- About
-
The Global ETD Search service is a free service for researchers
to find electronic theses and dissertations. This service is
provided by the
Networked Digital Library of Theses and Dissertations.
Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
Search results
Showing 21 to 30 of 38 (0.101 seconds)Spelling suggestions: "subject:"neurodegenerative disorders"" "subject:"eurodegenerative disorders""
| 21 |
Decoding the Epigenome of Neuronal Networks in Health and DiseaseJain, Gaurav 15 October 2018 (has links)
No description available.
|
| 22 |
Mécanisme physiopathologique des neurodégénérescences avec accumulation de fer dans le cerveau et de l’ataxie de Friedreich / Pathophysiological mechanism of neurodegeneration with brain iron accumulation and Friedreich ataxiaDrecourt, Anthony 18 October 2016 (has links)
Les neurodégénérescences avec accumulation de fer dans le cerveau (Neurodegeneration with Brain Iron Accumulation, NBIA) sont des maladies neurodégénératives progressives, génétiquement hétérogènes. On connait actuellement 11 gènes de ces maladies mais pour la plupart d’entre eux leur lien avec l’accumulation en fer est encore incompris. Ce travail de thèse présente deux nouveaux gènes de NBIA identifiés par séquençage d’exome dans deux familles indépendantes. Le premier gène, REPS1, est impliqué dans le recyclage de l’endosome. Les fibroblastes de patients sont caractérisés par une accumulation de fer qui est corrigée par l’expression de l’ADNc de REPS1 dans ces cellules. Le deuxième gène, CRAT, code une carnitine acétyltransferase et le déficit de β-oxydation détecté dans les fibroblastes du patient a été corrigé par l’expression de l’ADNc CRAT normal. Le rôle de REPS1 dans le recyclage de l’endosome a mis sur la voie du mécanisme physiopathologique des NBIA. En effet, les fibroblastes des patients REPS1 et CRAT mais aussi d’autres patients avec des mutations d’autres gènes connus de NBIA (PANK2, PLA2G6, FA2H, C19ORF12) ont une accumulation massive en fer et une anomalie de recyclage du récepteur à la transferrine (TfR1). TfR1 permet l’entrée du fer par endocytose et son expression est régulée par le contenu en fer des cellules. La seule régulation connue de l’homéostasie du fer se fait au niveau post-transcriptionnel par le système IRP/IRE qui est fonctionnel dans les fibroblastes NBIA alors que la protéine TfR1 s’accumule. Cette accumulation de fer montre ainsi qu’il existe une régulation post-traductionnelle, jusqu’ici inconnue, et qui n’est pas fonctionnelle dans les NBIA. Nous avons pu montrer que cette régulation se faisait par une palmitoylation du TfR1, déficitaire dans les NBIA, mais restaurée par l’artesunate. Ainsi quel que soit le gène muté, tous les NBIA résultent d’une anomalie de recyclage du TfR1 permettant de les définir comme des maladies du trafic intracellulaire. La deuxième partie de la thèse s’intéresse au mécanisme physiopathologique de l’ataxie de Friedreich (FRDA) caractérisée elle aussi par une accumulation de fer dans le cerveau. FRDA est due à des expansions de triplets dans le premier intron du gène FXN conduisant à l’extinction de FXN et de PIP5K1B situé en amont. L’étude de modèles cellulaires dans lesquels le gène FXN et/ou PIP5K1B ont été éteints par siRNA et de fibroblastes de patients a permis de mettre en évidence une anomalie de l’homéostasie du fer qui rappelle celle observée dans les NBIA. L’ensemble de ces résultats a permis de comprendre le mécanisme physiopathologique des NBIA, de mettre à jour une régulation encore inconnue de l’homéostasie du fer mais aussi d’envisager une voie de traitement des NBIA. / Neurodegeneration with brain iron accumulation (NBIA) encompasses a group of rare neurogenerative disorders with different clinical and molecular features, underlined by progressive extrapyramidal dysfunction and iron accumulation in the brain. To date, mutations in 11 genes are currently known. Nevertheless for most of them their link with iron accumulation is still misunderstood. This work presents two novel NBIA genes identified by exome sequencing in two independent families. The first gene, REPS1, is involved in endosome recycling. Patient’s fibroblasts are characterized by iron overload