Global ETD Search

161	Cellules NK et fièvres hémorragiques virales : étude de leur rôle dans la mise en place des réponses immunes et dans la pathogenèse lors de l'infection par les virus Lassa et Ebola / Natural Killer cells and hemorrhagic fevers : study of their role in the induction of the immune responses and the pathogenesis during the infection by Lassa and Ebola viruses Russier, Marion 06 February 2013 (has links) Les fièvres hémorragiques à virus Lassa (LASV) et Ebola (EBOV) représentent un important problème de santé publique en Afrique. Les réponses immunes et la pathogenèse associées à ces maladies sont peu connues. Les cellules NK ont un rôle important dans la réponse immune innée par leurs propriétés cytotoxiques, mais également dans l’induction des réponses adaptatives par leur production de cytokines et leurs interactions avec les cellules dendritiques (DC) et les macrophages. Ce projet s’attache à comprendre le rôle des cellules NK dans le contrôle de la réplication virale et dans l’induction des réponses immunitaires au cours de ces infections. Un modèle in vitro de coculture de cellules NK humaines avec des DC et macrophages autologues a été développé. L’activation des cellules NK et leurs fonctions ont été analysées après l’infection par LASV et EBOV. Par ailleurs, les réponses des cellules NK en réponse à LASV ont été comparées avec celles induites lors de l’infection par le virus Mopeia (MOPV), très proche de LASV mais non pathogène pour l’homme. Les macrophages, mais pas les DC, infectés par LASV ou MOPV induisent l’activation et l’augmentation des capacités cytotoxiques des cellules NK. Toutefois, les cellules NK ne sont pas capables de lyser les cellules infectées et ne produisent pas d’IFN-γ. Les cellules NK s’activent et sont capables de lyser les cellules infectées en présence de macrophages mais également de DC infectés par des LASV mutants. Cependant, les IFN de type I sécrétés en grande quantité en réponse à ces virus ne sont pas impliqués dans l’activation des cellules NK. L’infection par EBOV n’induit qu’une très faible activation des cellules NK en présence de DC ou macrophages et ne conduit pas à la sécrétion de cytokines, ni à la modification du potentiel cytotoxique.Ces résultats permettent d’améliorer la compréhension des réponses immunes et des mécanismes de pathogenèse mis en place lors des fièvres hémorragiques Lassa et Ebola. / The hemorrhagic fevers caused by Lassa (LASV) and Ebola (EBOV) viruses are important problems of public health in Africa. The immune responses and the pathogenesis associated with these diseases are unknown. NK cells are at the crossroads between the innate and adaptive immune responses through their abilities to secrete cytokines and kill the infected cells. The interactions between NK cells and dendritic cells (DC) or macrophages potentiate the immune responses. This project aims to understand the role of NK cells in the control of viral replication and in the induction of immune responses during LASV and EBOV infection.An in vitro model of coculture of human NK cells with autologous DC or macrophages has been set up. Cell activation, cytokine production, proliferation and NK cell-mediated killing were analyzed after the infection with LASV or EBOV. In addition, NK cell functions in response to LASV were compared with those induced during Mopeia virus (MOPV) infection, closely related to LASV but not pathogenic for humans.Here, we show that LASV- or MOPV-infected macrophages, but not DC, induce the activation of NK cells and the increase of their cytotoxic capacity. This process involves cell contact and type I IFN. However, these cells are neither able to kill the infected cells nor produce IFN-γ. NK cells are activated and are able to kill the infected cells when stimulated by mutated LASV-infected macrophages and DC. Surprisingly, the type I IFN which are secreted in high amounts in response to these viruses are not involved in NK cell activation. EBOV infection does not lead to NK cell activation in the presence of DC. EBOV-infected macrophages induce low NK cell activation without cytokine production or cytotoxicity.These results allow to better understand the immune responses and the mechanisms of pathogenesis associated with Lassa and Ebola hemorrhagic fevers. Fièvre hémorragique Virus Lassa Virus Mopeia Virus Ebola Réponse immunitaire Cellule Natural Killer Cellule dendritique Macrophage Interféron Hemorrhagic fever Lassa virus Mopeia virus Ebola virus Immune response Natural Killer cell Dendritic cell Macrophage Interferon
162	Les effets des substances vasoactives sur les perturbations hémodynamiques, systémiques et splanchniques induites par les états de choc et la cirrhose / Assessment of vasoactive substances effects on hemodynamic systemic and splanchnic impairments caused by shock states and cirrhosis. Tabka, Maher 05 May 2015 (has links) La dysfonction des mécanismes de régulation vasculaire, observée dans les états de choc septique (CS), hémorragique (CH) et la cirrhose (C), remet en question l’efficacité des substances vasoactives utilisées. L’objectif de ce travail est l’évaluation hémodynamique, systémique et splanchnique de l’administration d’hydrogène sulfuré [H2S], de terlipressine [TP] et de noradrénaline [NE] au cours des complications des CS, CH et C. Suite à une ischémie/reperfusion (I/R) chez le rat, le sepsis n’a pas d’impact particulier sur le rein, lors de la phase précoce, alors que le débit rénal varie en réponse aux variations de pression artérielle, incluant le phénomène d’autorégulation. Le CS est associé très précocement à une augmentation du flux sanguin