Global ETD Search

181	Membrane Invaginations Reveal Cortical Sites that Pull on Mitotic Spindles in One-Cell C. elegans Embryos Redemann, Stefanie, Pecreaux, Jacques, Goehring, Nathan W., Khairy, Khaled, Stelzer, Ernst H. K., Hyman, Anthony A., Howard, Jonathon 09 December 2015 (has links) (PDF) Asymmetric positioning of the mitotic spindle in C. elegans embryos is mediated by force-generating complexes that are anchored at the plasma membrane and that pull on microtubules growing out from the spindle poles. Although asymmetric distribution of the force generators is thought to underlie asymmetric positioning of the spindle, the number and location of the force generators has not been well defined. In particular, it has not been possible to visualize individual force generating events at the cortex. We discovered that perturbation of the acto-myosin cortex leads to the formation of long membrane invaginations that are pulled from the plasma membrane toward the spindle poles. Several lines of evidence show that the invaginations, which also occur in unperturbed embryos though at lower frequency, are pulled by the same force generators responsible for spindle positioning. Thus, the invaginations serve as a tool to localize the sites of force generation at the cortex and allow us to estimate a lower limit on the number of cortical force generators within the cell. RNA-Interferenz Embryos Zellmembrane Zentrosomen Anaphase Mikrotubuli Caenorhabditis elegans Laser RNA interference Embryos cell membranes Centrosomes Anaphase Microtubules Caenorhabditis elegans Lasers ddc:610 rvk:XA 10000
182	Le rôle de la cellule musculaire lisse bronchique humaine dans le remodelage des voies aériennes dans l’asthme / The role of human bronchial smooth muscle cell in bronchial remodelling in asthma Bara, Imane 03 December 2010 (has links) Le déclin de la fonction respiratoire dans l’asthme est associé à une augmentation de la massedu muscle lisse bronchique. La cellule musculaire lisse (CML) bronchique joue un rôle central dans la physiopathologie de l'asthme. Elle participe à l'inflammation et constitue une composante importante du remodelage des voies aériennes. Récemment, le rôle de la chitinaseYKL-40 comme bio marqueur de ce remodelage dans l'asthme a été évoqué. Dans ce contexte, la question centrale ayant motivé une partie de ce travail de thèse, a été d'étudier les effets d'YKL-40 sur différentes propriétés des CML. Nous nous sommes également intéressés au récepteur activé par les protéases, de type 2 (PAR-2), potentiel récepteur d'YKL-40, mais aussi acteur principal de l’inflammation bronchique.Ce travail a permis d'établir qu'YKL-40 est plus qu'un simple bio marqueur dans l'asthme puisqu’elle altère les propriétés physiologiques de la CML, et semble jouer un rôle dans le remodelage musculaire lisse bronchique. Par ailleurs, ce travail a également permis de mettre en évidence une surexpression du PAR-2 dans les CML d’asthmatiques ainsi qu’une augmentation de son expression et de la prolifération cellulaire, en réponse à une stimulation chronique. Ce travail a enfin permis d’optimiser la technique de l’interférence ARN lentivirale dans les CML bronchiques humaines. / The decline in lung function in asthma is associated with an increased bronchial smooth muscle (BSM) mass. BSM cells play a central role in the pathophysiology of asthma. They are involved in inflammation and are an important component of airway remodelling. Recently, the role of the chitinase YKL-40 as biomarker of this remodelling in asthma has been evoked. In this context, the central question that motivated part of this thesis was to study the effects of YKL-40 on various properties of BSM cells. We also studied the protease activated receptor 2 (PAR-2), as a potential receptor of YKL-40, as well as an important actor of airway inflammation.This work has established that YKL-40 is more than just a biomarker for asthma since YKL-40 alters physiological properties of BSM cells and appears to play a role in BSM remodelling. Moreover, this work has also highlighted an overexpression of PAR-2 in asthmatic BSM cells, as well as an increase of both PAR-2 expression and BSM cell proliferation in response to chronic stimulation. This work has finally allowed us to optimize lentiviral RNA interference in human BSM cells. Asthme Cellule musculaire lisse Remodelage bronchique Chitinase Ykl-40 Par-2 Interférence ARN lentivirale Asthma Smooth muscle cell Bronchial remodelling Chitinase Ykl-40 Par-2 Lentiviral RNA interference
