Global ETD Search

51	Developmental Regulation of Prion Expression in Cattle and Mouse Embryonic Stem Cells Peralta, Oscar A. 03 September 2008 (has links) The host encoded cellular prion protein (PrPC) is an N-linked glycoprotein tethered to the cell membrane by a glycophosphatidylinositol (GPI) anchor. Under certain conditions, PrPC can undergo conversion into a conformationally-altered isoform (PrPSc) widely believed to be the pathogenic agent of transmissible spongiform encephalopathies (TSEs). Thus, tissues expressing PrPC are potential sites for conversion of PrPSc during TSE pathogenesis. Although much is known about the role of PrPSc in prion diseases, the normal function of PrPC is poorly understood. Lines of mice and cattle in which PrPC has been ablated by gene knockout show no major phenotypical alterations other than resistance to TSE infection. However, recent reports using Prnp-null mouse models have suggested the participation of PrPC in neural stem/progenitor cell proliferation and differentiation. The first objective in our study was to map the expression of PrPC in twenty six somatic and reproductive tissues in ruminants. Our second objective was to characterize the ontogeny of PrPC expression during bovine embryonic and early fetal development. Finally, we used a mouse embryonic stem cell (mESC) model to study the potential role of PrPC during neurogenesis. In adult tissues, intense expression of PrPC was detected in the central nervous system (CNS), thymus and testes, whereas the liver, striated muscle and female reproductive tissues showed the lowest expression. We observed that PrPC was associated with tissues undergoing cellular differentiation including spermatogenesis, lymphocyte activation and hair follicle regeneration. Analyses in bovine embryos and fetuses indicated peaks in expression of PrPC at days 4 and 18 post-fertilization, stages associated with the maternal-zygote transition and the maternal recognition of pregnancy and initiation of placental attachment, respectively. Later in development, PrPC was expressed in the CNS where it was localized in mature neurons of the neuroepithelium and emerging neural trunks. Based on these observations, we hypothesized that PrPC was involved in neurogenesis. We tested this hypothesis in a murine embryonic stem cell model (mESC). mESC were induced to form embryoid bodies (EBs) by placing them in suspension culture under differentiating conditions and allowed to differentiate in vitro for 20 days. We detected increasing levels of PrPC starting on day 12 (8.21- fold higher vs. day 0; P < 0.05) and continuing until day 20 (20.77-fold higher vs. day 0; P < 0.05). PrPC expression was negatively correlated with pluripotency marker Oct-4 (r= -0.85) confirming that mESC had indeed differentiated. To provide a more robust system for assessing the role of PrPC in neural differentiation, mESC were cultured with or without retinoic acid (RA) to encourage differentiation into neural lineages. Induction of EBs with retinoic acid (RA) resulted in an earlier up-regulation of PrPC and nestin (day 12 vs. day 16; P < 0.05). In addition, immunofluorescence studies indicated co-expression of PrPC and nestin in the same cells. The results of these experiments suggested a temporal link between PrPC expression and expression of nestin, a marker of neural progenitor cells. We next tested whether PrPC was involved in RA-enhanced neural differentiation from mESC using a PrPC knockdown model. Plasmid vectors designed to express either a PrP-targeted shRNA or scrambled, control shRNA were transfected into mESC. Stable transfectants were selected under G418 and cloned. PrP-targeted and control shRNA clones, as well as wild-type mESC, were differentiated in presence of RA and sampled as above. PrPC expression was knocked down in PrP-targeted shRNA cultures between days 12 and 20 (62.2 % average reduction vs. scrambled shRNA controls). Nestin expression was reduced at days 16 and 20 in PrPC knockdown cells (61.3% and 70.7%, respectively vs. scrambled shRNA controls). These results provide evidence that PrPC plays a role in the neural differentiation at a point up-stream from the stages at which nestin is expressed. In conclusion, the widely distributed expression of PrPC in ruminant tissues suggests an important biological role for this protein. In the present work we have provided evidence for the participation of PrPC in the differentiation of mESC along the neurogenic pathway. / Ph. D. Somatic tissues Reproductive tract Prion gene (Prnp) Cellular prion protein (PrPC) Embryogenesis Gene expression Embryonic stem cells Neural differentiation