dans les capillaires péritubulaires et à une dysfonction rénale limitée par la perfusion de NE. Au cours d’un CH retransfusé et réanimé par un remplissage vasculaire, l’inhibition endogène de H2S aggrave la dysfonction rénale suite à une diminution des vitesses microcirculatoires péritubulaires et favorise un syndrome de fuite capillaire. A l’inverse, l’administration exogène de H2S pourrait provoquer un rétrocontrôle négatif sur l’activité de l’enzyme principale de production de H2S endogène, la CSE. Lors d’une hypertension portale par C chez le rat, la NE augmente la pression porte à faibles doses et augmente la contraction maximale des veines portes in vitro par rapport à la vasopressine, ce qui augmente le risque hémorragique. Au contraire, la TP diminue le débit mésentérique et la pression porte, ce qui favorise la réponse hémodynamique de réduction du risque d’hémorragie digestive. / The impairment of vascular regulatory mechanisms observed in cirrhosis and shock situations, reduces the effectiveness of vasoactive substances used in treatments. The aim of this study is the hemodynamic, systemic and splanchnic assessments of vasoactive molecules proposed for the treatment of septic shock, hemorrhagic shock and cirrhosis complications (hydrogen sulfide [H2S], terlipressin [TP] and norepinephrine [NE]). In a model of ischemia/reperfusion (I/R), sepsis has no particular impact on the kidney since renal blood flow varies in response to mean arterial blood pressure variations, including an auto-regulation phenomenon. Sepsis is very rapidly associated with hypervelocity of blood flow in peritubular capillaries and renal dysfunction, both of wich are reserved by NE infusion. In hemorrhagic shock model controlled and resuscitated by Gelofusin® perfusion, we demonstrated that inhibition of endogenous H2S worsening renal dysfunction due to decreased renal peritubular microcirculatory velocities and promotes capillary leak syndrome. While the exogenous administration of H2S, could cause a negative feedback on the activity of the principal enzyme of endogenous H2S production, the CSE. During portal hypertension by cirrhosis in rats, NE increases the portal venous pressure, at low doses, and is more efficient than vasopressin on the portal veins of cirrhotic rats in vitro. However TP significantly reduces the mesenteric artery blood flow and the portal vein pressure. Taken together, TP could reduce the variceal bleeding risk associated with cirrhosis in comparison to NE. Ischémie/reperfusion Choc hémorragique Choc septique Cirrhose Hypertension portale Sulfure d'hydrogène Noradrénaline Terlipressine Microcirculation Paramètres hémodynamiques Ischemia/reperfusion Hemorrhagic shock Septic shock Cirrhosis Portal hypertension Hydrogen sulfide Norepinephrine Terlipressin Microcirculation 612.13
163	Effet protecteur du sulfure d'hydrogène, de la protéine C activée et de la dexamétasone dans la modulation hémodynamique et inflammatoire de l'ischémie/reperfusion / Protector effect of hydrogen sulfure, protein C activated and dexamethason in the hemodynamic and inflammatory modulation in ischemia-reperfusion Issa, Khodr 24 June 2013 (has links) L'ischémie/reperfusion (I/R) est un phénomène très fréquent en clinique humaine. Ce phénomène est observé lors de la désobstruction d'une artère digestive, du traitement d'un état de choc, ainsi qu'au cours d'autres pathologies. L'interruption de la perfusion tissulaire (ischémie) et le rétablissement de celle-ci (reperfusion) sont la cause de la mise en place de troubles hémodynamiques et métaboliques. L'I/R est souvent présentée comme étant la principale source de l'hyperlactatémie et le moteur de la réponse inflammatoire lors des états de choc (cardiogénique, hypovolémique, septique). Parallèlement, elle est responsable de l'induction de la production de la libération des espèces réactives de l'oxygène, des cytokines et du monoxyde d'azote. Suite à un choc hémorragique par Ischémie/reperfusion chez le rat, nous avons montré que 1) le NaHS, donneur d'H2S limite la diminution de la pression artérielle moyenne et diminue le lactate plasmatique, témoin de la souffrance tissulaire, 2) cette amélioration hémodynamique est associée à une baisse de l'expression myocardique des ARNm d'iNOS, une diminution de la concentration des dérivés NOx plasmatiques et une diminution des concentrations aortiques et myocardiques de NO et d'anion superoxyde et 3) l'inhibition d'H2S par la DL-propargylglycine aggrave le tableau hémodynamique et les conséquences tissulaires du choc. Dans un autre modèle d'ischémie/reperfusion intestinale, les résultats obtenus, montrent que l'administration de la Protéine C activée (PCa) ou de la dexaméthaosne (Dexa) : 1) améliore la PAM et la réactivité vasculaire, 2) permet d'augmenter le pH et de diminuer la lactatémie, 3) diminue la production des cytokines pro-inflammatoires et 4) inhibe les médiateurs de l'apoptose. Ces résultats sont reliés à une down régulation d'iNOS, une restauration de la voie Akt/eNOS et à une resensibilisation des adrénorécepteurs alpha. Ces résultats ouvrent de nouvelles perspectives cliniques dans les traitements de l'I/R / Ischemia/reperfusion (I/R) is a very common phenomenon, observed during intestinal artery surgery, shock treatment, as well as in several other diseases. The disruption of tissue perfusion (ischemia) and recovery (reperfusion) induce hemodynamic and metabolic dysfunction. Gut ischemia/reperfusion is often presented as the main source of lactate and the motor of the inflammatory response, such as cardiogenic, hypovolemic and septic shock. In parallel, gut reperfusion