183	Unfolded protein response genes regulated by CED-1 are required for Caenorhabditis elegans innate immunity. Haskins, KA, Russell, JF, Gaddis, N, Dressman, HK, Aballay, A 07 1900 (has links) The endoplasmic reticulum stress response, also known as the unfolded protein response (UPR), has been implicated in the normal physiology of immune defense and in several disorders, including diabetes, cancer, and neurodegenerative disease. Here, we show that the apoptotic receptor CED-1 and a network of PQN/ABU proteins involved in a noncanonical UPR response are required for proper defense to pathogen infection in Caenorhabditis elegans. A full-genome microarray analysis indicates that CED-1 functions to activate the expression of pqn/abu genes. We also show that ced-1 and pqn/abu genes are required for the survival of C. elegans exposed to live Salmonella enterica, and that overexpression of pqn/abu genes confers protection against pathogen-mediated killing. The results indicate that unfolded protein response genes, regulated in a CED-1-dependent manner, are involved in the C. elegans immune response to live bacteria. / Dissertation Animals Apoptosis Caenorhabditis elegans Caenorhabditis elegans Proteins Escherichia coli Genes Germ Cells Green Fluorescent Proteins Immunity, Innate Membrane Proteins Mutation Protein Folding RNA Interference Salmonella enterica Survival
184	Caractérisation de l’ubiquitin-fold modifier (UFM1) dans un modèle C. elegans Demers-Lamarche, Julie 12 1900 (has links) L’ubiquitin-fold modifier (UFM1) fait partie de la classe 1 de la famille de protéine ubiquitin-like (Ubl). UFM1 et Ub ont très peu d’homologie de séquence, mais partagent des similarités remarquables au niveau de leur structure tertiaire. Tout comme l’Ub et la majorité des autres Ubls, UFM1 se lie de façon covalente à ses substrats par l’intermédiaire d’une cascade enzymatique. Il est de plus en plus fréquemment rapporté que les protéines Ubls sont impliquées dans des maladies humaines. Le gène Ufm1 est surexprimé chez des souris de type MCP développant une ischémie myocardique et dans les îlots de Langerhans de patients atteints du diabète de type 2. UFM1 et ses enzymes spécifiques, UBA5, UFL1 et UFC1, sont conservés chez les métazoaires et les plantes suggérant un rôle important pour les organismes multicellulaires. Le Caenorhabditis elegans est le modèle animal le plus simple utilisé en biologie. Sa morphologie, ses phénotypes visibles et ses lignées cellulaires ont été décrits de façon détaillée. De plus, son cycle de vie court permet de rapidement observer les effets de certains gènes sur la longévité. Ce modèle nous permet de facilement manipuler l’expression du gène Ufm1 et de mieux connaître ses fonctions. En diminuant l’expression du gène ufm-1 chez le C.elegans, par la technique de l’ARN interférence par alimentation, nous n’avons observé aucun problème morphologique grave. Les vers ressemblaient aux vers sauvages et possédaient un nombre de progéniture normal. Cependant, les vers sauvage exposés à l’ARNi d’ufm-1 vivent significativement moins longtemps que les contrôles et ce, de façon indépendante de la voie de signalisation de l’insuline/IGF. Chez le C. elegans la longévité et la résistance au stress cellulaire sont intimement liées. Nous n’avons remarqué aucun effet d’ufm-1 sur le stress thermal, osmotique ou oxydatif, mais il est requis pour la protection contre le stress protéotoxique. Il est également nécessaire au maintien de l’intégrité neuronale au cours du vieillissement des animaux. L’ensemble de nos données nous renseigne sur les fonctions putatives du gène Ufm1. / The ubiquitin-fold modifier (UFM1) is part of the type 1 class of the family of ubiquitin-like protein (Ubl). UFM1 and Ub have very little sequence homology but share remarkable similarities in their tertiary structure. Like Ub and most other UBLS, UFM1 binds covalently to its substrates through an enzymatic cascade. It is frequently reported that UBLs are involved in human diseases. UFM-1 is overexpressed in mice developing a myocardial ischemia and in the islets of patients suffering from type 2 diabetes. UFM1 and its specific enzymes, UBA5, UFL1, and UFC1 are conserved in metazoans and plants suggesting an important role in multicellular organisms. Caenorhabditis