corrected by wild-type REPS1 cDNA overexpression. The second gene, CRAT, encodes a carnitine acetyltransferase and a β-oxidation deficit in patient’s fibroblasts has been fixed by overexpression of wild-type CRAT cDNA. The function of REPS1 in endosome recycling put on the path of the NBIA pathophysiological mechanism. Indeed, fibroblasts of REPS1 patients but also from other patients mutated in various NBIA genes (CRAT, PANK2, PLA2G6, FA2H, C19ORF12) present massive iron accumulation and abnormal transferrin receptor (TfR1) recycling. TfR1 allows iron uptake by endocytosis and its expression is regulated by the iron cellular status. The only known regulation of iron homeostasis occurs at the posttranscriptional level by the IRE/IRP system which is functional in NBIA fibroblasts whereas TfR1 protein accumulates. This iron accumulation highlights a yet unknown posttranslational regulation which is not functional in NBIA. We have been able to demonstrate that this regulation occurs via TfR1 palmitoylation, which is defective in NBIA, but restored by artesunate. Hence, whatever the disease gene, all NBIA gave rise to abnormal TfR1 recycling which allows defining NBIA as intracellular trafficking disease. The second part of the thesis focused on the pathophysiological mechanism of the Friedreich ataxia (FRDA) also characterized by brain iron overload . FRDA is related to triplets expansions in the first intron of FXN gene leading to the extinction of FXN and PIP5K1B upstream gene. Studying cellular models knocked down for FXN and/or PIP5K1B by siRNA and patients’ fibroblasts of patients allowed to detect abnormal iron homeostasis reminiscent of NBIA. All these results allowed to decipher the NBIA pathophysiological mechanism, to highlight a yet unknown iron homeostasis regulation and to open possible ways towards therapeutic drugs for NBIA.
|
| 23 |
Decoding the Epigenome of Neuronal Networks in Health and DiseaseJain, Gaurav 15 October 2018 (has links)
No description available.
|
| 24 |
Estudos estruturais e bioquímicos das septinas humanas bradeiona alfa e beta: moléculas relacionadas com o desenvolvimento de câncer do cólon, reto e melanoma maligno / Human SETPT4: heterologoes expression, Purification and biophysical characterizationSilva, Wânius José Garcia da 08 June 2005 (has links)
Septinas constituem uma família de proteínas de ligação a GTP que foram inicialmente identificadas em levedura Saccharomyces cerevisiae, mas também estão presentes em outros eucariotos com exceção de plantas. Septinas são purificadas de leveduras, Drosophila e cérebros de mamíferos na forma de filamentos, porém o mecanismo através do qual acorre a formação destes filamentos ainda não é muito bem compreendido. Septinas são constituídas de três regiões principais: um N-terminal variável, um domínio central GTPase altamente conservado e um domínio coiled-coil C-terminal. O gene SEPT4 foi identificado por M. Tanaka e colaboradores a partir do cDNA de cérebro humano e apresentou duas distintas transcrições: Bradeiona ? e ?. Interessantemente, além de cérebro e coração, as proteínas Bradeiona Α e Β. são detectadas somente em câncer do cólon, reto, próstata e melanoma maligno. Neste trabalho, o gene da proteína Bradeiona Β foi subclonado em um vetor de expressão bacteriano, produzido em E. coli e purificado com sucesso. O espectro de dicroísmo circular (CD) mostrou o perfil característico de proteínas com hélices a na estrutura secundária. Resultados de cromatografia de exclusão molecular (SEC) e espalhamento dinâmico de luz (DLS) indicam que a septina Bradeina foi produzida na forma de um estável oligômero com características monodispersivas, que foi subseqüentemente cristalizado em PEG6000. A atividade GTPase da Bradeiona Β foi comprovada através da técnica de eletroforese capilar (CE), mostrando-se absolutamente dependente de íons Mg2+. Inibição da atividade GTPase foi verificada em altas concentrações de Mg2+ (maiores que 5 mM). Com a finalidade de caracterizar os domínios preditos da Bradeiona Β (Fragmento Conservado e domínio GTPase), essas regiões foram previamente definidas, expressas em E. cozi e purificadas com sucesso. Resultados de CD, SEC, espectroscopia de