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161	Effect of congruent gastro-intestinal pathogen infection on oral prion disease susceptibility Sánchez Quintero, Alejandra January 2018 (has links) Transmissible spongiform encephalopathies (TSEs) or prion diseases, are subacute neurodegenerative diseases that infect humans and animals. Many of these diseases are acquired by peripheral exposure (e.g. orally). After oral exposure prion replication within the Peyer's patches (PP) in the small intestine is necessary for the efficient spread of the disease to the brain. Within the intestine, bacteria and pathogenic microorganisms can affect the status of the gut associated lymphoid tissue (GALT). GALT consists of PP and isolated lymphoid follicles (ILF) that maintain homeostasis and protect from infections. Therefore, factors which modify GALT status, might dramatically affect oral prion disease pathogenesis by influencing the uptake of prions from the gut lumen or expanding their distribution within the host. Chronic intestinal helminth infections are common in animals and in man, and can cause significant pathology within the intestine. Little is known of the effects that intestinal helminth infections may have on oral prion diseases susceptibility. Therefore, in this study the influence that co-infection with Heligmosomoides polygyrus (a natural pathogen of the mouse small intestine) may have on oral prion disease pathogenesis and susceptibility was determined. The studies consisted of groups of 4 (for H. polygyrus characterization and for early prion detection) and 8 (for H. polygyrus-prion co-infection to terminal stage) mice infected with H. polygyrus (orally) alone or subsequently infected with ME7 scrapie prions (orally) at different time-points after parasitic infection. The effects of the H. polygyrus infection alone, and on oral prion disease pathogenesis and susceptibility were then determined. Initially the characterization of H. polygyrus infection on the host intestine revealed that this parasite caused significant pathology in the small intestine and affected the GALT microarchitecture. In the PP follicles, H. polygyrus infection increased the area of follicular dendritic cell expression, altered the positioning of mononuclear phagocytes and increased M cell density. H. polygyrus infection also reduced the number of ILF in both the small and large intestines. Additional studies in mice co-infected with a low dose of prions, revealed that these pathological changes affected the survival time and disease susceptibility. Data also show that the extent of the effects on prion disease pathogenesis and susceptibility were dependent on the stage of the helminth infection at which the mice were orally-exposed to prions. Data demonstrate that co-infection with the gastrointestinal helminth H. polygyrus can influence oral prion disease pathogenesis and susceptibility. Helminth infections can significantly modify the microarchitecture of the gut and the GALT. Data presented suggest the pathological changes that pathogens such as small intestinal helminths cause, may also influence the uptake of prions from the gut lumen after oral exposure.
162	Examining the Current U.S. Beef Trade Policies Concerning the Testing for Mad Cow Disease Miller, David C 11 November 2004 (has links) Despite existing mad cow disease surveillance efforts in the United States, in place since the 1980s, a cow that tested positive for mad cow disease was granted entrance into the U.S. in December, 2003. The cow that tested positive, according to witnesses, displayed no symptoms that are synonymous with advanced bovine spongiform encephalopathy, BSE. This occurrence had detrimental effects on the U.S. beef export market, as many countries banned American beef. Estimates of the damage inflicted reach into the billions of dollars. BSE in the U.S. has the potential of causing damages in other aspects as well. Aside from the fact that BSE is a public health issue, it has caused political rifts between nations, particularly between Canada and the U.S. It can undermine confidence in the USDA and confidence in the governments ability to handle emergencies. BSE can imperil American good that contain beef or beef products. Finally, it can undermine trust in scientists to provide useful guidance. The subtle changes in U.S. BSE surveillance efforts in the 1980’s were greatly surpassed by the changes that were made when a BSE-positive cow was discovered in Washington State in 2003. However, there remains room for much