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Gene Expression Analysis Of Upregulated Genes By 20-OH Ecdysone in <em>Brugia malayi</em>Lazaro, Monica 27 March 2015 (has links)
Brugia malayi is a filarial nematode causing lymphatic filariasis in humans characterized by swelling of the lower extremities. The aim of this study was to conduct a real time PCR (qRT-PCR) to verify gene expression levels of Brugia malayi nematodes treated with 20 hydroxyecdysone. Transcriptome analysis was previously performed resulting in the identification of 44 genes that were upregulated by exposure to 20-hydroxyecdysone. Based on transcriptome results, known GO Terms and functions, four genes and one endogenous housekeeping gene were chosen for validation by RT-PCR. Induced samples showed a mean increase of microfilarie by 2.2 fold. Induced wells exhibited a 2.8 fold increase of pre- microfilarie production. On day two adult females treated with 20-HE displayed 3.8-fold increase of microfilaria production as compared to uninduced controls. Overall, all four genes showed upregulation with treatment of 20-hydroxyecdysone at levels that corresponded to the results obtained from the transcriptome analysis. Findings in this experiment expand on the understanding of the ecdysone response system in Brugia malayi, which could serve as a potential drug target against filarial disease.
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Caractérisation et Ciblage de Protéines Essentielles via l'utilisation de nanobodies chez Trypanosoma brucei / Characterisation and Nanobody Targeting of Essential Cytoskeletal Proteins of Trypanosoma bruceiBroster, Christine 26 September 2019 (has links)
Les parasites de la classe des Kinetoplastidae, comprenant notamment les trypanosomes et les leishmanies, sont responsables pour plusieurs maladies d’importance socio-économique et de santé publique. La maladie du sommeil, la maladie de Chagas et la leishmaniose, classées comme maladies tropicales négligées (NTD) par l’Organisation mondiale de la santé (OMS) et la Surra, reportée par l’Organisation pour l’alimentation et l’agriculture, des Nations Unies (FAO). La Trypanosomiase Animale Africain sub-saharienne entraîne la mort de 3 millions bovins par an accompagné d'une perte annuelle de l'économie de 4,5 milliards de dollars américains. La leishmaniose cutanée, une maladie zoonose, présente 1,5 millions de nouveaux cas chaque année.Trypanosoma brucei (T. brucei) est un ancien eucaryote, utilisé comme organisme modèle dans le laboratoire pour l’étude des cils et des flagelles. Le remodelage du cytosquelette des trypanosomes est essentiel pour la morphologie cellulaire, le positionnement et la division des organites. L’étude des protéines essentielles du cytosquelette permet de mieux comprendre les processus cellulaires. Ces protéines pourraient également constituer des cibles potentielles pour des traitements thérapeutiques. Les trypanosomes échappent au système immunitaire de l’hôte en modifiant périodiquement les antigènes de présent à leur surface. En effet ces antigènes de surface sont endocytés, ainsi que les anticorps de l’hôte qui y sont attachés, au niveau d’une structure appelée la poche flagellaire (FP). TbBILBO1 est une protéine structurelle du collier de la poche flagellaire (FPC), essentielle à la biogenèse du FPC et à la survie du parasite. En raison du rôle majeur de la protéine TbBILBO1 dans le parasite, des partenaires de TbBILBO1 ont été recherchés.Dans ce travail, j’ai pu caractériser une nouvelle protéine essentielle du cytoskelette, la protéine FPC6, partenaire de TbBILBO1, qui se situe au niveau du complexe FPC/Complexe du Hook de T. brucei. L’ARN interférence de FPC6 conduit à une mort rapide des formes sanguines des trypanosomes, accompagnée d’un blocage de l’endocytose. Ensuite, j’ai produit un nanobody (Nb48), dirigé contre TbBILBO1, dans le système d’expression bactérien. Je l’ai également exprimé dans les lignées de trypanosomes. Le Nb48 reconnait TbBILBO1 sur les trypanosomes fixés par immunofluorescence et dans les extraits totaux de protéines dénaturées. L’analyse par résonance plasmonique de surface (SPR) a confirmé une haute affinité du Nb48 pour TbBILBO1. L’expression de Nb48 dans le parasite T. brucei en tant qu’intrabody demontrant que ce nanobody pouvait être exprimé de manière fonctionnelle, capable de reconnaitre spécifiquement sa cible protéique, TbBILBO1, intra-cellulaire et de bloquer sa fonction conduit à un effet trypanocide rapide. Ces études ouvrant ainsi la voie pour de nouvelles utilisations potentielles thérapeutiques dans le traitement des trypanosomiases. / Kinetoplastid parasites, including trypanosomes and leishmania, are responsible for several diseases of socio-economic and public health importance worldwide. These include the Neglected Tropical Diseases: Sleeping Sickness, Chagas disease and Leishmaniasis, as classified by the World Health Organisation (WHO) and the global wasting disease of animals, Surra, as reported by the Food and Agricultural Organisation of the United Nations (FAO). Animal African Trypanosomiais (AAT) causes the death of 3 million cattle per year in sub-Saharan Africa, with an annual loss of 4.5 billion US dollars to the African economy. Cutaneaous leishmaniasis is a zoonotic disease, with 1.5 million new cases reported globally each year.Trypanosoma brucei is an ancient, early diverging eukaryote, used as a model organism in the laboratory for studying eukaryotic cilia and flagella. Remodelling of the trypanosome cytoskeleton is essential for cell morphology, organelle positioning and division. Study of essential proteins of the cytoskeleton provides insight into intracellular processes and could provide potential targets for therapeutic interventions. Trypanosomes evade the host immune system by