fluorescência e NMR-600MHz indicam que o FC foi produzido na forma de um estável monômero com pouca estrutura secundária regular. Resultados de DLS e CD indicam que a fusão 6xHis-DGTPase foi produzida na forma de um oligômero com a presença de hélices a na estrutura secundária. A fusão 6xHis-DGTPase mostrou-se instável a altas concentrações na ausência de imidazol. A atividade GTPase da fusão GST+DGTPase foi comprovada, similarmente a Bradeiona , através da técnica de CE. Novamente, verificou-se dependência de íons Mg2+ (para a atividade catalítica) e inibição em altas concentrações de Mg2+. A fusão GST+DGTPase também foi capaz de hidrolisar ATP. Espera-se que as informações relatadas neste estudo proporcionem um alicerce para estudos estruturais/funcionais futuros das proteínas Bradeiona Α e Βoutras septinas. / Septins form a class of eukaryoyic guanine nucleotide-binding proteins that were first identified in budding yeast. Septins purified from yeast, Drosophila and mammalian brain form filaments, however the mechanism by which the filaments assemble is unclear. Septins have a highly conserved structure, which includes a central GTP-binding domain, a variable N-terminal region, and most septins also contain a coiled coil domain at the Cterminus. Bradeion p is one of the splice variants of the human septin gene, SEPT4, recently isolated by expression screening of an adult human brain cDNA library. The Bradeion gene resides at 17q23, and has been shown to present specific expression in both human colorectal cancer, urologic cancers and malignant melanoma. In order to characterize the GTPase activity of Bradeion Β , the protein was successfully expressed in E. coli and purified. The recombinant protein was characterized by circular dichroism (CD), dynamic light scattering (DLS) and a novel non-radioactive enzyme assay, which utilizes capillary electrophoresis (EC) to monitor GTP hydrolysis. The CD spectrum exhibited the typical shape characteristic of the presence of helical elements of secondary structure and the DLS pattern was indicative of a monodisperse solution, which was readily crystallized in the presence of PEG6000. GTP hydrolysis was shown to be Mg2+ dependent within the low millimolar range but at 5 mM was inhibitory. In order to characterize the predicted domains of Bradeion Β, these defined regions were successfully expressed in E. cozi and purified. The CD spectrum of CF exhibited the shape typically found for non-regular structure. The results of fluorescence spectroscopy, gel filtration (SEC) and NMR-600MHz also corroborate with the CD results indicating an irregular structure. The fusion protein 6xHis-DGTPase exhibited a CD spectrum with the typical shape characteristic of the presence of helical elements but was show to be instable at high concentrations in the absence of imidazole. To characterize the GTPase activity of the fusion protein GST+DGTPase, the CE technique was used to monitor GTP hydrolysis. Analysis by CE showed that GST+DGTPase was functional, since both GTP and ATP hydrolysis was observed in a Mg2+ dependent manner. This work provides novel approaches, which should aid in the fbture study of the structure and fùnction of Bradeion Α e Β, others septins and related GTPases.
|
| 25 |
Mechanisms of Dopaminergic Neurodegeneration in Parkinson's DiseaseVerma, Aditi January 2018 (has links) (PDF)
Parkinson’s disease (PD) is a debilitating movement disorder. The cardinal symptoms of PD are bradykinesia, resting tremors and rigidity. PD is characterized by degeneration of dopaminergic neurons of A9 region, substantia nigra pars compacta (SNpc) and loss of dopaminergic terminals in striatum while the dopaminergic neurons of A10 region, ventral tegmental area (VTA) are relatively protected. Putative mechanisms, such as mitochondrial dysfunction, dysregulation of the ubiquitin proteasome system and increased oxidative stress have been hypothesized to mediate PD pathology. However, precise mechanisms that underlie selective vulnerability of SNpc dopaminergic neurons to degeneration are unknown. The aim of this thesis was to evaluate the pathological mechanisms that may contribute to degeneration of SNpc dopaminergic neurons in PD.