52	Assessment of Retroviruses as Potential Vectors for the Cell Delivery of Prions Rahimi Khameneh, Shabnam 31 October 2012 (has links) Transmissible spongiform encephalopathies (TSEs) or prion diseases are a class of fatal brain disorders better known as Creutzfeldt-Jacob Disease (CJD) in humans, bovine spongiform encephalopathy (BSE) in cattle, scrapie in sheep, and chronic wasting disease (CWD) in deer and elk. The infectious agent responsible for these diseases is a misfolded prion protein capable of catalyzing a conformational change in normal cellular prion proteins (PrPC) into aberrant disease-causing structural isoforms (PrPSc). Although the etiological agent for TSEs has clearly been defined as PrPSc, there are important gaps in our understanding of how these proteins target and invade brain tissue. It remains to be established how ingested PrPSc ultimately reach the brain and also to understand why these tissues are particularly targeted, notwithstanding that several other tissues highly express prion proteins. Certain viruses, retroviruses in particular, efficiently hijack host proteins and can carry these proteins with them when they are released from a cell. Several lines of evidence have shown that prions and retroviruses can interact and associate at various stages of the retroviral replication cycle. Of special interest is that most retroviruses can cross the blood-brain barrier and could therefore deliver host-derived proteins to neuronal cells. In view of these observations, this thesis investigates whether retroviruses can act as vectors to capture prions from an infected cell and deliver them to a susceptible target cell. In this work, I have cloned human and mouse prion cDNAs from PBMCs and the murine cell line NIH 3T3. Either a FLAG epitope tag or the eGFP reporter protein cDNA was inserted into a region of the prion cDNA that is predicted to be amenable to such genetic insertions without affecting protein folding or expression. I then confirmed using both fluorescent and confocal microscopy and that the recombinant proteins had a similar cell distribution to the endogenous prion protein. Using Western blot analysis, I then showed that endogenous and overexpressed prion proteins can be detected in co-transfected cells producing HIV and murine leukemia virus (MLV) retroviral particles. Finally, I went on to show that prions are also present at high levels in HIV and MLV retroviral particles released from these cells. This work constitutes the first step in determining whether retroviruses can act as vectors for prion dissemination. Establishing a strong and clear association between retroviruses, pathogenic prions and prion disease would provide the rationale for preventive measures to be taken directly against retroviruses in order to protect humans and animals that have been newly exposed to PrPSc-infected products or those who are genetically predisposed to develop prion diseases. Anti-retroviral drugs could also be potentially used to delay disease progression and reduce prion transmission in human and animal tissues. The availability of such a treatment would constitute a significant advancement because there is currently no cure or treatment for prion diseases. Prion Prion diseases Retroviruses MLV HIV Vector FLAG epitope tag eGFP reporter protein Prion protein constructs NIH3T3 cell HEK 293T cell Confocal fluorescent microscopy
53	Estudo da interação entre PrPC e STI1/HOP na biologia de células-tronco de glioblastoma humano in vivo. / Role of PrPC and STI1/HOP in human glioblastoma stem cells biology in vivo. Iglesia, Rebeca Piatniczka 10 April 2017 (has links) O GBM é o tipo mais agressivo de glioma, apresentando células indiferenciadas (CTGs), responsáveis pela proliferação, invasão e recidiva tumoral. Avaliamos o papel da proteína PrPC e seu ligante HOP na proliferação e autorrenovação de CTGs. Cultivamos linhagens de GBM humano em neuroesferas e geramos populações knockdown para PrPC e HOP. Observamos co-localização de PrPC e CD133 na superfície e sua internalização conjunta estimulada por cobre, sugerindo recrutamento de CD133 mediado por PrPC. O silenciamento de PrPC reduz a expressão de marcadores de células-tronco e autorrenovação, diminui a expressão de proteínas de adesão e afeta a migração celular. O silenciamento de HOP reduz a proliferação, recuperada com o tratamento com HOP em células PrPC+. A capacidade tumorigênica e proliferativa de neuroesferas knockdown para PrPC e/ou HOP in vivo é reduzida. Finalmente, um peptídeo de HOP que bloqueia a interação com PrPC inibe a proliferação e autorrenovação em células PrPC+, indicando potencial do complexo PrPC-HOP como alvo para terapias contra o GBM. / GBM is the most aggressive type of