produces numerous mediators such as reactive oxygen metabolites, pro-inflammatory cytokines, and high concentrations of nitric oxide. In a model of ischemia/reperfusion induced by hemorrhagic shock, we found that 1) NaHS an injectable form of H2S, limited the decrease in arterial pressure induced by shock and decreased plasmatic lactate, a witness of tissue suffering, 2) this hemodynamic improvement was associated with a fall in myocardial iNOS mRNA expression, a reduction in the concentration of plasmatic NOx and a reduction of aortic and myocardial concentrations of NO and superoxide anion and 3) the inhibition of H2S with DL-propargylglycine worsened hemodynamics and tissue consequences of shock An experimental model of intestinal I/R has been developed, we demonstrated that the administration of APC or Dexa : 1) Improves MAP and vascular reactivity, 2) increased pH and decreased lactate, 3) decreased pro-inflammatory cytokines production and 4) inhibited apoptosis mediators expression. These results are related to a down regulation of iNOS, to a restoration of the AKT/eNOS pathway, and to alpha-adrenoreceptor resensitization. These results open new perspectives in clinical treatment of I/R Choc hémorragique Ischémie/Reperfusion Monoxyde d'azote (NO) Sulfure d'hydrogène (H2S) Protéine C activée (PCa) Dexamethasone (Dexa) Hemorrhagic shock Ischemia/Reperfusion Nitric oxide (NO) Hydrogen sulfide (H2S) Activated Protein C (APC) Dexamethason (Dexa) 617.919
164	Dobrava and Tula hantaviruses from Central Europe Klempa, Boris 09 February 2005 (has links) Hantaviren (Familie Bunyaviridae) sind Erreger, die von Nagetieren auf den Menschen übertragen werden und Hämorrhagische Fieber mit Renalem Syndrom (HFRS) auslösen. Die vorgelegte Arbeit beinhaltet derartige Ergebnisse zu zwei europäischen Hantaviren, dem Dobravavirus (DOBV) und dem Tulavirus (TULV). DOBV ist ein wichtiger HFRS-Erreger in Europa. DOBV Stämme kommen in mindestens zwei Nagerspecies, der Gelbhalsmaus (Apodemus flavicollis) und der Brandmaus (A. agrarius) vor. In Übereinstimmung mit diesen natürlichen Wirten bilden die Virusstämme zwei genetische Linien: DOBV-Af und DOBV-Aa. Die phylogenetischen Analysen von den Nukleotidsequenzen der S-, M- und L-Segmente von sympatrisch vorkommenden DOBV-Af und DOBV-Aa Stämmen aus Mitteleuropa zeigten das Vorkommen von Reassortmentprozessen der Genomsegmente während der Evolution der Virusspecies. Ausserdem, wurde die virale Nukleotidsequenz aus einem DOBV-seropositiven HFRS-Patienten aus Detschland amplifiziert. Damit wurde erstmalig der molekulare Beweis erbracht, dass DOBV in Mitteleuropa HFRS auslöst und dass die DOBV-Aa Linie humanpathogen ist. Aus einer in der Slowakei gefangenen A. agrarius Maus haben wir ein neues Virusisolat gewonnen, welches "Slovakia (SK/Aa)" genannt wurde. SK/Aa ist das bisher einzige Virusisolat, das die DOBV-Aa Linie repräsentiert. Es wurde gemeinsam mit einem Isolat der DOBV-Af Linie zur vergleichenden Typisierung der Antikörper von mitteleuropäischen HFRS-Patienten mittels Fokusreduktionsneutralisationstest eingesetzt. Die Seren der meisten Patienten zeigten die höchsten neutralisierenden Antikörpertiter gegenüber SK/Aa, was die Schlussfolgerung zulässt, dass DOBV-Aa Stämme für die meisten DOBV-Infektionen in Mitteleuropa verantwortlich sind. TULV wird durch die Feldmaus (Microtus arvalis) beherbergt. Die Fähigkeit zur Auslösung von HFRS war bisher wenig bekannt. Wir haben den ersten Fall von HFRS gefunden, der mit einer TULV Infektion assoziiert ist. Aus demselben geographischen Gebiet in Nordostdeutschland konnten aus Feldmäusen TULV Nukleotidsequenzen amplifiziert werden. In phylogenetischen Analysen clustern sie mit Stämmen aus Polen und bilden mit diesen gemeinsam eine eigene, neue genetische Linie. Ausser dem hier untersuchten DOBV und dem länger bekannten Puumalavirus ist TULV offenbar das dritte Hantavirus, das in Mitteleuropa HFRS hervorruft. / Hantaviruses (Bunyaviridae family) are rodent-borne bunyaviruses that cause hemorrhagic fever with renal syndrome (HFRS) in Eurasia. This thesis presents novel data about two European hantaviruses, Dobrava virus (DOBV) and Tula virus (TULV). DOBV is an important etiologic agent of HFRS in Europe. DOBV strains were found to be hosted by at least two different rodent species, yellow-necked mouse (Apodemus flavicollis) and striped field mouse (A. agrarius). According to their natural hosts they form the distinct genetic lineages DOBV-Af and DOBV-Aa, respectively. We have determined and analysed the complete S and M, and partial L segment nucleotide sequences of sympatrically occurring DOBV-Af and DOBV-Aa strains from Central Europe. Molecular phylogenetic analyses gave evidence for genetic reassortment in the evolution of the virus species. Moreover, we amplified a DOBV-Aa nucleotide sequence from a DOBV-seropositive HFRS patient from Germany. This is the first molecular identification of human infection by DOBV in Central Europe and the first direct proof that a virus strain related to the DOBV-Aa lineage, carried by A. agrarius rodents, is able to cause HFRS. Under biosafety level 3 conditions, we have established a DOBV isolate named Slovakia (SK/Aa) from an A. agrarius animal captured in Slovakia. SK/Aa, as the only isolate clearly belonging to the DOBV-Aa lineage, can be taken as the representative of this virus lineage. The new virus isolate, in comparison to a DOBV-Af strain, was used for serotyping neutralising antibodies of HFRS patients in Central Europe by the use of a focus reduction neutralisation assay. Most patients'' sera exhibited a higher end-point titer towards