elegans is one of the the simplest animal models used in biology. Some features such as morphology, visible phenotypes and cell lineage have completely been described. The short lifecycle of C. elegans makes it easy to observe gene effects on longevity. This model allows us to easily manipulate the expression of the Ufm1 gene and learn more about its putative functions. To study putative functions of Ufm1, we decreased the expression of ufm-1 using RNA interference introduces through feeding. No gross morphological disturbances were observed; worms resembled wild type and had a normal brood size. However, worms exposed to ufm-1 RNAi had a significantly shorter lifespan than the controls. This effect is independent of the insulin/IGF pathway, which is a major axis of longevity genetics. In C. elegans longevity and cellular stress resistance are intimately linked. We have observed no effect of ufm-1 on thermal, osmotic or oxidative stress, but it is required for protection against proteotoxic stress. It is also necessary to maintain neuronal integrity during aging. Together, our results shed light on putative functions of Ufm1 gene. Caenorhabditis elegans Ufm1 Longévité Vieillissement ARN interférence Intégrité neuronale Caenorhabditis elegans Ufm1 Longevity Aging RNA interference Neuronal integrity
185	Importance des protéines cellulaires incorporées dans les virions matures d’HSV-1 Yakova, Yordanka 06 1900 (has links) Pour compléter leur cycle de vie, les virus interagissent avec de nombreux facteurs de la cellule-hôte. Le virus Herpès simplex de type 1 (HSV-1) ne fait pas exception. Une récente étude protéomique du virus effectuée par notre laboratoire a permis d’identifier 49protéines cellulaires potentiellement incorporées dans les virions matures d’HSV-1 [1]. Étant donné que certaines de ces protéines peuvent jouer des rôles importants au cours du cycle de vie du virus, elles constituent des cibles de choix pour identifier et caractériser de nouvelles interactions hôte-pathogène dans le contexte d’HSV-1. D’ailleurs le laboratoire a été effectué un criblage aux petits ARN d’interférence qui a démontré qu'au moins 15 des protéines incorporées sont impliqués dans le cycle de réplication de HSV-1 en culture cellulaire (Annexe 1). Des nombreuses études rapportent l'incorporation des protéines de l'hôte dans les virions matures mais très peu abordent l'importance de la fraction des protéines cellulaires incorporée dans les virions pour le cycle virale. Pour vérifier ça, nous avons déplété ces protéines des virions matures extracellulaires en utilisant des petits ARN d’interférence. Par la suite, nous avons utilisé ces virus déplétés pour réinfecter des cellules déplétées ou normales. Cette méthode nous a permis d'identifier pour la première fois 8 protéines (DDX3X, HSPA8, KRT10, MIF, Rab5A, Rab6A, Rab10 et 14-3-3ζ) dont l'absence dans les virions réduit la production virale d'au moins 50%. Pour mieux comprendre à quelle étape du cycle viral ces protéines sont nécessaires, nous avons aussi quantifié les virus intracellulaires, produits des cellules déplétées individuellement des quinze protéines cellulaires. Ainsi, nous avons trouvé que dans nos conditions 7 de ces 8 protéines cellulaires (DDX3X, HSPA8, KRT10, MIF, Rab5A, Rab6A et Rab10) semblent impliquées dans la production des virus intracellulaires, ce qui nous a stimulés à débuter une série de tests plus approfondis de l’entrée d’HSV-1. Les résultats préliminaires, démontrent l’implication dans l’entrée d’HSV-1 d’au moins 3 à 4 de ces protéines (HSPA8, KRT10, Rab5A et Rab10). / To complete their life cycle viruses interact with many factors of the host cell. Herpes simplex virus type 1 (HSV-1) is no exception. A recent proteomic study of the virus carried by our laboratory has identified up to 49 cellular proteins potentially incorporated into the mature virions of HSV-1[1]. Since some of these proteins may play important roles during the viral life cycle, they are interesting targets for identification and characterization of new host-pathogen interactions in the context of HSV-1. To target the proteins that are relevant to the viral life cycle of Herpes, the laboratory performed a screening with small interfering RNAs (siRNAs), which showed that at least 15 incorporated proteins are involved in the replication cycle of HSV- 1 in cell culture (Appendix 1). Numerous studies report the incorporation