Dopaminergic neurons of SNpc are pacemakers and constant calcium entry through L-type calcium channel, Cav1.3 has been reported in these neurons during pacemaking. In addition, these neurons have poor calcium buffering capacity. Together, this leads to dysregulation of calcium homeostasis in the SNpc dopaminergic neurons leading to increased oxidative stress. Gene expression of the full length channel and the variant was investigated in the mouse midbrain and further their presence was verified in mouse SNpc and VTA and also in SNpc and VTA in the MPTP mouse model of PD. Gene expression of Cav1.3 -42 and its variant was also studied in SNpc from autopsy tissue from PD patients and age matched controls.
Having studied differential expression of the calcium channels, global changes in gene expression in SNpc from the MPTP mouse model of PD and PD autopsy tissues were next examined. This is the first report of transcriptome profile alterations from SNpc in mouse model and PD tissue performed using RNA-seq. Gene expression profiles were examined from SNpc 1 day post single exposure to MPTP, in which case there is no neuronal death and 14 days after daily MPTP treatment where SNpc has undergone ~50% cell death. Further, RNA- seq was performed to study gene expression alterations in SNpc from human PD patients and age- matched controls. The RNA-seq data was taken through extensive analyses; analysed for differential gene expression, gene-set enrichment analysis, pathway analysis and network analysis.
Glutaredoxin 1 (Grx1) is a thiol disulfide oxidoreductase that catalyses the deglutathionylation of proteins and is important for regulation of cellular protein thiol redox homeostasis. Down-regulation of Grx1 has been established to exacerbate neurodegeneration through impairment of cell survival signalling. Previous work from our laboratory has demonstrated that perturbation of protein thiol redox homeostasis through diamide injection into SNpc leads to development of PD pathology and motor deficits. It was therefore investigated if Grx1 down-regulation in vivo, leading to increased glutathionylation and protein thiol oxidation, could result in PD pathology.
This work is thus the first study of RNA-seq based transcriptomic profile alterations in SNpc from human PD patients. This work also highlights several differences between mouse model and human PD tissue indicating that the underlying mechanisms of PD pathogenesis differ from mouse to humans in addition to developing a novel model for PD.
|
| 26 |
Estudos estruturais e bioquímicos das septinas humanas bradeiona alfa e beta: moléculas relacionadas com o desenvolvimento de câncer do cólon, reto e melanoma maligno / Human SETPT4: heterologoes expression, Purification and biophysical characterizationWânius José Garcia da Silva 08 June 2005 (has links)
Septinas constituem uma família de proteínas de ligação a GTP que foram inicialmente identificadas em levedura Saccharomyces cerevisiae, mas também estão presentes em outros eucariotos com exceção de plantas. Septinas são purificadas de leveduras, Drosophila e cérebros de mamíferos na forma de filamentos, porém o mecanismo através do qual acorre a formação destes filamentos ainda não é muito bem compreendido. Septinas são constituídas de três regiões principais: um N-terminal variável, um domínio central GTPase altamente conservado e um domínio coiled-coil C-terminal. O gene SEPT4 foi identificado por M. Tanaka e colaboradores a partir do cDNA de cérebro humano e apresentou duas distintas transcrições: Bradeiona ? e ?. Interessantemente, além de cérebro e coração, as proteínas Bradeiona Α e Β. são detectadas somente em câncer do cólon, reto, próstata e melanoma maligno. Neste trabalho, o gene da proteína Bradeiona Β foi subclonado em um vetor de expressão bacteriano, produzido em E. coli e purificado com sucesso. O espectro de dicroísmo circular (CD) mostrou o perfil característico de proteínas com hélices a na estrutura secundária. Resultados