SK/Aa suggesting that DOBV-Aa strains are responsible for most of the DOBV HFRS cases in this region. TULV is carried by European common voles (Microtus sp.). Its pathogenic potential for humans was rather unknown. We have described the first case of HFRS which can be associated with TULV infection. Moreover, TULV strains detected in M. arvalis near the home village of the patient in North-East Germany clustered with strains from Poland and represent a new, well-supported genetic lineage within the TULV species. In addition to DOBV and longer known Puumala virus, TULV is most likely an additional causative agent of HFRS in Central Europe. Hantavirus Dobravavirus Tulavirus Nagetiere phylogenetische Analyse hantavirus Dobrava virus Tula virus rodents phylogenetic analysis 570 Biowissenschaften, Biologie 32 Biologie WF 3500 XD 7304 XD 7314 ddc:570
165	Planejamento baseado na estrutura da metaloprotease BPMP-I e avalia??o de tiossemicarbazonas ativas contra a pe?onha da serpente Bothrops pauloensis / Structure-based planning Of BPMP-I metalloprotease and evaluation Of thiosemicarbazones active against The snake venom Bothrops Pauloensis Ferreira, Francis Barbosa 04 August 2016 (has links) Submitted by Celso Magalhaes (celsomagalhaes@ufrrj.br) on 2017-05-17T11:44:30Z No. of bitstreams: 1 2016 - Francis Barbosa Ferreira.pdf: 4527522 bytes, checksum: 6a5a6589610ff851e68801c3ec05e3c9 (MD5) / Made available in DSpace on 2017-05-17T11:44:30Z (GMT). No. of bitstreams: 1 2016 - Francis Barbosa Ferreira.pdf: 4527522 bytes, checksum: 6a5a6589610ff851e68801c3ec05e3c9 (MD5) Previous issue date: 2016-08-04 / Coordena??o de Aperfei?oamento de Pessoal de N?vel Superior - CAPES / In this work, semi and thiosemicarbazones selected from the LaDMol-QM library, were used to study their interactions with a metalloproteinase from the snake Bothrops pauloensis (BpMP-I) by molecular modelling and enzymatic inhibition assays with the toxin. The crystalographic structure of BaPI (PDB code: 2W12) was used as a mold to build the 3D model of BpMP-I by homology modeling. The theorical model of BpMP-I showed good quality parameters and was used in a subsequent molecular modeling study. The thiossemicarbazones showed better molecular docking results and in vitro enzymatic inhibitions assays than semicarbazones. Studies by semi-empirical methods indicate a positive enthalpy of interaction, suggesting that the enzyme inhibition by these compounds must be a entropy-driven process. The results were used together to select the LDQM-IN-23 compound and propose rationally designed modifications to improve the interactions with the toxin. The study of the catalytic site of BpMP-I showed that there is an adjacent pocket with amino groups of the peptide bonds available for interaction. All results were used together to design structural changes, aiming the enhancing of the interaction with toxin. Therefore, was proposed the insertion of the carboxyl group with different spacers, containing 2 (LDQM-IN- 23b) and 3 methylene groups (LDQM-IN-23c). The docking results and semi-empiric optimization showed that there was a considerable improvement in the interaction for the modified compounds. The modified compounds were synthesized and tested for biological and enzymatic inhibition activity. It was observed that the IC50 values have improved: the original molecule, LDQM-IN-23 has an IC50 of 3,011 ?M and the modified molecules have IC50 of 79.12 (LDQM-IN-23b) and 1.77 ?M (LDQM-IN-23c). These molecules were tested for inhibition of hemorrhagic activity induced by Bothropoidin, a P-III class metalloproteinase, and by the B. pauloensis whole snake venom. The three molecules can inhibit the hemorrhagic activity induced by isolated toxin and whole venom, and LDQM-IN- 23c showed higher efficiency compared with the other two, and in a rate of 1:10 (w/w venom/inhibitor) the inhibition of the hemorrhagic activity was 100%. A molecular docking study of this lead compound with Snake Venom Metalloproteases (SVMPs) from different snake species and genera showed that this molecule can effectivelly interact with these SVMPs. / Neste trabalho, foram utilizadas semi e tiossemicarbazonas, selecionadas na quimioteca do LaDMol-QM (Dequim-UFRRJ), para o estudo das intera??es destas com o s?tio ativo de uma metaloprotease da pe?onha da serpente Bothrops pauloensis por modelagem molecular e ensaios de inibi??o da atividade enzim?tica e biol?gica sobre a toxina. A estrutura cristalogr?fica de uma metaloprotease (BaPI) complexada com um inibidor (um peptideomim?tico) (c?digo PDB 2W12) foi utilizada como molde para a constru??o do modelo 3D da metaloprotease da pe?onha de B. pauloensis (BpMP-I). O modelo 3D te?rico da BpMP-I, in?dito para esta toxina, apresentou bons par?metros de qualidade, sendo considerado adequado para estudos de planejamento de ligantes baseado na estrutura. As tiossemicarbazonas obtiveram melhores resultados, quando comparados com os resultados das semicarbazonas, tanto para os ensaios de docagem molecular quanto para estudos de inibi??o da atividade enzim?tica in vitro. Estudos por m?todos semiemp?ricos indicam uma entalpia de intera??o positiva, sugerindo que a inibi??o enzim?tica por estes compostos deve ser um processo controlado entropicamente. Os resultados foram utilizados para selecionar o derivado LDQM-IN-23 e propor modifica??es estruturais planejadas racionalmente, visando melhorar a intera??o deste com a toxina. O estudo do s?tio catal?tico da metaloprotease mostrou que esta possui uma cavidade adjacente com grupos amino das liga??es pept?dicas dispon?veis para intera??o. Foi proposta, ent?o, a inser??o