of host proteins in mature virions but few addresses the importance for the viral infectivity of the fractions of cellular proteins incorporated into the virions. To verify this, we depleted these proteins from the mature extracellular virions using siRNAs. Subsequently, we used these viruses to re-infect depleted or normal cells. This method allowed us to identify for the first time eight proteins (DDX3X, HSPA8, KRT10, MIF, Rab5A, Rab6A, Rab10 and 14-3-3ζ) whose absence in virions reduced viral production by at least 50%. As part of understanding at what stage of the life cycle these proteins are necessary for HSV-1, we tested the infectivity of intracellular depleted viruses. Thus, we found at least seven cellular proteins (DDX3X, HSPA8, KRT10, MIF, Rab5A, Rab6A and Rab10) to have a pronounced effect on the replication of herpes virus, which has stimulated us to begin a series of more in-depth tests of the entry of HSV-1. Preliminary results demonstrate the involvement in the entry of HSV-1 of at least three to four proteins (HSPA8, KRT10, Rab5A and Rab10). HSV-1 Cell proteins ARN d’interférence RNA interference Réinfection Reinfection Virus déplétés Depleted viruses Protéines cellulaires Incorporated proteins Protéines incorporées Viral entry
186	Étude de la capacité antioxydante en lien avec la reproduction chez l'huître creuse Crassostrea gigas / Study of the antioxydant capacity in link with reproduction in the Pacific oyster Crassostrea gigas Béguel, Jean-Philippe 20 December 2012 (has links) Le “coût de la reproduction” est un concept qui définit qu’un investissement à la reproduction élevé a un prix qui se paye ultérieurement par une accélération de la sénescence. Cela peut notamment traduire des compromis entre la reproduction et d’autres fonctions physiologiques comme la défense antioxydante. Chez l’huître creuse Crassostrea gigas, la reproduction représente une fonction physiologique majeure. Dans le cadre des études effectuées pour comprendre les mortalités estivales affectant cette espèce, une corrélation négative entre effort reproducteur et survie a été observée. D’autre part, des gènes antioxydants ont été mis en évidence comme différentiellement exprimés entre les lignées d’huîtres sélectionnées pour leur résistance ou leur sensibilité aux mortalités estivales. Certaines études proposent que la susceptibilité au stress oxydant puisse représenter un coût de la reproduction participant au processus de sénescence. Dans ce contexte, nous avons analysé la capacité antioxydante des huîtres en fonction de leur investissement reproducteur. Pour cela, la technique d’ARN interférence a été utilisée pour manipuler l’effort reproducteur des huîtres. L’expression des principales enzymes antioxydantes (taux de transcrits et activités enzymatiques) et le dosage de dommages oxydatifs ont ensuite été mesurés dans différents tissus et cellules de l’organisme (branchies, gonade, hémocytes et gamètes). Les résultats obtenus dans le cadre de cette thèse suggèrent que la capacité antioxydante de C. gigas est particulièrement efficace et que la reproduction seule n’est pas suffisante pour induire un stress oxydant. Cette capacité antioxydante apparaît comme tissu-spécifique voire cellule-spécifique et le métabolisme du glutathion semble jouer un rôle majeur dans cette protection. Cette grande résistance au stress oxydant contribuerait à faire de C. gigas une espèce particulièrement adaptée à la vie dans des environnements stressants. / The “cost of reproduction” is a concept defining that a high reproductive investment has a price that is paid later by an acceleration of senescence. That may translate tradeoff between reproduction and other physiological functions such as antioxidant defense. In the Pacific oyster Crassostrea gigas, reproduction is a major physiological function. In a study led to understand the summer mortalities affecting this species, a negative correlation between reproductive effort and survival was observed. Moreover, some antioxidant genes were identified as differentially expressed between lines of oysters selected for resistance or susceptibility to summer mortalities. Some studies suggest that the susceptibility to oxidative stress may represent a cost of reproduction taking part to the process of senescence. In this context, we analyzed the antioxidant capacity of oysters according to their reproductive investment. For this, the