glioma, presenting undifferentiated cells (GSCs), responsible for proliferation, invasion and tumor recurrence. We evaluated the role of the PrPC and its ligand HOP in the proliferation and self-renewal of GSCs. We cultured human GBM lineages in neurospheres and generated knockdown populations for PrPC and HOP. We observed co-localization of PrPC and CD133 on the surface and their co-stimulated copper internalization, suggesting PrPC-mediated recruitment of CD133. PrPC silencing reduces the expression of stem cell markers and self-renewal, decreases adhesion proteins expression, and affects cell migration. HOP silencing reduces proliferation, recovered with HOP treatment in PrPC+ cells. The tumorigenic and proliferative capacity of neurospheres PrPC and/or HOP knockdown in vivo is decreased. Finally, a HOP peptide which blocks PrPC-HOP interaction inhibits proliferation and self-renewal in PrPC+ cells, indicating PrPC-HOP complex potential as a target for therapies against GBM. Autorrenovação Cellular prion protein Células-tronco de glioblastoma Glioblastoma Glioblastoma Glioblastoma stem cells Heat shock organizing protein Heat shock organizing protein Proliferação Proliferation Proteína prion celular Self-renewal
54	Poliformismos do gene da proteína príon celular em pacientes com doença de Alzheimer / Prion protein gene polymorphism in Alzheimers disease Jerusa Smid 25 February 2011 (has links) INTRODUÇÃO: Os polimorfismos do gene da proteína priônica (PRNP) podem estar associados a doenças neurológicas não priônicas. Estudos em pacientes com doença de Alzheimer (DA) apontam para possível associação entre os polimorfismos do códon 129 do PRNP e DA. Essa associação não foi estudada na população brasileira. Neste estudo, descrevemos a associação entre os diferentes polimorfismos do PRNP e DA. MÉTODOS: Foi estudada amostra composta por 100 pacientes com DA, acompanhados no Ambulatório de Neurologia Cognitiva e do Comportamento e no Centro de Referência em Distúrbios Cognitivos do Hospital das Clínicas da Faculdade de Medicina da Universidade de São Paulo, pareados para grupo controle com 111 indivíduos, em relação à frequência dos diferentes polimorfismos do PRNP e o desempenho cognitivo. Os polimorfismos do PRNP foram estudados pelo método de cromotografia líquida de fase reversa desnaturante (DHPLC). Foi realizada extratificação da amostra pelo genótipo da apolipoproteína E (apoE). RESULTADOS: A frequência dos polimorfismos do códon 129 foi: 45,5% M/M, 42,4% M/V e 12,2% V/V nos pacientes com DA; e 39,6% M/M, 50,5% M/V e 9,9% V/V nos indivíduos controles (p=0,503). O códon 117 apresentou variante alélica silenciosa em 5% dos pacientes com DA e 3% dos controles (p=0,780). A deleção de um ocatapeptídeo repetido ocorreu em 5% dos pacientes com DA e 4% dos controles (p=0,738). Todos os pacientes com DA e os controles eram N171N. Uma paciente do grupo com DA apresentou a mutação V180I. A análise bivariada e regressão logística não mostraram associação entre os diferentes polimorfismos do códon 129 e o desempenho cognitivo nos pacientes com DA, assim como nos indivíduos cognitivamente normais. A extratificação segundo genótipo da apoE não revelou diferença em relação aos polimorfismos do códon 129 do PRNP entre os grupos DA e controles. CONCLUSÕES: Não houve diferença de frequência dos diferentes polimorfismos do códon 129 do PRNP entre os pacientes com DA e idosos cognitivamente normais, bem como em relação aos demais códons polimórficos do gene. Não houve diferença em relação ao desempenho cognitivo nos pacientes com DA e nos controles segundo o polimorfismo do códon 129 do PRNP. Um paciente apresentou mutação do códon 180 (V180I), e recebeu o diagnóstico de doença de Creutzfeldt-Jakob genética / INTRODUCTION: The polymorphism in the prion protein gene (PRNP) may influence non prion neurological diseases. Some reports associate Alzheimers disease (AD) and the polymorphic codon 129 of the PRNP. This association has not been studied in Brazilian population. In this study we aimed to describe the association between the polymorphisms of codon 129 of the PRNP and AD. METHODS: One hundred AD patients were evaluated in the Cognitive and Behavioral Neurology Unit and Cognitive Disorders Reference Center of the Hospital das Clínicas of the University of São Paulo School of Medicine, matched for 111 controls, regarding to the PRNP polymorphism and cognitive measures. The PRNP polymorphisms were analyzed using denaturing high-performance liquid chromatography (DHPLC). Analyzes stratifying by apoE genotype was performed. RESULTS: The distribution of the codon 129 polymorphisms were: 45.5% M/M, 42.4% M/V and 12.2% V/V in AD patients; 39.6% M/M, 