needed improvement in U.S. BSE surveillance efforts. These changes include: increased testing to include all cows slaughtered in the U.S. and all imported beef products, a nationwide animal tracking program, increased proficiency in training of inspectors, and the implementation of strict rules governing the ingredients of animal feed. The implementation of regulations based on economics instead of public health concerns has the potential to leave loopholes in regulations that the BSE agent might exploit. By enacting the recommendations made in this thesis, the U.S. will greatly increased its' odds of stopping the entrance and proliferation of BSE within its’ borders. Bovine spongiform encephalopathy Prion Ruminant Downer animal Specified risk materials American Studies Arts and Humanities
163	Rôle des cellules immunitaires et effet des cannabinoïdes dans la physiopathologie des maladies à prions Cordier-Dirikoc, Sevda 08 April 2008 (has links) (PDF) L'évènement moléculaire clé des maladies à prions est la conversion de la protéine prion cellulaire (PrPc) en une isoforme pathologique et résistance à la protéolyse, nommée (PrPres). La PrPres est responsable de la neuropathogenèse et de la transmissibilité de la maladie. La recherche de molécules capables d'inhiber sa formation dans le cerveau est donc une stratégie thérapeutique envisageable. Le cannabidiol, composé non psycho-actif de Cannabis Sativa, inhibe l'accumulation de la PrPres aussi bien in vitro qu'in vivo et permet de prolonger significativement le temps de survie des souris infectées par les prions. De nombreuses études suggèrent la participation des cellules immunes dans le transport de la PrPres. Grâce à un modèle de déplétion transitoire des cellules dendritiques, nous avons montré que ces cellules étaient impliquées dans le processus de lymphoinvasion après une infection par voie intra-péritonéale mais pas par voie orale.<br />La fonction physiologique de la PrPc est encore mal connue, en particulier dans le système immunitaire. La recherche de partenaires protéiques pourrait permettre de mieux comprendre le rôle de la PrPc. Des traceurs fluorescents composés de PrP recombinante ont été produits et utilisés pour caractériser les sites de liaison de la PrPc dans les différentes populations de splénoctytes murins. La liaison des traceurs sur des lymphocytes B entraîne l'activation de la voie des MAP kinase et l'élévation transitoire de la concentration calcique intracellulaire démontrant que la liaison de la PrPc à ses récepteurs est fonctionnelle. Le rôle physiologique de ces interactions et la nature moléculaire des récepteurs reste à être déterminés. Prion Récepteurs Cannabinoïdes Neuro-invasion Cellules dendritiques
164	Spécificités fonctionnelles des Hsp70 cytoplasmiques chez la levure Martineau, Céline 28 January 2010 (has links) (PDF) Les Hsp70 constituent une famille de chaperons moléculaires ubiquitaires qui jouent des rôles essentiels dans le repliement, le transport ou la dégradation des protéines. Le cytoplasme des cellules eucaryotes contient plusieurs paralogues de Hsp70 fortement conservés qui diffèrent essentiellement par leur expression spatio-temporelle. Plusieurs travaux suggèrent que ces paralogues ont des spécificités fonctionnelles que nous avons cherché à mettre en lumière et caractériser par des approches génétiques. Dans une première étude, nous avons comparé les activités des Hsp70 des levures Saccharomyces cerevisiae (Ssa1-4) et Yarrowia lipolytica (Ssa5-8) lorsqu'elles sont exprimées comme unique Hsp70 chez S. cerevisiae. Nous avons montré que ces Hsp70: 1) assurent la viabilité des cellules mais avec des taux de croissance très différents; 2) ont des effets variables sur la propagation et la stabilité des prions [URE3] et [PSI+]; et 3) permettent la dégradation protéasomale de CFTR avec des cinétiques comparables. Dans une seconde étude, nous avons montré que la formation de biofilms chez la levure dépend de la machinerie Hsp70 qui contrôle, via des voies distinctes, l'expression, la maturation et le recyclage d'une adhésine de surface (Flo11) requise pour ce processus. Enfin, nous avons construit et caractérisé des mutants de Y. lipolytica dans lesquels un ou plusieurs gènes codant des chaperons moléculaires ou acteurs de la protéostase (e.g. Hsp70, Hsp104, CHIP) ont été invalidés. Malgré une forte homologie et une redondance fonctionnelle, les Hsp70 possèdent des propriétés distinctes permettant aux cellules de faire face à différents types de substrats et de conditions de stress. Hsp70 Hsp40 levure prion biofilm