de um grupo carboxilato com diferentes espa?adores, 2 (LDQM-IN-23b) e 3 grupos metileno (LDQM-IN-23c). Os resultados de docagem e otimiza??o semi-emp?rica mostraram que houve uma melhora consider?vel na intera??o dos ligantes modificados, os quais foram sintetizados e testados para as atividades de inibi??o enzim?tica e biol?gica. Na inibi??o enzim?tica, houve melhora da CI50 com o aumento do espa?ador. O composto LDQM-IN-23 tem CI50 de 3011,00 ?M e os compostos modificados possuem a CI50 de 79,12 (LDQM-IN-23b) e 1,77 ?M (LDQM-IN- 23c). Estes compostos foram testados para a inibi??o da atividade hemorr?gica in vivo induzida pela Botropoidina, uma metaloprotease da classe P-III, e pela pe?onha bruta de B. pauloensis. Os tr?s compostos conseguiram inibir a atividade hemorr?gica induzida pela toxina isolada e pela pe?onha, sendo que o composto LDQM-IN-23c mostrou maior efici?ncia, quando comparado com os outros dois, e para a propor??o de 1:10 (m/m pe?onha/inibidor) a inibi??o da atividade foi de 100%. Foi realizado um estudo de docagem deste composto l?der com outras metaloproteases de pe?onha de serpentes (SVMPs ? Snake Venom Metalloproteinases), de esp?cies e g?neros diferentes, mostrando que este ligante consegue interagir com outras SVMPs e ? um candidato para inibir a atividade hemorr?gica de SVMPs presentes na pe?onha, n?o s? de B. pauloensis, mas de outras serpentes Metalloprotease. . . . Snake venom Thiosemicarbazones Hemorrhagic activity inhibition Computer Assisted Ligand Design Metaloproteases Veneno de serpentes Tiossemicarbazonas Inibi??o de atividade hemorr?gica Ci?ncias Biol?gicas
166	Étude in vitro et ex vivo de la réponse des cellules dendritiques à l’infection par le virus Lassa / Ex vivo and in vitro study of dendritic cell response to Lassa virus Schaeffer, Justine 20 November 2018 (has links) Le virus Lassa (LASV) induit une fièvre hémorragique chez l’homme et est responsable de 3 000 à 5 000 décès par an. Aucun vaccin ou traitement efficace contre LASV n’est disponible, et les mécanismes de pathogenèse de la fièvre de Lassa sont encore mal compris. Des études chez l’homme et le primate suggèrent que la réponse interféron de type I (IFN-I) et de la réponse T sont critiques pour la survie de l’hôte. Nous nous sommes intéressés à la réponse des cellules dendritiques (DC) à LASV, car elles peuvent à la fois produire des IFN-I et induire la réponse T. Nous avons étudié les DC plasmacytoïdes (pDC), spécialisées dans la réponse IFN-I, et les DC myéloïdes (mDC), présentatrices d’antigènes. Nous avons montré que les pDC et les mDC ne sont pas productivement infectées par MOPV et LASV. Les pDC produisent des quantités importantes d’IFN-I en réponse à MOPV, mais pas à LASV. Les mDC sont activées et produisent des IFN-I en réponse à MOPV mais aussi à LASV. Cependant, seules les mDC infectées par MOPV sont capables d’activer des lymphocytes T. De plus, la présence de lymphocytes T inhibe complètement l’activation des mDC infectées par LASV. Ces différences entre les mDC infectées par MOPV et LASV dépendent de la nucléoprotéine de LASV, qui est connue pour ses propriétés immunosuppressives, mais aussi de la glycoprotéine. En résumé, nous avons obtenu des différences de réponse à l’infection par MOPV ou LASV chez les pDC et les mDC. Ces cellules pourraient avoir un rôle essentiel in vivo dans la réponse globale à LASV, et donc dans l’issue de la fièvre de Lassa / Lassa virus (LASV) is responsible for a viral haemorrhagic fever in humans and the death of 3,000 to 5,000 people every year. There is currently no vaccine or treatmentavailable against LASV, and its pathogenesis is not completely understood yet. According to studies on humans and primates, type I interferon (IFN-I) and T cell responses appear to be critical for the host. We studied the response of dendritic cells (DC) to LASV, as DC are involved in both IFN-I production and T cell activation. We compared the response of primary human DC to LASV and Mopeia virus (MOPV), which is similar to LASV, but non-pathogenic.We focused on plasmacytoid DC (pDC), specialized in IFN-I production, and myeloid DC (mDC), specialized in antigen presentation. We showed that neither pDC nor mDC were productively infected by LASV and MOPV. pDC infected with MOPV produced large amounts of IFN-I, whereas pDC infected with LASV did not. mDC produced substantial amounts of IFN-I in response to both LASV and MOPV. However, only MOPV-infected mDC were able to activate T cells. More surprisingly, coculture with T cells completely inhibited the activation of LASV-infected mDC. These differences between LASV- and MOPV-infected mDC were mostly due to LASV nucleoprotein, which has major immunosuppressive properties, but the glycoprotein was also involved. Overall, these results showed differences in pDC and mDC response to MOPV and LASV. Therefore, both pDC and mDC may be important for the global response to LASV in vivo, and play a role in the outcome of Lassa fever Virus Lassa Fièvre hémorragique virale Réponse immunitaire Cellules dendritiques Myéloïdes Plasmacytoïdes Interféron de type I Lymphocytes T Lassa virus Viral hemorrhagic fever Immune response Dendritic cells Myeloid Plasmacytoid Type I interferon T cells 570