50.5% M/V and 9.9% V/V in the control group (p=0.503). The 117 codon analysis revealed silent allelic variant in 5% of AD patients and 3% of controls (p=0.780). The octarepeat deletion occurred in 5% of AD and 4% of controls (p=0.738). All AD patients and controls were N171N. One AD patient had a point mutation at codon 180 (V180I). Logistic regression failed to confirm any association between AD cognitive performance and the codon 129 of PRNP, as well as in the control group. There was no association between the codon 129 genotypes and genotypes and AD according to the apoE stratification. CONCLUSIONS: There were no differences in the frequency of the codon 129 polymorphism between AD. control group, according to the codon 129 polymorphisms. A point mutation at the codon 180 (V180I) was diagnosed in one patient Apolipoproteínas E Cromatografia líquida de fase reversa Desempenho cognitivo Doença de Alzheimer Gene da proteína priônica Polimorfismo genético Alzheimers disease Apolipoproteins E Cognitive performance High-performance liquid chromatography Polymorphism Prion protein gene
55	Poliformismos do gene da proteína príon celular em pacientes com doença de Alzheimer / Prion protein gene polymorphism in Alzheimers disease Smid, Jerusa 25 February 2011 (has links) INTRODUÇÃO: Os polimorfismos do gene da proteína priônica (PRNP) podem estar associados a doenças neurológicas não priônicas. Estudos em pacientes com doença de Alzheimer (DA) apontam para possível associação entre os polimorfismos do códon 129 do PRNP e DA. Essa associação não foi estudada na população brasileira. Neste estudo, descrevemos a associação entre os diferentes polimorfismos do PRNP e DA. MÉTODOS: Foi estudada amostra composta por 100 pacientes com DA, acompanhados no Ambulatório de Neurologia Cognitiva e do Comportamento e no Centro de Referência em Distúrbios Cognitivos do Hospital das Clínicas da Faculdade de Medicina da Universidade de São Paulo, pareados para grupo controle com 111 indivíduos, em relação à frequência dos diferentes polimorfismos do PRNP e o desempenho cognitivo. Os polimorfismos do PRNP foram estudados pelo método de cromotografia líquida de fase reversa desnaturante (DHPLC). Foi realizada extratificação da amostra pelo genótipo da apolipoproteína E (apoE). RESULTADOS: A frequência dos polimorfismos do códon 129 foi: 45,5% M/M, 42,4% M/V e 12,2% V/V nos pacientes com DA; e 39,6% M/M, 50,5% M/V e 9,9% V/V nos indivíduos controles (p=0,503). O códon 117 apresentou variante alélica silenciosa em 5% dos pacientes com DA e 3% dos controles (p=0,780). A deleção de um ocatapeptídeo repetido ocorreu em 5% dos pacientes com DA e 4% dos controles (p=0,738). Todos os pacientes com DA e os controles eram N171N. Uma paciente do grupo com DA apresentou a mutação V180I. A análise bivariada e regressão logística não mostraram associação entre os diferentes polimorfismos do códon 129 e o desempenho cognitivo nos pacientes com DA, assim como nos indivíduos cognitivamente normais. A extratificação segundo genótipo da apoE não revelou diferença em relação aos polimorfismos do códon 129 do PRNP entre os grupos DA e controles. CONCLUSÕES: Não houve diferença de frequência dos diferentes polimorfismos do códon 129 do PRNP entre os pacientes com DA e idosos cognitivamente normais, bem como em relação aos demais códons polimórficos do gene. Não houve diferença em relação ao desempenho cognitivo nos pacientes com DA e nos controles segundo o polimorfismo do códon 129 do PRNP. Um paciente apresentou mutação do códon 180 (V180I), e recebeu o diagnóstico de doença de Creutzfeldt-Jakob genética / INTRODUCTION: The polymorphism in the prion protein gene (PRNP) may influence non prion neurological diseases. Some reports associate Alzheimers disease (AD) and the polymorphic codon 129 of the PRNP. This association has not been studied in Brazilian population. In this study we aimed to describe the association between the polymorphisms of codon 129 of the PRNP and AD. METHODS: One hundred AD patients were evaluated in the Cognitive and Behavioral Neurology Unit and Cognitive Disorders Reference Center of the Hospital das Clínicas of the University of São Paulo School of Medicine, matched for 111 controls, regarding to the PRNP polymorphism and cognitive measures. The PRNP polymorphisms were analyzed using denaturing high-performance liquid chromatography (DHPLC). Analyzes stratifying by apoE genotype was performed. RESULTS: The distribution of the codon 129 polymorphisms were: 45.5% M/M, 42.4% M/V and 12.2% V/V in AD patients; 39.6% M/M, 50.5% M/V and 9.9% V/V in the control group (p=0.503). The 117 codon analysis revealed silent allelic variant in 5% of AD patients