de cromatografia de exclusão molecular (SEC) e espalhamento dinâmico de luz (DLS) indicam que a septina Bradeina foi produzida na forma de um estável oligômero com características monodispersivas, que foi subseqüentemente cristalizado em PEG6000. A atividade GTPase da Bradeiona Β foi comprovada através da técnica de eletroforese capilar (CE), mostrando-se absolutamente dependente de íons Mg2+. Inibição da atividade GTPase foi verificada em altas concentrações de Mg2+ (maiores que 5 mM). Com a finalidade de caracterizar os domínios preditos da Bradeiona Β (Fragmento Conservado e domínio GTPase), essas regiões foram previamente definidas, expressas em E. cozi e purificadas com sucesso. Resultados de CD, SEC, espectroscopia de fluorescência e NMR-600MHz indicam que o FC foi produzido na forma de um estável monômero com pouca estrutura secundária regular. Resultados de DLS e CD indicam que a fusão 6xHis-DGTPase foi produzida na forma de um oligômero com a presença de hélices a na estrutura secundária. A fusão 6xHis-DGTPase mostrou-se instável a altas concentrações na ausência de imidazol. A atividade GTPase da fusão GST+DGTPase foi comprovada, similarmente a Bradeiona , através da técnica de CE. Novamente, verificou-se dependência de íons Mg2+ (para a atividade catalítica) e inibição em altas concentrações de Mg2+. A fusão GST+DGTPase também foi capaz de hidrolisar ATP. Espera-se que as informações relatadas neste estudo proporcionem um alicerce para estudos estruturais/funcionais futuros das proteínas Bradeiona Α e Βoutras septinas. / Septins form a class of eukaryoyic guanine nucleotide-binding proteins that were first identified in budding yeast. Septins purified from yeast, Drosophila and mammalian brain form filaments, however the mechanism by which the filaments assemble is unclear. Septins have a highly conserved structure, which includes a central GTP-binding domain, a variable N-terminal region, and most septins also contain a coiled coil domain at the Cterminus. Bradeion p is one of the splice variants of the human septin gene, SEPT4, recently isolated by expression screening of an adult human brain cDNA library. The Bradeion gene resides at 17q23, and has been shown to present specific expression in both human colorectal cancer, urologic cancers and malignant melanoma. In order to characterize the GTPase activity of Bradeion Β , the protein was successfully expressed in E. coli and purified. The recombinant protein was characterized by circular dichroism (CD), dynamic light scattering (DLS) and a novel non-radioactive enzyme assay, which utilizes capillary electrophoresis (EC) to monitor GTP hydrolysis. The CD spectrum exhibited the typical shape characteristic of the presence of helical elements of secondary structure and the DLS pattern was indicative of a monodisperse solution, which was readily crystallized in the presence of PEG6000. GTP hydrolysis was shown to be Mg2+ dependent within the low millimolar range but at 5 mM was inhibitory. In order to characterize the predicted domains of Bradeion Β, these defined regions were successfully expressed in E. cozi and purified. The CD spectrum of CF exhibited the shape typically found for non-regular structure. The results of fluorescence spectroscopy, gel filtration (SEC) and NMR-600MHz also corroborate with the CD results indicating an irregular structure. The fusion protein 6xHis-DGTPase exhibited a CD spectrum with the typical shape characteristic of the presence of helical elements but was show to be instable at high concentrations in the absence of imidazole. To characterize the GTPase activity of the fusion protein GST+DGTPase, the CE technique was used to monitor GTP hydrolysis. Analysis by CE showed that GST+DGTPase was functional, since both GTP and ATP hydrolysis was observed in a Mg2+ dependent manner. This work provides novel approaches, which should aid in the fbture study of the structure and fùnction of Bradeion Α e Β, others septins and related GTPases.