technique of RNA interference was used to manipulate the reproductive effort of oysters. The expression of the main antioxidant enzymes (transcript levels and enzyme activities) and the dosage of oxidative damages were then measured in different tissues and cells of the organism (gills, gonad, hemocytes and gametes). The results obtained in this thesis suggest that the antioxidant capacity of C. gigas is particularly effective and that reproduction alone is not sufficient to induce oxidative stress. This antioxidant capacity appears to be tissue-specific even cell-specific and glutathione metabolism would to play a major role in this protection. This resistance to oxidative stress would make C. gigas be a species particularly adapted to life in stressful environments. Crassostrea gigas Investissement reproducteur ROS Stress oxydant Capacité antioxydante ARN interférence Manipulation phénotypique Crassostrea gigas Reproductive investment ROS Oxidative stress Antioxidant capacity RNA interference Phenotypic manipulation 594.4
187	Células embrionárias BME26: modelo para o estudo da interação Anaplasma marginale e o carrapato Rhipicephalus (Boophilus) microplus / Embryonic cell line BME26 a model for the study of the interaction between Anaplasma marginale and the cattle tick Rhipicephalus (Boophilus) microplus. Esteves, Eliane Virgínia da Silva 21 January 2010 (has links) O carrapato bovino Rhipicephalus (Boophilus) microplus é o principal vetor da riquétsia Anaplasma marginale, o agente etiológico da anaplasmose, uma doença que acomete os rebanhos e causa sérios prejuízos econômicos à pecuária no Brasil. Estabelecemos em nosso laboratório o cultivo da linhagem de células BME26 que são originárias do R. (B.) microplus e também a infecção dessas células por A. marginale, um patógeno que é naturalmente transmitido pelo carrapato. Detectamos que a expressão gênica da defensina e da ixodidina nas células é aumentada frente à infecção por A. marginale, embora nenhuma alteração da expressão gênica da microplusina foi constatada. As células foram expostas a microorganismos inativados por calor e LPS, sendo que a expressão gênica da microplusina é aumentada frente a todos os estímulos. Na exposição das células BME26 com a bactéria Microccocus luteus, a expressão gênica da defensina e da ixodidina não foi alterada e no estimulo com leveduras a expressão gênica da ixodidina foi reprimida. Frente à infecção por A. marginale detectamos, aumento expressão da defensina e ixodidina. Os genes da microplusina e defensina foram silenciadas por RNAi em células infectadas por A. marginale, mas não houve alteração no número de riquétsias / The cattle tick Rhipicephalus (Boophilus) microplus is the main vector of the rickettsia Anaplasma marginale, the etiological agent of anaplasmosis, a disease that affects cattle and causes serious economic losses to the Brazilian cattle industry. We established in our laboratory the embryonic cell culture line BME26 from R. (B.) microplus and infection by A. marginale, a pathogen naturally transmitted by R. (B.) microplus. We verified that defensin and ixodidin gene expression increased in these cells after an infection by A. marginale and no alteration in microplusin gene expression was detected. The BME26 cells were exposed to heat-inactivated microorganims or to LPS, microplusin gene expression increased after all stimuli. After exposure of BME26 cells to Micrococcus luteus, expression levels of defensin and ixodidin did not change and ixodidin gene expression reduced after exposure of these cells to yeast. In the infection by A. marginale we detected defensin and ixodidin gene expression. Also, microplusin and defensin genes were silenced by RNA interference (RNAi) in A. marginale-infected BME26 cells, but we did not observe alteration in the number of MSP4 rickettsias Rhipicephalus (Boophilus) microplus Rhipicephalus (Boophilus) microplus Anaplasma marginale Anaplasma marginale Antimicrobial peptides Cell culture Cultura de células Immune system Peptídeos antimicrobianos RNA de interferência RNA interference Sistema imune