and 3% of controls (p=0.780). The octarepeat deletion occurred in 5% of AD and 4% of controls (p=0.738). All AD patients and controls were N171N. One AD patient had a point mutation at codon 180 (V180I). Logistic regression failed to confirm any association between AD cognitive performance and the codon 129 of PRNP, as well as in the control group. There was no association between the codon 129 genotypes and genotypes and AD according to the apoE stratification. CONCLUSIONS: There were no differences in the frequency of the codon 129 polymorphism between AD. control group, according to the codon 129 polymorphisms. A point mutation at the codon 180 (V180I) was diagnosed in one patient Alzheimers disease Apolipoproteínas E Apolipoproteins E Cognitive performance Cromatografia líquida de fase reversa Desempenho cognitivo Doença de Alzheimer Gene da proteína priônica High-performance liquid chromatography Polimorfismo genético Polymorphism Prion protein gene
56	Evaluation expérimentale du risque prion lié aux porteurs asymptomatiques chez l'Homme et le macaque / Asymptomatic prion carrier and associated transfusional risk : in vivo and in vitro experimental assessment in the primate model Rontard, Jessica 16 February 2018 (has links) La détection de la protéine prion anormale dans les tissus lymphoïdes de patients britanniques suggère qu’après exposition à l’agent de la variante de la maladie de Creutzfeldt-Jakob (vMCJ) plus de 99% des contaminations pourraient demeurer cliniquement silencieuses. Ces données soulignent un risque de transmission secondaire par transfusion sanguine ce qui nous a conduit à une étude expérimentale. En parallèle des formes classiques de vMCJ, nos modèles murins et simiens de retransmission ont mis en evidence des phenotypes atypiques. Ces phénotypes échappent actuellement aux critères de diagnostic puisqu’aucune protéine prion anormale (PrPres) n’est détectée.Nos travaux ont eu pour but principal d’évaluer expérimentalement le risque sanguin au travers d’études de retransmission et de caractérisation de la replication des souches classiques et atypiques aux niveaux périphérique et central.Nous observons une très forte hétérogénéité dans la réplication de la PrP anormale dans les différents tissus lymphoïdes des macaques transfusés développant une vMCJ. Le niveau de contamination des tissus lymphoïdes apparait proportionnel à l’infectiosité sanguine de ces animaux et au risque de transmission de la maladie in vivo. Concernant les formes atypiques, la majorité des macaques transfusés n’ont pas de réplication dans les tissus lymphoïdes bien que ces phénotypes soient transmissibles expérimentalement à des modèles murins. Des transmissions à des souris immunodéficientes révèlent que les souches atypiques sont transmissibles par voie périphérique en l’absence d’un système immunitaire fonctionnel.Une alternative à l’expérimentation animale a été réalisée grâce aux « mini-brains » mimant la complexité du cerveau humain. Ces organoïdes cultivés en trois dimensions sont sensibles à au moins un isolat de prion associé aux formes sporadiques humaines. Les mini-brains pourraient ainsi constituer un nouvel outil d’étude des maladies à prions et permettre à termes la caractérisation des souches atypiques. / The detection of abnormal prion protein in the lymphoid tissues of UK patients suggests that after exposure to the agent of variant Creutzfeldt-Jakob disease (vCJD), more than 99% of contaminations may remain clinically silent. These data highlight a risk of secondary transmission through blood transfusion. In parallel to the classical vCJD forms, our experimental models in mice and macaques revealed another group which avoids the current diagnostic criteria, including the absence of abnormal prion protein (PrPres).The main goal of our work was to experimentally assess the risk of blood through retransmission studies and characterization of the abnormal replication of classical and atypical strains examined at peripheral and central levels.We observed a high heterogeneity of the distribution of the abnormal PrP in the lymphoid tissues of vCJD transfused macaques. The global level of contamination in lymphoid tissues seems proportional to the blood infectivity in these animals and to the risk of in vivo transmission of the disease. Regarding atypical forms, despite an absence of replication in lymphoid tissues, these phenotypes are experimentally transmissible. Transmissions to immunodeficient mice reveal that atypical strains are transmissible through peripheral routes in the absence of functional immune system.An alternative to animal testing has been achieved using to "mini-brains" mimicking the complexity of the human nervous system. These organoids cultured in three dimensions are sensitive to at least one prion isolate associated with human sporadic forms. Thus, mini-brains could constitute a new tool for studying prion diseases and improve the characterization of atypical strains. Maladies neurodégénératives Physiopathologie Protéine prion Infection cellulaire Cellules souches Culture 3D Neurological diseases Physiopathology Prion protein Infection model Stem cells 3D cell culture 570