167	Prevalência e caracterização de Escherichia coli O157:H7 e outras cepas produtoras de toxina de Shiga (STEC) na linha de abate de carne bovina destinada à exportação / Prevalence and characterization of Escherichia coli O157: H7 and other Shiga toxin (STEC) producing strains in the export slaughter line Fogo, Verônica Simões 11 December 2009 (has links) Escherichia coli é um microrganismo presente no trato intestinal do homem e de animais de sangue quente, fazendo parte da microbiota, coexistindo sem causar danos ao hospedeiro. No entanto, algumas linhagens desse microrganismo podem ser patogênicas e causar doenças tanto ao homem como aos animais. E. coli produtoras de toxina de Shiga (STEC), consideradas patógenos de origem alimentar, podem causar desde diarréias brandas até severas e sanguinolentas a complicações graves, como colite hemorrágica (HC), síndrome urêmica hemolítica (HUS) e púrpura trombótica trombocitopênica (TTP). O gado é considerado um importante reservatório deste patógeno e a contaminação de seres humanos ocorre, na maioria das vezes, através do consumo de alimentos ou água contaminados. O presente trabalho teve como objetivos avaliar a ocorrência de E. coli O157:H7 e outras STEC em amostras de couro de animais bovinos e de suas respectivas carcaças, na etapa de pré-evisceração, e meia-carcaças, na etapa de pós-evisceração; identificar os genes que codificam para os fatores de virulência (stx1 , stx2, eaeA e ehxA) dos isolados obtidos; evidenciar cepas de E. coli O157:H7 através da pesquisa do gene uidA; identificar os sorotipos dos isolados; verificar a citotoxicidade dos isolados de STEC em células Vero e avaliar a sensibilidade a diferentes antibióticos. De 198 animais amostrados, sete (3,5%) apresentaram cepas de STEC. Em seis (3%) destes, STEC foi detectada no couro e em um (0,5%) foi isolada de meia-carcaça, não tendo sido detectada em amostras de carcaça. As 23 cepas isoladas do couro apresentaram o perfil stx2, eaeA, uidA e ehxA, podendo ser consideradas E. coli enterohemorrágica (EHEC), e a isolada de meia carcaça apresentou o perfil stx2, uidA e ehxA. Das 24 cepas isoladas, 13 (54,2%) pertenciam ao sorotipo O157:H7. Além deste sorotipo, foram isoladas cepas de outros sorotipos previamente descritos e associados a doenças humanas severas no Brasil e em outros países, como O174:H21, O6:H49, ONT:H7, ONT:H8 e OR:H10. Dos sete animais com cepas positivas para stx2e ehxA, cinco (71,4%) apresentaram cepas com atividade citotóxica em células Vero e um (14,2%) apresentou cepas positivas na avaliação da produção de entero-hemolisina. Com relação ao teste com antibióticos, quatro (16,7%) das 24 cepas testadas apresentaram resistência a um ou mais antibióticos, sendo três (12,5%) a estreptomicina e uma (4,2%) a estreptomicina e ampicilina. Diante destes resultados, pode-se dizer que a produção de entero-hemolisina e a pesquisa dos genes ehxA e uidA não demonstraram ser bons marcadores na pesquisa do sorotipo O157:H7. A presença de cepa de STEC na meia-carcaça alerta para a necessidade de vigilância da presença destes microrganismos, uma vez que eles poderiam contaminar o produto final, colocando em risco a saúde do consumidor. / Escherichia coli is a microorganism present in the intestinal tract of humans and warm-blood animals, being part of the normal microbiota and harmless to the host. However, some strains are able to cause human and animal infections. Shiga toxin-producing E. coli (STEC), regarded as foodborne pathogens, can cause since mild or severe and bloody diarrhea to major complications, such as hemorrhagic colitis (HC), hemolytic-uremic syndrome (HUS) and thrombotic thrombocytopenic purpura (TTP). Cattle are considered the main reservoir of this pathogen and the transmission to humans happens, most of the times, due to the consumption of contaminated food or water. The aim of the present research was to determine the prevalence of E. coli O157:H7 and other STEC on hide samples of beef cattle and on their corresponding carcasses, sampled prior to evisceration, and half-carcasses, sampled after evisceration; identity the genes that code for the virulence factors (stx1, stx2, eaeA e ehxA) of the isolates; detect E. coli O157:H7 strains using the gene uidA as epidemiological marker; identify the serotypes of the STEC isolates; verify the citotoxicity of the isolates in Vero cells and evaluate their resistance to different antibiotics. From 198 animals sampled, seven (3.5%) carried STEC strains. In six (3%) of them, STEC was detected on hide and in one (0.5%) it was isolated from half-carcass. The 23 strains isolated from hide presented the profile stx2, eaeA, uidA e ehxA, and were regarded as enterohemorrhagic Escherichia coli (EHEC), and the one isolated from half-carcass presented the profile stx2, uidA e ehxA. From the 24 isolated strains, 13 (54.2%) belonged to the serotype O157:H7. Besides this serotype, other strains belonging to serotypes that have been previously described and associated with severe human infections in Brazil and other countries, such as O174:H21 , O6:H49, ONT:H7, ONT:H8 and OR:H10, were isolated. From seven animals with strains harboring stx2, and ehxA, five (71.4%) presented verocytotoxigenic strains and one (14.2%) presented enterohemolisin producing strains. Regarding the antibiotics tested, four (16.7%) of the 24 isolated strains were resistant to some antibiotic, being three (12.5%) to streptomycin and one (4.2%) to streptomycin and ampicilin. Faced with these results, the production of enterohemolisin and the search of the genes ehxA and uidA can not be considered good epidemiological markers for the serotype O157:H7. The isolation of STEC strain from the half-carcass alerts for the need of surveillance on the presence of these microorganisms, since they may contaminate the final product, representing a risk to consumers health. Colite hemorrágica Escherichia coli (Características) Escherichia coli (Characteristics) Food microbiology Food safety Hemolytic uremic syndrome Hemorrhagic colitis Microbiologia de alimentos Segurança alimentar Shiga toxin Síndrome urêmica hemolítica Toxina de Shiga Toxinas (Análise) Toxins (Analysis)