188	Inibição simultânea dos genes antiapoptóticos Bcl-2 e Bcl-XL em células de leucemia linfoide aguda e células de linfoma do manto mediante RNA de interferência / Simultaneous inhibition of antiapoptóticosBcl-2 and Bcl-XL genes acute lymphocytic leukemia and mantle cell lymphoma by RNA interference Faustino, Viviane Dias 06 November 2012 (has links) As estatísticas relacionadas aos cânceres hematológicos indicam que a incidência e mortalidade dessas doenças têm aumentado ao longo dos anos. Embora a maioria dos casos de linfomas e leucemias não possua etiologia definida, sugere-se que fatores genéticos possam estar envolvidos. Nesse contexto, destaca-se a família de proteínas Bcl-2, divididas em anti e pró-apoptóticas. Os genes Bcl-2 e Bcl-XL, membros de uma nova classe de oncogenes, que atuam no mecanismo de morte celular das células cancerígenas, sobretudo apoptose, a qual é controlada por numerosos sinais intra e extracelulares. Uma nova estratégia para o tratamento desta doença inclui a terapia gênica mediada por RNA de interferência, que silencia importantes genes, a exemplo dos genes da família Bcl-2. Visto que o silenciamento isolado de um único gene pode não ter resultados expressivos, o presente trabalho teve por objetivo desenhar um RNA de interferência (RNAi) homólogo a dois tipos distintos de RNA mensageiro (RNAm) e inibir simultaneamente os genes Bcl-2 e Bcl-XL,assim como testar a inibição isolada dos mesmos. Amostras de linhagem tumoral Jurkat e Granta-519 foram avaliadas após transfecção com os seguintes RNA:i Bcl-2,Bcl-XL, Bcl-2/Bcl-XL,Bcl-2+Bcl-XL e scramble. Os nossos achados evidenciam que, na linhagem Granta-519, a sequência do RNAi Bcl-2 inibe, isoladamente ou conjugado ao Bcl-XL, o gene Bcl-2. Deste modo, o RNAi Bcl-2 apresenta-se mais eficiente no mecanismo de silenciamento gênico, uma vez que propicia a morte celular frente a toxicidade do quimioterápico etoposide. / The hematological cancer statistics indicates that its incidence and mortality have increased over the years. Although most cases of lymphomas and leukemias has no definite etiology however is suggested that genetic factors may be involved. In this context there is the Bcl-2 proteins family divided into anti-apoptotic and pro-apoptotic which Bcl-2 and Bcl-XL genes are members of a new class of oncogenes that act in cancer cells death mechanisms, especially apoptosis, that is controlled by numerous intra-and extracellular signals. Among new strategies to treat hematological cancer includes gene therapy mediated by RNA interference, which can decrease expression of genes like Bcl-2 family components. Studies of single gene silencing have not shown significant results so this study aimed to design an RNA interference (iRNA) homologous to two distinct types of messenger RNA (mRNA) and inhibit both genes Bcl-2 and Bcl-XL -XL as well as test the inhibition. Commercial cells Jurkat and Granta-519 were evaluated after transfection with iRNA as follows: Bcl-2, Bcl-XL, Bcl-2/Bcl-XL, Bcl-2+Bcl-XL and scramble. Our findings show that in Granta-519 cell line Bcl-2 RNAi sequence inhibits, alone or conjugated to Bcl-XL, Bcl-2 gene. Thus RNAi Bcl-2 appears more effective in gene silencing mechanism as it promotes cell death due chemotherapeutic agent etoposide toxicity. Apoptose Apoptosis Bcl-2 gene Gene therapy Genes Bcl-2 Inibição simultânea Interferência de RNA Neoplasias Neoplasms Protein Bcl-XL Proteína Bcl-XL RNA interference Simultaneous inhibition Terapia de genes
189	Efeitos da infecção por Rickettsia rickettsii sobre o perfil de expressão gênica do carrapato vetor Amblyomma cajennense. / Effects of infection with Rickettsia rickettsii on the gene expression profile of the tick vector Amblyomma cajennense. Martins, Larissa Almeida 06 May 2014 (has links) O agente etiológico da Febre Maculosa das Montanhas Rochosas (RMSF), conhecida no Brasil como Febre Maculosa Brasileira, é a bactéria Rickettsia rickettsii. Essa bactéria é transmitida ao homem pela picada de diferentes espécies de carrapatos ixodídeos. No Brasil, os vetores são Amblyomma cajennense e A. aureolatum. As taxas de prevalência de R. rickettsii nas populações de carrapatos de áreas endêmicas para RMSF são baixas, em geral abaixo de 1%. Essa baixa prevalência parece estar associada a menores taxas reprodutivas e de sobrevivência de linhagens infectadas, sugerindo que R. rickettsii seja patogênica também para os seus vetores. Infecções experimentais demonstraram que 80-100% dos indivíduos de uma colônia de A. aureolatum mantida em laboratório são infectados por R. rickettsii, enquanto apenas 10-60% de A. cajennense adquirem a bactéria. Esses dados indicam que as respostas dessas duas espécies de carrapatos à infecção