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Fonction de la protéine Ceroid lipofuscinosis neuronal 5 (CLN5) dans le tri et le recyclage à l’endosomeJules, Felix 04 1900 (has links)
Le tri et le transport efficace des hydrolases acides vers le lysosome jouent un rôle critique pour la fonction des cellules. Plus de 50 maladies humaines sont dues à des mutations des enzymes lysosomales, des protéines régulant des processus-clés du transport vers le lysosome ou des enzymes effectuant des modifications posttraductionnelles importantes pour la fonction du lysosome. L’objectif de cette thèse est d’identifier des protéines et des mécanismes permettant à la cellule de réguler le transport des enzymes vers le lysosome. Nous avons formulé l’hypothèse que des protéines mutées dans des maladies lysosomales et dont les fonctions étaient inconnues pouvaient jouer un rôle dans le transport vers le lysosome. Les céroïdes-lipofuscinoses neuronales forment une famille de maladies lysosomales rares mais sont aussi les maladies neurodégénératives infantiles les plus fréquentes. Plusieurs gènes impliqués dans les NCL encodent des protéines aux fonctions inconnues. Les travaux présentés dans cette thèse ont identifié la protéine « ceroid lipofuscinosis neuronal-5 » (CLN5) qui est localisée à l’endosome et au lysosome comme élément nécessaire au recrutement et à l’activation de rab7. Rab7 est une protéine Rab-clé qui contrôle le trafic à l’endosome tardif. Cette petite GTPase est impliquée dans le recrutement de retromer, un complexe protéique qui régule le trafic de l’endosome vers l’appareil de Golgi des récepteurs de tri lysosomal comme sortilin et le récepteur du mannose-6-phosphate. Dans les cellules où CLN5 est déplété, les récepteurs de tri lysosomal sont moins recyclés plus rapidement dégradés. En utilisant des expériences de photomarquage nous avons aussi pu démontrer que Rab7 est moins activées en l’absence de CLN5. Pour exécuter leur fonction les protéines rabs doivent être recrutée à la membrane et activées par l’échange d’une molécule de GDP pour une molécule de GTP. Le recrutement des Rabs à la membrane nécessite une modification posttraductionnelle lipidique pour être facilités. En utilisant un modèle de levures nous avons démontré que l’homologue de Rab7, Ypt7 est palmitoylée. Nous avons aussi démontré que la palmitoyltransférase Swif1 est nécessaire au recrutement de Ypt7 à la membrane. Nous avons aussi remarqué que les sous- unités de retromer chez la levure sont moins recrutées lorsque les palmitoyltransférases sont déplétées. Dans les cellules de mammifères nous avons démontré que Rab7 est également palmitoylé et que cette palmitoylation est possiblement effectuée par les palmitoyltransférases DHHC1 et DHHC8. La palmitoylation de Rab7 a lieu sur les cystéines en C-terminal qui sont nécessaires au recrutement membranaire et qui auparavant étaient uniquement décrites comme prénylées. En utilisant la méthode de « click chemistry » nous avons découvert que lorsque la prénylation de Rab7 est bloquée le niveau de palmitoylation augmente. Pour caractériser l’interaction entre CLN5 et Rab7 nous avons performé des expériences afin d’établir définitivement la topologie de cette protéine. Nous avons ainsi démontré que CLN5 est une protéine hautement glycosylée qui est initialement traduite en protéine transmembranaire et subséquemment clivée par un membre de la famille des peptidase de peptide signal (SPP). Cette protéine soluble peut alors possiblement interagir avec CLN3 qui est aussi palmitoylée pour recruter et activer Rab7. Nos études suggèrent pour la première fois que CLN5 pourrait être un recruteur et un activateur de Rab7 qui agirait avec la protéine CLN3 pour séquestrer Rab7 avec les autres récepteurs palmitoylés et permettre leur recyclage vers l’appareil de Golgi. / The proper sorting and trafficking of acid hydrolases plays a critical role in the normal function of cells. Over 50 known human diseases are caused by mutations of lysosomal enzymes, of proteins that regulate key processes of transport to the lysosome or of enzymes that perform posttranslational modifications which are important for the function of the lysosome. The main objective of this thesis is to identify proteins and mechanisms that allow the cell to regulate the transport of enzymes toward the lysosome. We formulated the hypothesis that proteins mutated in lysosomal diseases and that have no known functions could play a role in transport toward the lysosome. Neuronal ceroid-lipofuscinoses form a family of lysosomal storage disorders that are very rare but are also the most frequent infantile neurodegenerative diseases. The work presented in this thesis identified ceroid-lipofuscinosis neuronal-5 (CLN5), which is located at the late-endosomal/lysosomal compartment as a necessary element for the recruitment and activation of Rab7. Rab7 is an important GTPase that controls traffic from the late-endosome to the trans-Golgi network. Rab7 