168	Entwicklung und Optimierung eines Cytometric Bead Arrays zum Nachweis von afrikanischen hämorrhagischen Fieberviren / Developement and optimization of a cytometric bead array for the detection of african hemorrhagic fever viruses Nordmann, Tamara 24 April 2012 (has links) No description available. 610 Medizin, Gesundheit MED 332 Medizinische Virologie Medicine virale hämorrhagische Fieber hämorrhagische Fieberviren cytometric bead array Durchflusszytometer Mikrobeads multiplex-PCR viral hemorrhagic fevers hemorragic fever viruses cytometric bead array flow cytometer microbeads multiplex-pcr 44.43 Medizinische Mikrobiologie
169	Long-Lived Memory T Lymphocyte Responses Following Hantavirus Infection: a Dissertation Van Epps, Heather Lin 18 July 2001 (has links) Hantaviruses are members of the virus family Bunyaviridaethat cause two potentially life-threatening diseases in humans: hemorrhagic fever with renal syndrome (HFRS) and hantavirus pulmonary syndrome (BPS). HFRS is caused by Old World hantaviruses that are endemic in many Asian and European countries. Infections with Old World hantaviruses can range in severity from asymptomatic to moderate or severe, depending primarily on the infecting serotype of virus. HPS is caused by New World hantaviruses in North and South America. New World hantaviruses are rarely asymptomatic and are severe in the majority of cases. These syndromes are distinct from one another in the primary target organ of virus infection (kidney vs. lung), but have important clinical features in common, including fever, thrombocytopenia, and a capillary leak syndrome. These common clinical manifestations suggest that the underlying mechanisms of disease may be similar in the two syndromes. The precise mechanisms of pathogenesis of HFRS and HPS are poorly characterized, but may be mediated in part by immunopathology. Hantaviruses are able to establish infections in many human cell types, including primary human endothelial cells, without having any cytopathic effect on these cells. Human infections with hantavirus result in a robust activation of the humoral and cellular immune response, and we hypothesize that these immune responses contribute to the pathology of disease. Evidence for the activation of T lymphocytes, and their potential involvement in immunopathology, includes increases in the number of circulating, activated CD8+ T cells during HFRS, the presence of lymphocytic infiltrates (predominantly CD8+T cells) in kidney biopsies from patients with acute HFRS, and associations between certain HLA haplotype and disease severity following hantavirus infection. This thesis is the first examination of human T lymphocyte responses that are generated during HFRS. Initially, we studied memory T cell responses in scientists who were sub-clinically infected with Hantaan virus (HTNV), the prototype hantavirus. We later investigated memory T cell responses in healthy Finnish adults who had HFRS caused by Puumala virus (PUUV), a hantavirus endemic primarily in Scandinavia. At the onset of these studies, there was no available information on human T lymphocyte responses to Old World hantaviruses. Virus-specific CD8+ and CD4+human T cell lines had been isolated from patients with acute HPS caused by Sin Nombre virus (SNV) infection. In that study, conducted in our laboratory, several human T cell epitopes on the nucleocapsid (N) protein and G2 envelope glycoprotein of SNV were identified and characterized. We decided to perform similar analyses on PBMC from donors who had been infected with HTNV and PUUV, in order to determine the specificity and diversity of the T cell response to Old World hantaviruses. The initial study of three donors who had sub-clinical infections with HTNV demonstrated that virus-specific T cell responses could be detected in all the donors following in vitro stimulation of PBMC with inactivated virus. In two of the donors, the virus-specific cytolytic T cells (CTL) recognized the HTNV N protein, and in the third donor the virus-specific CTLs recognized the HTNV G1 glycoprotein. Isolation and characterization of virus-specific T cells from two donors resulted in the identification of two CD8+ T cell epitopes on the HTNV N protein, which were restricted by either HLA A1 or B51. These CTL lines included both HTNV-specific (HLA B51-restricted) and serotype-cross reactive (HLA A1 restricted) lines. In one subject, these virus-specific T cell responses were detectable in IFN-γ ELISPOT assays following peptide stimulation, and in bulk cultures after short-term stimulation with inactivated HTNV. These results indicated that the CD8+CTL responses of humans after sub-clinical infection with HTNV were readily detectable and were directed against a limited number of viral proteins and epitopes. In addition, sub-clinical infection resulted in the generation of both virus-specific and cross-reactive CTL responses. We reasoned that hantavirus infections that lead to clinical illness may result in the generation of more robust and/or diverse virus-specific T cell responses than in sub-clinical infections. To address this question, we studied the memory CD8+ T cell responses in a group of healthy adults from Finland who had HFRS caused by PUUV infection between the years 1984 and 1995. We detected virus-specific CTL in the bulk cultures of seven of eleven immune individuals tested following stimulation with infectious virus. The PUUV proteins N, G1 and G2 were recognized by CTLs in six, five, and