periodically changing their external surface coat, which is endocytosed, along with any attached host antibodies, via a structure called the flagellar pocket. TbBILBO1 is a structural protein of the Flagellar Pocket Collar (FPC) that is essential for FPC biogenesis and parasite survival. Due to the importance of TbBILBO1 for the parasite, protein partners were investigated.In my thesis, I describe, firstly, the characterisation of a novel and essential cytoskeletal protein, FPC6, of the FPC/Hook complex of T. brucei; FPC6 is a partner of TbBILBO1. RNAi Knock-down of FPC6 protein leads to rapid cell death in the blood-stream form of the parasite accompanied with a block in endocytosis. Secondly, I describe the purification and intracellular expression of a nanobody (Nb48), raised against TbBILBO1. The purified Nb is able to identify TbBILBO1 in fixed trypanosomes and denatured protein. Surface Plasmon Resonance analysis confirmed a high affinity of Nb48 to TbBILBO1. Expression of Nb48 as an intrabody in T. brucei, reveals that it binds precisely to its target, TbBILBO1 and leads to rapid cell death. Further exploration of the potential uses of this trypanocidal nanobody is warranted.
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The Impact of Supply Chain Logistics Performance Index on the Control of Neglected Tropical Diseases in Low- and Middle-Income CountriesUmaru, Farouk Adams 01 January 2015 (has links)
Neglected tropical diseases (NTD) in low- and middle-income countries are still not on target per the World Health Organization's (WHO) elimination goal of 2020. Mass drug administration (MDA) is one of the effective strategies supported by the WHO for the control and subsequent elimination of NTD. This quantitative study explored how supply chain logistic capacity may be hampering MDA coverage in countries in which the diseases are endemic. The study examined secondary data from WHO data bank for MDA coverage, to quantify the relationship between supply chain logistics capacity, as measured by the World Bank's logistics performance index (LPIs), and the control of NTD using MDA. The ecological theory of health behavior was the theoretical framework for this study. The research questions explored whether a low- and/or middle-income country's supply chain infrastructure, logistics services, customs and border procedures, and supply chain reliability, predict the coverage of MDA in controlling NTD. A multiple regression model determined the linear relations between each predictor: supply chain infrastructure (H1), logistics services (H2), custom and border procedures (H3), and supply chain reliability (H4) and the control of neglected diseases as determine by MDA. Results indicated that supply chain capacity, custom and border processes, and supply chain reliability are statistically significant in predictors of MDA coverage in the control of NTD in developing countries. This study may enhance social change by improving supply chain capacity for more effective distribution of PCT drugs, thus helping with the elimination of NTDs and improved health outcomes in low- and middle-income countries.
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Biogeographical patterns of African trypanosomoses for improved planning and implementation of field interventionsCecchi, Giuliano 29 November 2011 (has links)
Spatially-explicit information is essential for planning and implementing interventions against vector-borne diseases. This is also true for African trypanosomoses, a group of diseases of both humans and animals caused by protozoa of the Genus Trypanosoma, and transmitted by tsetse flies (Genus Glossina).<p>In this thesis the knowledge gaps and the requirements for an evidence-based decision making in the field of tsetse and trypanosomoses are identified, with a focus on georeferenced data and Geographic Information Systems (GIS). Datasets, tools and analyses are presented that aim to fill some of the identified knowledge gaps.<p>For the human form of the disease, also known as sleeping sickness, case detection and treatment are the mainstay of control, so that accurate knowledge of the geographic distribution of infections is paramount. In this study, an Atlas was developed that provides village-level information on the reported occurrence of sleeping sickness. The geodatabase underpinning the Atlas also includes the results of active screening activities, even when no cases were detected. The Atlas enables epidemiological maps to be generated at a range of scales, from local to global, thus providing evidence for strategic and technical decision making.<p>In the field of animal trypanosomosis control, also known as nagana, much emphasis has recently been placed on the vector. Accurate delineation of tsetse habitat appears as an essential component of ongoing and upcoming interventions against tsetse. The present study focused on land cover datasets and tsetse habitat. The suitability for tsetse of standardized land cover classes was explored at continental, regional and national level, using a combination of inductive and deductive approaches. The land cover classes most suitable for tsetse were identified and described, and tailored datasets were derived.<p>The suite of datasets, methodologies and tools presented in this thesis provides evidence for informed planning and implementation of interventions against African trypanosomoses at a range of spatial scales. / Doctorat en Sciences agronomiques et ingénierie biologique / info:eu-repo/semantics/nonPublished
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A Natural Product and High-Throughput Screening Synthetic Approach Towards the Discovery of Antileishmanial AgentsScaduto, Ryan 04 May 2021 (has links)
No description available.
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