28,500 compounds) for compounds inhibiting the replication of Toscana phlebovirus (TOSV) (Phenuiviridae family) in Vero E6 primate cell cultures. Tow molecules chemically very close (T10, T13) have been validated as good inhibitors of TOSV replication. The search for commercially available analogs allowed the identification of (T101). This compound is found active against viruses from highly divergent families such as Bunyavirales order, Flavivirus and Alphavirus. We have determined that the target of this compound family is a cellular enzyme (the cellular target and the mechanism of action are confidential). The inhibitors family was further explored through the synthesis, by a group of chemists (Hambourg University, Germany), of about 300 structural analogs in order to optimize the antiviral activity using SAR studies (structure-activity relationship). The most active molecules (selectivity index CC50 / IC50> 400) depending on virus species and origin of cell species (human, monkey and mouse) were selected for studies of solubility, absorption, metabolic stability (ADME-TOX) and pharmacodynamics. The most promising compound that is active in murine cells will be tested in experimentally infected mice.I wrote a review on the RdRp of bunyaviruses describing its structure, motifs and the various mechanisms of viral RNA synthesis. I also made a study on the cap-snatching mechanism and the initiation of transcription of TOSV and tried to develop a reverse genetics system for TOSV. In parallel I also participated in the study of the evolution of Chikungunya virus (CHIKV) in insect and mammalian cells.
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Caracterização genômica e evolutiva de vírus zoonóticos nas Américas / Genomic and evolutionary characterization of zoonotic viruses in the AmericasSouza, William Marciel de 10 November 2017 (has links)
O sequenciamento de alto desempenho, pela redução dos custos nos últimos anos, vem sendo cada vez mais utilizado para prospectar e identificar vírus. Estes métodos são extremamente mais sensíveis que outros métodos moleculares, e capazes de sequenciar genomas virais sem conhecimento prévio, clonagem ou isolamento. Neste estudo, utilizamos o sequenciamento de alto desempenho para conhecer, e caracterizar genomas completos de arbovírus isolados nas Américas, incluindo a prospecção de vírus em amostras de pequenos mamíferos do estado de São Paulo, Brasil. Assim, sequenciamos e caracterizamos 44 Bunyavirales, 35 no gênero Orthobunyavirus, família Peribunyaviridae, oito no gênero Phlebovirus, família Phenuiviridae, e um orthonairovírus, família Nairoviridae. Entre os Bunyavirales identificamos uma provável nova estratégia de codificação da proteína não estrutural do segmento pequeno, e ainda identificados sete vírus que são reassortants naturais. Caracterizamos o genoma completo do vesiculovírus Piry, determinando sua relação filogenética com arbovírus pertencentes ao gênero Vesiculovirus, família Rhabdoviridae. Prospectamos novos vírus, os quais incluímos em três famílias, Parvoviridae, Anelloviridae e Hepeviridae. Na família Parvoviridae, identificamos 20 chapparvovírus endógenos e exógenos, oriundos de grande diversidade de hospedeiros vertebrados e invertebrados, e que representam uma nova subfamília, a Chapparvovirinae. Também, descrevemos onze novas espécies de Anelloviridae em roedores silvestres e marsupiais, fornecendo importantes informações sobre a diversidade, a taxonomia, e ainda ampliamos a gama de hospedeiros de anellovírus conhecidos. Por fim, identificamos e caracterizamos uma nova espécie de Orthohepevirus de roedores Sigmodontinae, nomeada \"Orthohepevirus E\". Acreditamos que estamos a fornecer relevantes informações sobre genômica, epidemiologia molecular, evolução e taxonomia de 45 arbovírus americanos, bem como sobre 13 novas espécies virais encontradas em pequenos mamíferos. Tais informações deverão dar subsídios para múltiplos futuros estudos visando compreender a importância destes novos vírus e a desenvolver métodos diagnósticos. / In last years, high-throughput sequencing (HTS) has been cost-effective and increasingly used for prospection and identification of viruses. These methods are extremely more sensitive than other molecular methods and are capable of sequencing viral genomes without prior knowledge, cloning or isolation. In this study, we used HTS approach to identify and characterize complete genomes of arbovirus isolated in the Americas, as well as viral prospection in samples of small mammals from São Paulo State, Brazil. Thus, we sequenced and characterized 44 viruses from Bunyavirales order, including 35 in Orthobunyavirus genus, family Peribunyaviridae, eight in Phlebovirus genus, family Phenuiviridae, and one in Orthonairovirus genus, family Nairoviridae. Among the Bunyavirales we identified a novel putative strategy for encoding the non-structural protein of the small segment, as well as we identified seven viruses that are natural reassortants. Also, we characterized the complete genome of the Piry vesiculovirus, determining its phylogenetic relationship with arboviruses belonging to the Vesiculovirus genus, family Rhabdoviridae. On the other hand, we have prospected novel viruses, which included in three families, Parvoviridae, Anelloviridae, and Hepeviridae. In the Parvoviridae family, we identified 20 endogenous and exogenous chapparvoviruses from a broad diversity of vertebrate and invertebrate hosts, representing a new subfamily, the Chapparvovirinae. Also, we have described eleven new species of Anelloviridae in wild rodents and marsupials, providing important information on diversity, taxonomy and even broadening the range of known anelloviruses hosts. Finally, we identified and characterized a novel species of orthohepevirus in Sigmodontinae rodent, named \"Orthohepevirus E\". We believe that we are providing relevant relevant on genomics, molecular epidemiology, evolution and taxonomy of 45 American arboviruses, as well as on 13 new viral species found in small mammals. Thus, these informations should provide support for multiple future studies to understand the importance of these new viruses, as well as to develop diagnostic methods.