two donors respectively. Extensive cloning of T cells from two donors resulted in the isolation of sixty-three virus-specific CTL lines, the majority of which (61/63) were specific for the PUUV N protein. Six novel CD8+ CTL epitopes and one CD4+ CTL epitope were identified on the N protein, all of which clustered in the center of the protein between amino acids 173 and 251. The CTL lines specific for these epitopes were restricted by a variety of HLA alleles including A2, A28, B7 and B8, and were primarily serotype specific when tested against target cells expressing HTNV or SNV N protein. IFN-γ ELISPOT analysis using the defined epitopes to stimulated PBMC, revealed high frequencies of circulating N-specific CD8+ T cells in eight of thirteen individuals tested. Finally, T cell receptor (TCR) Vβ analysis of CTL clones specific for one epitope (N204-12) demonstrated that cells in this population expressed up to five different Vβ chains. These results demonstrated that the PUUV N protein may be the dominant target of the CTL response, that the N-specific CD8+ CTL responses are diverse, heterogeneous, and primarily serotype specific, and that virus-specific memory CD8+T cells can persist at high levels for up to 15 years after the primary infection. In order to understand the pathology of HFRS and HPS, we must be able to assess the contribution of various factors that could potentially contribute to disease. The virus burden in the infected individual is likely to be an important factor in the severity of the resulting disease. Quantitative RT-PCR analysis of plasma samples from acute HPS patients demonstrated that a higher virus burden (as reflected by viral RNA copy number) is associated with more severe HPS. In order to perform similar analyses in patients with HFRS caused by PUUV, we established a quantitative RT-PCR assay for the detection of PUUV S segment RNA in patient plasma. The design and optimization of the PUUV-specific RT-PCR is described in this report. This assay will allow us to measure the virus burden in patients and compare these data with levels of T cell activation and with parameters of disease severity. In this way, we hope to gain an understanding of the kinetics and magnitude of both the virus burden and virus-specific T cell response during the acute illness. This thesis provides the first description of human virus-specific T cell responses to HTNV and PUUV. These data shed light on the nature of the CD8+ T cell responses that are generated following natural infections with PUUV and sub-clinical infections with HTNV. The studies of memory CD8+ T cell responses to PUUV, and the development of a PUUV-specific quantitative RT-PCR assay, establish the framework for future studies of the immunopathology of acute HFRS. Quantitative analysis of both virus burden and T cell responses during acute illness will provide insight into their relative contributions to the pathology of disease. Hantavirus Hantavirus Infections Hantavirus Pulmonary Syndrome Hemorrhagic Fever with Renal Syndrome Hantaan virus Puumala virus CD8-Positive T-Lymphocytes T-Lymphocytes Hemic and Immune Systems Respiratory Tract Diseases Virus Diseases Viruses
170	Maternally Derived Anti-Dengue Antibodies and Risk of DHF in Infants: A Case-Control Study Hatch, Steven 01 August 2010 (has links) This study proposes to directly test the hypothesis that antibody-dependent enhancement (ADE) is the critical factor in the development of dengue hemorrhagic fever (DHF) in infants. DHF occurs in two distinct clinical settings: a) in children and adults with secondary DENV infection, and b) in infants with primary DENV infection born to mothers with prior DENV infection. The ADE hypothesis proposes that pre-existing serotype-cross-reactive non-neutralizing anti-DENV antibodies bind the heterotypic DENV during secondary infection and enhance its uptake into immune cells, leading to increased viral load and DHF. This model suggests that DHF in DENV-infected infants is caused by the enhancing effect of waning maternal anti-DENV antibodies, thus causing a “physiologic secondary infection” during an infant’s primary infection and thereby increasing the infant’s risk for DHF. The effect of maternal immunity on DHF in infants has been studied exclusively in Southeast Asia. However, the maternal DENV seroprevalence approaches 100% in this part of the world. As a consequence, the ADE model of infant DHF cannot truly be tested in Southeast Asia, because all infants possess anti-DENV antibody at birth. In the Western Hemisphere, by contrast, women may have experienced either a single DENV infection, more than one DENV infection, or no DENV infection at all. The ability to include DENV-seronegative mothers as controls allows for the ADE hypothesis to be directly tested in a clinical study. To our knowledge, no such study has been previously conducted. This thesis presents a case-control study designed to evaluate the influence of positive maternal dengue seroprevalence on the risk of DHF in infants. As the MSCI program provides instruction in study design, this thesis does not present findings. The clinical trial described herein began in May 2010 and enrollment is expected to continue through May 2012 (see Table 4). Dengue Dengue Hemorrhagic Fever Seroepidemiologic Studies Infectious Disease Transmission Vertical Infant Bacterial Infections and Mycoses Environmental Public Health Immunology and Infectious Disease Infectious Disease Investigative Techniques Life Sciences Maternal and Child Health Medicine and Health Sciences Virus Diseases

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