165	A Theoretical Investigation of the Octapeptide Region in the Human Prion Protein Riihimäki, Eva-Stina January 2007 (has links) Den kopparbindande egenskapen hos prionproteiner är sannolikt kopplad till proteinets funtion. Det mänskliga prionproteinet innehåller ett kopparbindande oktapeptidområde, där PHGGGWGQ-sekvensen upprepas fyra gånger i följd. Syftet med detta arbete är att undersöka strukturen och dynamiken i oktapeptidområdet genom att använda teoretiska metoder. Med kvantkemisk strukturoptimering genomfördes en detaljerad jämförelse av växelverkan mellan flera katjoner och det kopparbindande området. Enligt dessa beräkningar är rodium(III) en möjlig ersättare för koppar(II) i NMR-specktroskopiska koordinationsstudier. Alternativa solvatiseringsmodeller i molekyldynamiksimuleringar har också jämförts. Periodiska randvillkor är mest lämpade för användning i de system som undersöks i detta arbete. Molekyldynamiksimuleringar användes för att jämföra oktapeptidområdets struktur och dynamik med och utan kopparjoner. Växelverkan mellan aminosyrornas ringar påverkar starkt strukturen i detta område i frånvaro av kopparjoner. Fyra olika icke-bindande och bindande modeller har studerats, vilka skiljer i sin beskrivning av växelverkan mellan koppar och proteinet. Teoretiska EXAFS spektra beräknades från dem simulerade strukturerna. Spektra som genererats för den bindande modellen är nästan identiska med experimentiella resultat, vilket stöder användandet av den bindande modellen. Detta arbete visar att kopparjoner interagerar med histidin imidazolringens Nδ, deprotonerade amidkväven hos de därpå följande glycinerna samt karbonylsyret hos den andra glycinen. Simuleringarna kunde visa att kopparjonen inte stabilt binder några axiella vattenmolekyler i lösning, till skillnad från en kristallstruktur av koordinationsstrukturen. Indolringen hos tryptofan interagerar direkt med kopparjonen genom stabiliserande katjon-π växelverkan utan direkt medverkan av någon vattenmolekyl. Växelverkan mellan indolringen och kopparjonen var väldefinierad och observerades kunna ske på båda sidor av koordinationsplanet. Molekyldynamiksimuleringarna med kopparjoner och oktapeptidområdet visade hur närvaron av kopparjoner ledde till ett mer strukturerat oktapeptidområde. / The copper-binding ability of the prion protein is thought to be closely related to its function. The human prion protein contains a copper-binding octapeptide region, where the octapeptide PHGGGWGQ is repeated four times consecutively. This work focuses on investigation of the structure and the dynamics of the octapeptide region by means of theoretical methods. Quantum chemical structural optimization allowed a detailed comparison of the interaction of several cations at the copper coordination site. These calculations identified rhodium(III) as a potent substitute for copper(II) that could be used to study the coordination site with NMR-spectroscopic methods. Solvation models that could be used in molecular dynamics simulations as an alternative to periodic boundary conditions were evaluated. Periodic boundary conditions are the best method for modeling the aqueous bulk in the kind of systems that are studied in this work. Molecular dynamics simulations were used to compare the behavior of the octapeptide region in the absence and presence of copper ions. Interaction between nonpolar rings strongly influences the structure of the region in the absence of copper ions. Four different non-bonded and bonded models for describing the interaction between copper and the protein were evaluated. Theoretical EXAFS spectra were calculated from the simulated structures. The results obtained for the bonded model are nearly identical with experimental data, which validates the use of the bonded model. This work thus shows strong evidence for copper(II) ions interacting with the octapeptide region through the histidine imidazole Nδ, the deprotonated nitrogen atoms of the following two glycine residues and the carbonyl oxygen atom of the second glycine residue. Notably, the simulations show that the axial sites of the copper ion do not stably coordinate water molecules in solution, as opposed to the crystal structure reported for the coordination site. Instead, the tryptophan indole ring interacted directly with the copper ion through stabilizing cation-π interaction without water mediation. The interaction of the indole ring with the copper ion was well-defined and was observed to occur on both sides of the coordination plane. The investigations of the interaction between copper ions and the octapeptide region with molecular dynamics simulations show how the presence of copper ions results in a more structured octapeptide region. / QC 20100816 Inorganic chemistry Oorganisk kemi