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Caracterização genômica e evolutiva de vírus zoonóticos nas Américas / Genomic and evolutionary characterization of zoonotic viruses in the AmericasWilliam Marciel de Souza 10 November 2017 (has links)
O sequenciamento de alto desempenho, pela redução dos custos nos últimos anos, vem sendo cada vez mais utilizado para prospectar e identificar vírus. Estes métodos são extremamente mais sensíveis que outros métodos moleculares, e capazes de sequenciar genomas virais sem conhecimento prévio, clonagem ou isolamento. Neste estudo, utilizamos o sequenciamento de alto desempenho para conhecer, e caracterizar genomas completos de arbovírus isolados nas Américas, incluindo a prospecção de vírus em amostras de pequenos mamíferos do estado de São Paulo, Brasil. Assim, sequenciamos e caracterizamos 44 Bunyavirales, 35 no gênero Orthobunyavirus, família Peribunyaviridae, oito no gênero Phlebovirus, família Phenuiviridae, e um orthonairovírus, família Nairoviridae. Entre os Bunyavirales identificamos uma provável nova estratégia de codificação da proteína não estrutural do segmento pequeno, e ainda identificados sete vírus que são reassortants naturais. Caracterizamos o genoma completo do vesiculovírus Piry, determinando sua relação filogenética com arbovírus pertencentes ao gênero Vesiculovirus, família Rhabdoviridae. Prospectamos novos vírus, os quais incluímos em três famílias, Parvoviridae, Anelloviridae e Hepeviridae. Na família Parvoviridae, identificamos 20 chapparvovírus endógenos e exógenos, oriundos de grande diversidade de hospedeiros vertebrados e invertebrados, e que representam uma nova subfamília, a Chapparvovirinae. Também, descrevemos onze novas espécies de Anelloviridae em roedores silvestres e marsupiais, fornecendo importantes informações sobre a diversidade, a taxonomia, e ainda ampliamos a gama de hospedeiros de anellovírus conhecidos. Por fim, identificamos e caracterizamos uma nova espécie de Orthohepevirus de roedores Sigmodontinae, nomeada \"Orthohepevirus E\". Acreditamos que estamos a fornecer relevantes informações sobre genômica, epidemiologia molecular, evolução e taxonomia de 45 arbovírus americanos, bem como sobre 13 novas espécies virais encontradas em pequenos mamíferos. Tais informações deverão dar subsídios para múltiplos futuros estudos visando compreender a importância destes novos vírus e a desenvolver métodos diagnósticos. / In last years, high-throughput sequencing (HTS) has been cost-effective and increasingly used for prospection and identification of viruses. These methods are extremely more sensitive than other molecular methods and are capable of sequencing viral genomes without prior knowledge, cloning or isolation. In this study, we used HTS approach to identify and characterize complete genomes of arbovirus isolated in the Americas, as well as viral prospection in samples of small mammals from São Paulo State, Brazil. Thus, we sequenced and characterized 44 viruses from Bunyavirales order, including 35 in Orthobunyavirus genus, family Peribunyaviridae, eight in Phlebovirus genus, family Phenuiviridae, and one in Orthonairovirus genus, family Nairoviridae. Among the Bunyavirales we identified a novel putative strategy for encoding the non-structural protein of the small segment, as well as we identified seven viruses that are natural reassortants. Also, we characterized the complete genome of the Piry vesiculovirus, determining its phylogenetic relationship with arboviruses belonging to the Vesiculovirus genus, family Rhabdoviridae. On the other hand, we have prospected novel viruses, which included in three families, Parvoviridae, Anelloviridae, and Hepeviridae. In the Parvoviridae family, we identified 20 endogenous and exogenous chapparvoviruses from a broad diversity of vertebrate and invertebrate hosts, representing a new subfamily, the Chapparvovirinae. Also, we have described eleven new species of Anelloviridae in wild rodents and marsupials, providing important information on diversity, taxonomy and even broadening the range of known anelloviruses hosts. Finally, we identified and characterized a novel species of orthohepevirus in Sigmodontinae rodent, named \"Orthohepevirus E\". We believe that we are providing relevant relevant on genomics, molecular epidemiology, evolution and taxonomy of 45 American arboviruses, as well as on 13 new viral species found in small mammals. Thus, these informations should provide support for multiple future studies to understand the importance of these new viruses, as well as to develop diagnostic methods.
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