sejam diferentes, resultando em diferentes taxas de prevalência da bactéria. Dessa maneira, a caracterização molecular das interações entre carrapatos do gênero Amblyomma e a bactéria R. rickettsii é importante, podendo gerar informações não somente para o esclarecimento acerca dos mecanismos de patogenicidade de R. rickettsii para os carrapatos, mas também para um melhor entendimento dos mecanismos responsáveis pela aparente restringência de A. cajennense à infecção. Assim, os objetivos do presente estudo foram: (i) analisar os efeitos da infecção por R. rickettsii sobre o perfil de expressão gênica de carrapatos A. cajennense por hibridação subtrativa por supressão (SSH), (ii) validar os dados de SSH por reação em cadeia de polimerase quantitativa precedida por transcrição reversa (RT-qPCR) e (iii) caracterizar funcionalmente dois genes com expressão induzida pela infecção por RNA de interferência (RNAi). Após a análise bioinformática dos dados de SSH, 44 sequências únicas foram obtidas, das quais 36 representam genes com expressão induzida e 8 genes com expressão reprimida pela infecção. A indução dos genes codificadores da subunidade I da citocromo c oxidase (COX1), da subunidade IV da NADH desidrogenase, de uma proteína com domínio de inibidor de serina-proteases Kunitz-type (papilina-like), identificados por SSH, e de um peptídeo antimicrobiano (hebraeína), foi confirmada por RT-qPCR. O silenciamento gênico da hebraeína e da papilina-like não teve nenhum efeito na aquisição de R. rickettsii pelo vetor, indicando que, isoladamente, não são responsáveis pela proteção de A. cajennense contra a infecção. Os dados gerados pelo presente estudo abrem perspectivas para que outros genes sejam avaliados quanto ao seu papel na aquisição de R. rickettsii, os quais, no futuro, podem ser considerados como alvos para o desenvolvimento de vacinas. / The etiologic agent of the Rocky Mountain Spotted Fever (RMSF), also known as Brazilian Spotted Fever in Brazil, is the bacterium Rickettsia rickettsii. This rickettsia is transmitted to humans by the bite of various tick species. In Brazil, Amblyomma cajennense and A. aureolatum are known as vectors. The prevalence rates of R. rickettsii infected ticks in RMSF endemic areas are low, oscillating around 1%. These low prevalence rates seems to be associated with lower reproductive and survival rates of infected ticks, suggesting that R. rickettsii is also pathogenic to its vectors. Experimental infections with R. rickettsii have demonstrated that 80 to 100% of A. aureolatum ticks from a laboratory colony acquire this bacterium, whereas only 10 to 60% of A. cajennense ticks become infected. These results indicate that the responses of these two tick species against infection are different, resulting in different prevalence rates of the bacterium. Therefore, the elucidation of the interactions between ticks of the genera Amblyomma and the bacterium R. rickettsii at a molecular level is important to provide information to better understand the mechanisms of pathogenicity of R. rickettsii against ticks as well as for the elucidation of the mechanisms responsible for the apparent refractoriness of A. cajennense against infection. Therefore, the objectives of the current study were: (i) analyze the effets of the infection with R. rickettsii on the gene expression of ticks A. cajennense by suppression subtractive hybridization (SSH), (ii) validate SSH data by reverse transcription quantitative polymerase chain reaction (RT-qPCR), and (iii) functionally characterize two genes induced by infection using RNA interference (RNAi). After bioinformatics analysis of SSH data, 44 unique sequences were obtained, among which 36 represent genes with expression induced and 8 repressed genes by infection. The induction of genes encoding subunit I of cytochrome c oxidase (COX1), the NADH dehydrogenase subunit IV, a protein containing Kunitz-type inhibitor domain (papilin-like), identified by SSH, and an antimicrobial peptide (hebraein), was confirmed by RT-qPCR. The effects of knockdown of hebraein and papilin-like encoding genes had no effect on the acquisition of R. rickettsii by the vector. Data of the current study may be used to evaluate the role of other genes in acquisition of R. rickettsii, which, in the future, may be considered as target for vaccine development. Amblyomma cajennense Amblyomma cajennense Rickettsia rickettsii Rickettsia rickettsii Carrapato RNA de interferência (RNAi) RNA interference (RNAi) Tick Transcriptoma Transcriptome