166	Genetic and physical interaction of Sgt2 protein with prion-chaperone machinery Pan, Tao 10 August 2011 (has links) The word "Prion" refers to self-perpetuating protein aggregates that cause neurodegenerative diseases in mammals. It is a protein isoform that has undergone a conformational change which converts the normal form of the protein into the infectious form with the same amino acid sequence. Yeast [PSI+] prion is the prion isoform of Sup35 protein, a translation termination factor eRF3. It has been suggested that prion [PSI+] is controlled by the ensemble of chaperones with Hsp104 playing the major role. The previous work performed in the Chernoffs lab showed that the defective GET pathway caused by get led to the defect in [PSI+] curing by excess Hsp104. The GET pathway is a system responsible for transporting newly synthesized TA-protein to the ER membrane, and the components which have been proven to be involved in this pathway include: Get1, Get2, Get3, Get4, Get5 and Sgt2. In this study we describe the mechanism underlying the effect of the defective GET pathway on [PSI+]. We demonstrate that Sgt2, one of the components of GET pathway, interacts with Sup35 in both [PSI+] and [psi-] strains through its prion domain. Overproduction of Sgt2 and Hsp70-Ssa is triggered by the defective GET pathway and leads to the protection of [PSI+] aggregates from curing by excess Hsp104. We show that the direct interaction between Sgt2 and Hsp70-Ssa is not required for this protective effect. Prion Sup35 Get2 Curing Delitto Nervous system Degeneration Nervous system Diseases Molecular biology Prions Proteins
167	The Significance of the Evolutionary Relationship of Prion Proteins and ZIP Transporters in Health and Disease Ehsani, Sepehr 11 December 2012 (has links) The cellular prion protein (PrPC) is unique amongst mammalian proteins in that it not only has the capacity to aggregate (in the form of scrapie PrP; PrPSc) and cause neuronal degeneration, but can also act as an independent vector for the transmission of disease from one individual to another of the same or, in some instances, other species. Since the discovery of PrPC nearly thirty years ago, two salient questions have remained largely unanswered, namely, (i) what is the normal function of the cellular protein in the central nervous system, and (ii) what is/are the factor(s) involved in the misfolding of PrPC into PrPSc? To shed light on aspects of these questions, we undertook a discovery-based interactome investigation of PrPC in mouse neuroblastoma cells (Chapter 2), and among the candidate interactors, identified two members of the ZIP family of zinc transporters (ZIP6 and ZIP10) as possessing a PrP-like domain. Detailed analyses revealed that the LIV-1 subfamily of ZIP transporters (to which ZIPs 6 and 10 belong) are in fact the evolutionary ancestors of prions (Chapter 3). We were further able to demonstrate that PrPC likely emerged from a ZIP ancestor molecule nearly half-a-billion years ago via a retrotransposition event (Chapter 4). Moreover, biochemical investigations on ZIP10, as a model LIV-1 ZIP transporter, demonstrated that the ectodomain shedding of ZIP10 observed in prion-infected mice resembles a cellular response to transition metal starvation and suggested that prion disease in mice might phenocopy a transition metal starvation status (Chapter 5). These studies have opened a new angle to study prion biology in health and disease. Biochemical investigations on other LIV-1 ZIPs and attempts at the structural elucidation of the PrP-like domain of LIV-1 ZIP proteins are ongoing and have not been included in this thesis. Prion protein ZIP transporters Zinc Metal biology 0715 0379 0369 0317