|
| 27 |
Novel tricycloundecane derivatives as potential N-methyl-Daspartate receptor and calcium channel inhibitors for neuroprotectionEgunlusi, Ayodeji Olatunde January 2014 (has links)
>Magister Scientiae - MSc / This study focused on the synthesis of a series of novel tricycloundecane derivatives and evaluation of these compounds for neuroprotection using the fluorescent ratiometric calcium assay that indicates the ability of the test compounds to inhibit NMDA receptors and VGCC. The cycloaddition reaction between p-benzoquinone and monomerised dicyclopentadiene yielded tricycloundeca- 4,9-diene-3,6-dione which was used as the base structure and further derivatised. These derivatives were conjugated with benzylamine to form a series of imines and amines. A total of 10 compounds were synthesised for evaluation of inhibition of calcium influx through NMDA receptor channels and voltage-gated calcium channels. The structures were confirmed using NMR, IR and MS. On the proton NMR, the characteristic AB-quartet system was observed in the region of 1-2 ppm for all the compounds and the aromatic moiety was observed between 6.5-7.5 ppm for the novel polycyclic amines. These, with other functional groups, were used to confirm the individual structures
|
| 28 |
Hereditary spastic paraplegias : clinical spectrum in Sudan, further deciphering of the molecular bases of autosomal recessive forms and new genes emerging / Paraplégies spastiques héréditaires : exploration clinique au Soudan, études des origines moléculaires des formes autosomiques récessives et identification de nouveaux gènes en causeElbaghir Omer Elsayed, Liena 27 April 2016 (has links)
Les paraplégies spastiques héréditaires (PSH) font partie d’un groupe plus large de pathologies neurodégénératives associant une spasticité. J’ai exploré la variabilité clinique et moléculaire de ces pathologies à l’aide d’une cohorte de familles soudanaises. Nous avons recruté 41 familles soudanaises [337 individus/106 atteints de PSH]. J’ai extrait l’ADN génomique et constitué une banque. Le criblage de gènes candidats a été réalisé dans 4 familles en fonction du phénotype des patients. La technologie de séquençage de nouvelle génération (SNG) appliquée à 74 gènes de PSH a ensuite été appliquée aux 37 cas restants. Enfin, le séquençage de l’exome a permis de rechercher les gènes en cause dans les cas négatifs. Dans certains cas, des études fonctionnelles ont été utilisées afin de valider l’effet biologique des mutations. J’ai pu identifier la cause génétique dans 17 familles. Dans 12 familles, la mutation concernait un gène de PSH connu. Dans 3 familles, un nouveau gène a été identifié. 5 gènes candidats restent à départager dans 2 familles. Il est à noter que parfois, de multiple mutations ou maladies génétiques ségrégaient dans nos familles, dans la même branche ou dans des branches séparées. La complexité de ces familles fortement consanguines a rendu l’analyse des données du SNG difficile. Une autre particularité a été l’hétérogénéité clinique associée à des mutations du même gène entre patients de la même famille ou en comparaison avec la littérature. Ce travail est la première étude à grande échelle de patients soudanais avec PSH et rapporte de nouveaux gènes en cause, prérequis pour mieux comprendre dans le futur les mécanismes sous-jacents. / Hereditary spastic paraplegias (HSP), a heterogeneous group of spastic neurodegenerative disorders which impose diagnostic challenges. I explored the clinical varieties and genetic pathways of spastic neurodegeneration in a familial Sudanese cohort. We recruited 41 Sudanese families [337 individuals/106 HSP patients]. I have established a genomic DNA bank and when necessary, skin biopsies and fibroblasts were also obtained. A phenotype-based candidate gene approach was followed in 4 families. A targeted next generation sequencing (NGS) for 74 HSP-related genes was the main screening strategy in all-remaining 37 families. Whole exome sequencing (WES) was done in search for novel mutations in new genes in families with negative screening results. Occasionally, functional studies were conducted when feasible and relevant. I identified the genetic cause in 17/41 families. In 12 families, the mutated genes were known HSP genes. In 3 families, novel genes were identified mutated. 5 candidate genes segregated with disease in 2 other families with more experiments needed to conclude. Analysis of the NGS screening panel and of WES data imposed certain challenges as multiple genetic disorders were sometimes found running in parallel in the same/different branches of highly inbred families. We could expand the phenotypic heterogeneity of these disorders due to clinical differences observed between Sudanese patients and patients of other origins even when caused by mutations by the same gene/variant. This is the first genetic screening in a large set of HSP families in Sudan. It describes new causative genes, paving the way for further deciphering of the underlying mechanisms.