has been implicated in the recruitment of the retromer complex, which regulates retrograde transport of the lysosomal sorting receptor such as sortilin and the mannose-6-phosphate receptor. In the cells where CLN5 is depleted, the lysosomal sorting receptors are less recycled and degraded more rapidly. Using photolabelling assays we were also able to show that Rab7 is less activated in the absence of CLN5. To perform their function, Rab proteins have to be recruited to membranes and activated by the exchange of a GDP nucleotide for GTP. The recruitment of Rabs to membranes necessitates a lipidic posttranslational modification to raise the affinity. Using yeast as a model we demonstrated that the Rab7 homolog, Ypt7 is palmitoylated. We have also showed that the yeast palmitoyltransferase Swif1 is required for Ypt7 membrane recruitment. We have also observed that retromer subunits in yeast are less recruited when palmitoyltranferases are depleted. In mammals we have shown that Rab7 is also palmitoylated and that this palmitoylation may be done by palmitoyltransferases DHHC1 and DHHC8. The palmitoylation of Rab7 occurs on the C-terminal cysteines that are required for membrane recruitment and were previously only shown to be prenylated. By using Click chemistry we have discovered that when Rab7 prenylation is blocked the level of palmitoylation is augmented. To characterize the interaction of Rab7 and CLN5 we performed experiments to definitively establish the topology of this latter protein. Our results show that CLN5 is a heavily glycosylated protein that is initially translated as a type II transmembrane protein and subsequently cleaved by a member of the signal-peptide peptidase (SPP) family. This protein can then possibly interact with another member of the CLN family, CLN3 that is predicted to be palmitoylated to recruit and activate Rab7. Our studies establish for the first time that CLN5 is required for the recruitment and activation of Rab7 and may cooperate with the possibly palmitoylated protein CLN3 to sequester Rab7 in specific membrane domains with sorting receptors to allow their recycling toward the trans-Golgi network.
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Využití nových genomických technik ve studiu patogeneze vybraných vzácných dědičných onemocnění. / Application of novel genomic techniques in studies of pathogenesis of selected rare inherited disordersNosková, Lenka January 2013 (has links)
Rare diseases are a heterogeneous group of disorders. Knowledge of their molecular basis is poor and till recently there were no appropriate methodical approaches due to a limited number of patients. Novel genomic techniques, especially the DNA array technology and the next generation sequencing emerging in last few years, enabled studies of these diseases even in small families and sporadic cases. This PhD thesis focuses on application of novel genomic techniques in studies of rare inherited diseases. It describes a use of DNA array technology in linkage analysis, analysis of differential gene expression, analysis of copy number variations and homozygous mapping, and a use of next generation sequencing technology. Combination of these methods was used for identification of molecular basis of adult neuronal ceroid lipofuscinosis, Rotor syndrome, isolated defect of ATP synthase and mucopolysaccharidosis type IIIC.
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Espectro clínico-mutacional y estudios de correlación genotipo-fenotipo en la población española afectada de lipofuscinosis neuronal ceroideaPérez Poyato, María del Socorro 02 July 2012 (has links)
Las lipofuscinosis neuronal ceroidea (LNCs) constituyen uno de los grupos de enfermedades neurodegenerativas de herencia autosómica recesiva más frecuentes en la infancia. Presentan variabilidad en la edad de inicio y comparten amplio espectro fenotípico: epilepsia, déficit visual, deterioro motor y cognitivo progresivos con fallecimiento a edad precoz. Se han identificado ocho genes responsables de las diferentes formas clínicas en la edad pediátrica (CLN10/CTSD, CLN1/PPT1, CLN2/TPP1, CLN3, CLN5, CLN6, CLN7/MFSD8 y CLN8). El análisis mutacional permite asociar el defecto genético a cada una de las formas clínicas: congénita, LNCC (CLN10); infantil, LNCI (CLN1); infantil tardía, LNCIT (CLN2); juvenil, LNCJ (CLN3); variante infantil tardía finlandesa, vLNCITFin (CLN5); variante infantil tardía juvenil precoz, vLNCITJuv (CLN6); variante infantil tardía turca, vLNCITTur (CLN7) y variante infantil tardía epilepsia del norte con retraso mental, EPMR - variante infantil tardía (CLN8).
Nos proponemos, a través de los estudios realizados en los pacientes españoles con LNC, profundizar en el conocimiento de los aspectos clínicos y moleculares de este grupo de enfermedades, determinar el espectro mutacional de los genes CLN1, CLN2, CLN3, CLN5 y CLN7 y establecer una adecuada correlación genotipo-fenotipo en la población pediátrica de nuestro país.