168	Prions and platelets: a possible role for cellular prion protein Robertson, Catherine 28 April 2005 (has links) Cellular prion protein (PrPc) is a GPI–anchored protein, of unknown function, found in a number of cells throughout the body. It is now widely believed that a mis-folded, protease resistant form of this protein is responsible for a group of fatal neurodegenerative diseases called transmissible spongiform encephalopathies (TSE), including Creutzfeldt-Jakob disease (CJD) and kuru in humans, scrapie in sheep, chronic wasting disease (CWD) in deer and elk and bovine spongiform encephalopathy (BSE) in cattle. Although the exact function of PrPc is unknown it has been implicated in copper binding, signal transduction and cell adhesion. The pathogenesis of prion diseases is poorly understood, however it is known that PrPc must be present in order for the disease to progress. Platelets have been shown to be the largest reservoir of PrPc in peripheral blood cells and previous studies in animal models have suggested platelets may also be involved in TSE infectivity. In this study, we determine the exact location of PrPc within human platelets, examine the mobilization and release of PrPc from activated platelets on both microvesicles and exosomes and suggest a possible role for platelets in prion infectivity. In addition we examine the role of PrPc within normal platelet functions including aggregation, signal transduction and adhesion. / May 2005 platelets cellular prion protein blood cells microvesicles exosomes
169	Pathologie moléculaire de l'α-synucléine : relations potentielles avec les maladies à prion Boyer-Mougenot, Anne-Laure 13 April 2011 (has links) (PDF) Les similitudes entre les mécanismes neurotoxiques responsables des encéphalopathies spongiformes Transmissibles (EST) et des synucléinoapthies, ainsi que la présence concomitante des formes pathologiques de la protéine prion et de l'α-synucléine au sein d'une même maladie neurodégénérative sont deux observations qui nous ont conduits à étudier les relations existant potentiellement entre les altérations moléculaires de l'α-synucléine et les maladies à prion. Après avoir développé des anticorps monoclonaux en immunisant avec de l'α-synucléine recombinante humaine des souris n'exprimant pas de façon endogène cet immunogène, nous avons caractérisé les altérations moléculaires de l'α-synucléine apparaissant conjointement à une symptomatologie motrice sévère lors du vieillissement de souris transgéniques (TgM83) surexprimant l'α-synucléine humaine mutée en A53T. Les essais d'inoculation intracérébrale de souris TgM83 par différentes souches de prion ont mis en évidence que la transmission de l'encéphalopathie spongiforme bovine de type H permet de déclencher chez ces animaux une maladie à prion de façon concomitante au développement d'altérations moléculaires de l'α-synucléine. Enfin, l'importante accélération de la pathologie liée a l'α-synucléine observée chez des souris TgM83 ayant été inoculées par des tissus contenant des formes altérées de l'α-synucléine, constitue un résultat soutenant le fait que la pathologie liée a l'α-synucléine serait capable de se propager expérimentalement de proche en proche, comme la protéine prion pathologique au cours des EST Αlpha-synucléine Prion Maladie neurodégénérative Parkinson Synucléinopathie
170	Surveillance Of Prion Protein (prp) Gene Polymorphisms In Turkish Native Sheep Breeds Uzun, Begum 01 June 2012 (has links) (PDF) v It was found that most of the classical scrapie genotypes belong to R3 risk group, whereas atypical scrapie genotypes belonging to zero (0) and one (1) risk groups were frequently seen in sheep analyzed. In other words, Turkish sheep is found to have intermediate risk of classical scrapie and low atypical scrapie risk, in general. The data from the current study may help to establish a breeding program for classical scrapie control in Turkey and will be beneficial for both the animal and public health in the country. In addition, the outcomes of the study will fill the gap which is present in the geographic distribution data of PrP gene polymorphisms in Eurasia.Scrapie is an infectious fatal disease of sheep and goats which affects the central nervous system. In the present study, samples of 14 native Turkish sheep breeds (n=655) were analyzed with respect to their polymorphisms of PrP gene (at codons: 136, 141, 154 and 171) and their classical and atypical scrapie risk levels were identified. Turkish sheep are found to have the highest PrP genetic variability with 13 classical scrapie alleles and 14 atypical scrapie alleles compared to all previous studies. Classical scrapie-susceptible and wild-type ARQ allele was found as the most frequent allele in Turkish sheep examined. The most classical scrapie-susceptible allele, VRQ was detected at low frequencies in 5 of the breeds (&Ccedil / ine &Ccedil / apari, Dagli&ccedil / , Kivircik, Karayaka and G&ouml / k&ccedil / eada). One novel allele (TL141HQ) was observed in Sakiz breed for the first time in this study. QH Genetics 426-470

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