57	Assessment of Retroviruses as Potential Vectors for the Cell Delivery of Prions Rahimi Khameneh, Shabnam 31 October 2012 (has links) Transmissible spongiform encephalopathies (TSEs) or prion diseases are a class of fatal brain disorders better known as Creutzfeldt-Jacob Disease (CJD) in humans, bovine spongiform encephalopathy (BSE) in cattle, scrapie in sheep, and chronic wasting disease (CWD) in deer and elk. The infectious agent responsible for these diseases is a misfolded prion protein capable of catalyzing a conformational change in normal cellular prion proteins (PrPC) into aberrant disease-causing structural isoforms (PrPSc). Although the etiological agent for TSEs has clearly been defined as PrPSc, there are important gaps in our understanding of how these proteins target and invade brain tissue. It remains to be established how ingested PrPSc ultimately reach the brain and also to understand why these tissues are particularly targeted, notwithstanding that several other tissues highly express prion proteins. Certain viruses, retroviruses in particular, efficiently hijack host proteins and can carry these proteins with them when they are released from a cell. Several lines of evidence have shown that prions and retroviruses can interact and associate at various stages of the retroviral replication cycle. Of special interest is that most retroviruses can cross the blood-brain barrier and could therefore deliver host-derived proteins to neuronal cells. In view of these observations, this thesis investigates whether retroviruses can act as vectors to capture prions from an infected cell and deliver them to a susceptible target cell. In this work, I have cloned human and mouse prion cDNAs from PBMCs and the murine cell line NIH 3T3. Either a FLAG epitope tag or the eGFP reporter protein cDNA was inserted into a region of the prion cDNA that is predicted to be amenable to such genetic insertions without affecting protein folding or expression. I then confirmed using both fluorescent and confocal microscopy and that the recombinant proteins had a similar cell distribution to the endogenous prion protein. Using Western blot analysis, I then showed that endogenous and overexpressed prion proteins can be detected in co-transfected cells producing HIV and murine leukemia virus (MLV) retroviral particles. Finally, I went on to show that prions are also present at high levels in HIV and MLV retroviral particles released from these cells. This work constitutes the first step in determining whether retroviruses can act as vectors for prion dissemination. Establishing a strong and clear association between retroviruses, pathogenic prions and prion disease would provide the rationale for preventive measures to be taken directly against retroviruses in order to protect humans and animals that have been newly exposed to PrPSc-infected products or those who are genetically predisposed to develop prion diseases. Anti-retroviral drugs could also be potentially used to delay disease progression and reduce prion transmission in human and animal tissues. The availability of such a treatment would constitute a significant advancement because there is currently no cure or treatment for prion diseases. Prion Prion diseases Retroviruses MLV HIV Vector FLAG epitope tag eGFP reporter protein Prion protein constructs NIH3T3 cell HEK 293T cell Confocal fluorescent microscopy
58	Assessment of Retroviruses as Potential Vectors for the Cell Delivery of Prions Rahimi Khameneh, Shabnam January 2012 (has links) Transmissible spongiform encephalopathies (TSEs) or prion diseases are a class of fatal brain disorders better known as Creutzfeldt-Jacob Disease (CJD) in humans, bovine spongiform encephalopathy (BSE) in cattle, scrapie in sheep, and chronic wasting disease (CWD) in deer and elk. The infectious agent responsible for these diseases is a misfolded prion protein capable of catalyzing a conformational change in normal cellular prion proteins (PrPC) into aberrant disease-causing structural isoforms (PrPSc). Although the etiological agent for TSEs has clearly been defined as PrPSc, there are important gaps in our understanding of how these proteins target and invade brain