|
| 29 |
Tvorba transgenního miniaturního prasete s Huntingtonovou nemocí / The Generation of Transgenic Huntington's Disease Miniature PigBaxa, Monika January 2019 (has links)
Huntingtons's disease (HD) is devastating neurodegenerative disorder manifesting by motor disturbances, cognitive decline and personal changes. The huge effort to find a cure for HD has brought several promising therapeutic treatments on the scene. Each of the prospective approaches needs to be investigated for safety, tolerability and efficacy. Mouse and rat models were a lot helpful in examination of pathological mechanisms of HD, but they are not sufficient for completion of pre-clinical testing. Therefore, we aimed to generate transgenic HD minipig to overcome the gap between rodents and humans. Minipig transgenic for the first 548 aminoacids of human mutant huntingtin gene (TgHD) under the control of human HD promotor was manipulated by lentiviral transduction of porcine one-cell stage embryos. Currently, six generations of minipigs expressing single copy of N-truncated human mutant huntingtin protein (mtHtt) with a repetition of 124 glutamines are at disposal. The more the model simulates the disease symptoms the better it is for translational research as the efficacy of the cure can be finer evaluated. Hence, the second aim was to demonstrate HD-like phenotype in our model. Testicular degeneration that preceded the clinical symptoms onset was observed as a consequence of expression of mtHtt....
|
| 30 |
Bacterial Display of a Tau-Binding Affibody Construct:Towards Affinity MaturationEk, Moira January 2020 (has links)
Aggregation of microtubule-associated protein tau is involved in the pathology of several neurodegenerative diseases, including Alzheimer’s disease. The affibody TP4 has been shown to inhibit this aggregation process, and its target-binding positions were previously grafted onto a dimeric affibody scaffold, creating the sequestrin seqTP4. This project constitutes a part of the affinity maturation process of seqTP4, using two different bacterial display methods. An error-prone PCR library was first expressed on Staphylococcus carnosus cells for selection of variants with improved tau-binding properties, resulting in a library of 1.4×107 transformants. Flow cytometric tests indicated difficulties in the setup due to nonspecific interactions, and whereas several different approaches to alleviate the problems were investigated, two cell sorting attempts were ultimately unsuccessful. Subcloning of seqTP4 and the library to an Escherichia coli surface display vector resulted in functional surface expression of seqTP4 on E. coli JK321 and BL21 cells, and a BL21 library size of 1.6×109 transformants. An initial flow cytometric test of this library indicates the presence of improved tau-binding variants, paving the way for future cell sorting. / Aggregering av mikrotubuli-associerat protein tau är involverad i patologin av flera neurodegenerativa sjukdomar, däribland Alzheimers sjukdom. Affibodymolekylen TP4 har visat sig inhibera denna aggregeringsprocess, och överföring av dess målbindande positioner till ett dimeriskt affibodyprotein har tidigare gett upphov till seqTP4, en så kallad sequestrin. Detta projekt utgör ett led i processen att affinitetsmaturera seqTP4, med hjälp av två olika metoder för presentation av proteiner på ytan av bakterieceller. Ett error-prone PCR-bibliotek uttrycktes först på ytan av Staphylococcus carnosus-celler för selektion av varianter med ökad affinitet för tau, vilket resulterade i ett bibliotek av 1.4×107 transformanter. Flödescytometriska tester tydde på svårigheter i detta upplägg på grund av ospecifika interaktioner, och emedan flera olika angreppssätt för att förmildra dessa problem undersöktes, misslyckades slutligen två cellsorteringsförsök. Omkloning av seqTP4 och biblioteket till en vektor för ytpresentation på Escherichia coli resulterade i funktionellt ytuttryck av seqTP4 på E. coli JK321- och BL21-celler, och ett BL21-bibliotek bestående av 1.6×109 transformanter. Ett första flödescytometriskt test av detta bibliotek tyder på närvaron av varianter med förbättrad förmåga att binda tau, och vägen ligger nu relativt öppen för cellsortering.
|
Page generated in 0.1085 seconds