190	Identifikation, Klonierung und funktionelle Charakterisierung neuer Isoformen der humanen Importin Alpha Proteinfamilie Köhler, Matthias 04 December 2003 (has links) Der "klassische" Importweg von Proteinen wie Transkriptionsfaktoren, Kernrezeptoren oder viralen Proteinen in den Zellkern erfolgt in Abhängigkeit der Importine alpha und beta. Während nur ein Importin beta existiert, waren zu Beginn der Arbeiten zwei humane alpha-Importine bekannt. In der vorliegenden Arbeit wird die Identifikation, Klonierung und funktionelle Charakterisierung von vier neuen humanen alpha-Importinen beschrieben. Anhand ihrer Primärstruktur wurden die sechs alpha-Importine in drei Subfamilien unterteilt. Um die Hypothese zu testen, dass die verschiedenen Importin alpha Isoformen spezifische Funktionen ausüben und sich nicht vollständig gegenseitig ersetzen können, wurde zunächst ihre Expression auf RNA- und Proteinebene analysiert. Hier ließen sich differentielle Expressionsmuster in verschiedenen humanen Zellen und Geweben nachweisen. In vitro Analysen mit rekombinant exprimierten und aufgereinigten Proteinen deuteten daraufhin, dass die neu identifizierten Isoformen tatsächliche Importfunktion besitzen, dass sich jedoch die verschiedenen alpha-Importine in ihren Substratspezifitäten unterscheiden. Verschiedene neue Substrate der alpha-Importine wurden identifiziert und deren Importwege im Detail analysiert. Unterschiede in der Regulation der Expression der alpha-Importine in Abhängigkeit von Zellproliferation, Zelldifferenzierung bzw. in unterschiedlichen Diabetesmodellen der Ratte deuteten ebenfalls auf spezifische Funktionen der verschiedenen Isoformen hin. Die spezifische Inhibition der Importin alpha Expression in kultivierten HeLa-Zellen mittels RNA-Interferenz führte bei den meisten Isoformen zu einer ausgeprägten Inhibition der Zellproliferation, wodurch erstmals der Nachweis essentieller Funktionen verschiedener alpha-Importine in lebenden humanen Zellen erbracht wurde. In weiterführenden Experimenten sollen die Ursachen für die Inhibition der Zellproliferation bei Importin alpha-Mangel geklärt und die Bedeutung der unterschiedlichen alpha-Importine in vivo weiter analysiert werden. / The "classical" import of proteins like transcription factors, nuclear receptors or viral proteins into the nucleus depends on importins alpha and beta. While only one importin beta is known, two human alpha-importins had been described. In this study the identification, cloning and functional characterisation of four novel human alpha-importins is reported. Based on their primary structures the human alpha-importins can be grouped into three distinct subfamilies. To test the hypothesis that the various alpha-Importins differ in their specific functions and cannot substitute for each other first their expression at the RNA- and protein levels were analyzed. Differential expression patterns in various human cells and tissues could be demonstrated. In vitro analyses using recombinantly expressed and purified proteins indicated, that the newly identified isoforms posses import functions in deed. However, there was evidence for differences in their substrate specific import efficacies. New substrates of the alpha-importins were identified and their import pathways analyzed in detail. Differences in the expression regulation of the alpha-importins depending on cellular proliferation and differentiation as well as in different rat models of diabetes further pointed towards specific functions of the various alpha-importins. Specific expression inhibition of several isoforms of the importin alpha protein family in cultured HeLa-cells using RNA-interference technology caused a strong inhibition of cellular proliferation. This is the first proof for essential functions of different alpha-importins in living human cells. Future experiments shall identify the mechanisms involved in the cellular proliferation inhibition due to importin a deficiency and further analyze the role of the different alpha-importins in vivo. Importin alpha nukleozytoplasmatischer Proteinimport Zellproliferation RNA-Interferenz importin alpha nucleocytoplasmic protein import cellular proliferation RNA-interference 610 Medizin 33 Medizin ddc:610

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