tissue. It remains to be established how ingested PrPSc ultimately reach the brain and also to understand why these tissues are particularly targeted, notwithstanding that several other tissues highly express prion proteins. Certain viruses, retroviruses in particular, efficiently hijack host proteins and can carry these proteins with them when they are released from a cell. Several lines of evidence have shown that prions and retroviruses can interact and associate at various stages of the retroviral replication cycle. Of special interest is that most retroviruses can cross the blood-brain barrier and could therefore deliver host-derived proteins to neuronal cells. In view of these observations, this thesis investigates whether retroviruses can act as vectors to capture prions from an infected cell and deliver them to a susceptible target cell. In this work, I have cloned human and mouse prion cDNAs from PBMCs and the murine cell line NIH 3T3. Either a FLAG epitope tag or the eGFP reporter protein cDNA was inserted into a region of the prion cDNA that is predicted to be amenable to such genetic insertions without affecting protein folding or expression. I then confirmed using both fluorescent and confocal microscopy and that the recombinant proteins had a similar cell distribution to the endogenous prion protein. Using Western blot analysis, I then showed that endogenous and overexpressed prion proteins can be detected in co-transfected cells producing HIV and murine leukemia virus (MLV) retroviral particles. Finally, I went on to show that prions are also present at high levels in HIV and MLV retroviral particles released from these cells. This work constitutes the first step in determining whether retroviruses can act as vectors for prion dissemination. Establishing a strong and clear association between retroviruses, pathogenic prions and prion disease would provide the rationale for preventive measures to be taken directly against retroviruses in order to protect humans and animals that have been newly exposed to PrPSc-infected products or those who are genetically predisposed to develop prion diseases. Anti-retroviral drugs could also be potentially used to delay disease progression and reduce prion transmission in human and animal tissues. The availability of such a treatment would constitute a significant advancement because there is currently no cure or treatment for prion diseases. Prion Prion diseases Retroviruses MLV HIV Vector FLAG epitope tag eGFP reporter protein Prion protein constructs NIH3T3 cell HEK 293T cell Confocal fluorescent microscopy
59	Structural Studies of Biomolecules by Dynamic Nuclear Polarization Solid-State NMR Spectroscopy Conroy, Daniel William 29 August 2019 (has links) No description available. Chemistry Solid-State NMR Spectroscopy Dynamic Nuclear Polarization Dinitroxide Biradical Polarizing Agent Solid-Phase Peptide Synthesis TOAC DNA Hoogsteen Base-Pairing Nucleosome Core Particle Amyloid Fibril Prion Protein
60	Prion Infectivity and PrPBSE in the Peripheral and Central Nervous System of Cattle 8 Months Post Oral BSE Challenge Ackermann, Ivett, Ulrich, Reiner, Tauscher, Kerstin, Fatola, Olanrewaju I., Keller, Markus, Shawulu, James C., Arnold, Mark, Czub, Stefanie, Groschup, Martin H., Balkema-Buschmann, Anne 18 January 2024 (has links) After oral exposure of cattle with classical bovine spongiform encephalopathy (C-BSE), the infectious agent ascends from the gut to the central nervous system (CNS) primarily via the autonomic nervous system. However, the timeline of this progression has thus far remained widely undetermined. Previous studies were focused on later time points after oral exposure of animals that were already 4 to 6 months old when challenged. In contrast, in this present study, we have orally inoculated 4 to 6 weeks old unweaned calves with high doses of BSE to identify any possible BSE infectivity and/or PrPBSE in peripheral nervous tissues during the first eight months postinoculation (mpi). For the detection of BSE infectivity, we used a bovine PrP transgenic mouse bioassay, while PrPBSE depositions were analyzed by immunohistochemistry (IHC) and by protein misfolding cyclic amplification (PMCA). We were able to show that as early as 8 mpi the thoracic spinal cord as well as the parasympathetic nodal ganglion of these animals contained PrPBSE and BSE infectivity. This shows that the centripetal prion spread starts early after challenge at least in this age group, which represents an essential piece of information for the risk assessments for food, feed, and pharmaceutical products produced from young calves. info:eu-repo/classification/ddc/636 ddc:636

Search results