Desde el año 1974-2011 se estudiaron 6 pacientes con LNCI (5 núcleos familiares). Desde el año 1979-2011 se estudiaron 12 pacientes con LNCIT (10 núcleos familiares). Desde el año 1975-2010 se estudiaron 24 pacientes con LNCJ, divididos en 2 grupos: variante (11 pacientes) con mutaciones en el gen CLN1 y clásico (13 pacientes) con mutaciones en el gen CLN3. Se describieron 3 pacientes con vLNCITFin y uno con vLNCITTur. Se creó una base de datos clínica con 50 ítems. Para el estudio estadístico se utilizó la prueba de Kaplan-Meier.
Los pacientes con LNCI, iniciaron la enfermedad entre los 8-15 meses con retraso en el desarrollo motor y marcha inestable. La epilepsia puede aparecer en cualquier momento. La LNCI se caracteriza por un severo y progresivo curso clínico y en nuestra población, la mutación V181M en el gen CLN1 está asociada con el fenotipo más severo de la enfermedad.
La LNCIT se inició entre los 18 meses y los 3.7 años con retraso del lenguaje y convulsiones febriles simples seguidas de epilepsia. El trastorno de aprendizaje y la ataxia ocurrieron a los 4 años. La regresión clínica se inició con una pérdida de las frases, seguido de pérdida de la deambulación. Todos los pacientes desarrollaron epilepsia mioclónica continua. La LNCIT presenta un curso clínico muy homogéneo y se demuestra heterogeneidad genética en nuestra población.
La forma variante de LNCJ se inició con retraso / regresión del lenguaje y dificultades de aprendizaje mientras que la forma clásica se inició con déficit visual. La regresión clínica se inició con una pérdida de las frases seguida por una pérdida de la deambulación durante la adolescencia en el grupo variante y durante la edad adulta el grupo clásico. El curso clínico es más severo y progresivo en pacientes con mutaciones en el gen CLN1 que en el gen CLN3. La mutación V181L en el gen CLN1 fue identificada en homocigosis en 9 pacientes pertenecientes a 4 familias consanguíneas, no relacionadas, todas de etnia gitana. Se considera la posibilidad de realizar un diagnóstico precoz de LNCJ en base a la sintomatología inicial y la edad de inicio. El índice de progresión de la enfermedad orienta hacia los fenotipos causados por mutaciones en los genes CLN1 / CLN3 y el diagnóstico definitivo deberá confirmarse mediante el análisis mutacional de dichos genes.
Se ha elaborado un protocolo diagnóstico que permite realizar estudios de correlación genotipo-fenotipo y amplía el espectro clínico-mutacional en la población española afectada de lipofuscinosis neuronal ceroidea. / Neuronal ceroid lipofuscinosis (NCLs) is one of the most common groups of progressive neurodegenerative diseases in childhood. Eight disease genes causing NCL in childhood have been identified: CLN10/CTSD, CLN1/PPT1, CLN2/TPP1, CLN3, CLN5, CLN6, CLN7/MFSD8, and CLN8.
The main objective was to assess the natural history of the disease and to establish phenotype/genotype correlations in Spanish patients with NCL.
Infantile neuronal ceroid lipofuscinosis (INCL) is caused by mutations in the CLN1/PPT gene. The age at disease onset in six Spanish patients with INCL ranged from 8 to 15 months. Delayed motor skills and ataxia were the initial symptoms. The V181M mutation in the CLN1 gene was found in homozygosis which is associated with the most severe INCL phenotype.
Late infantile neuronal ceroid lipofuscinosis (LINCL) is caused by mutations in the CLN2. The clinical outcome in 12 Spanish patients reported the age at onset of clinical symptoms ranged from 18 months to 3.7 years, and they included delayed speech and simple febrile seizures followed by epilepsy. Clinical regression was initiated by loss of sentences followed by loss of walking ability. The clinical progression of LINCL was relatively homogeneous and genetic heterogeneity was demonstrated in the 10 families studied.
Juvenile neuronal ceroid lipofuscinosis (JNCL) is usually caused by a 1.02-kb deletion in the CLN3 gene and mutations in the CLN1 gene may be associated with a variant form of JNCL (vJNCL). To assess the natural history of the disease, 24 Spanish patients with JNCL were studied. Patients were classified into the groups of vJNCL with mutations in the CLN1 gene (n= 11) and classic JNCL (cJNCL) with mutations in the CLN3 gene (n=13). Patients with vJNCL showed a more severe and progressive clinical course than those with cJNCL. The rate of disease progression may be useful to diagnose vJNCL or cJNCL, which should be confirmed by molecular studies in CLN1/CLN3 genes.
Three unrelated patients with Finnish variant late infantile (CLN5) and another patient with Turkish variant late infantile (CLN7) were described.
The diagnostic algorithm is a useful tool for the diagnosis of the patients with NCL and the correlation genotype-phenotype studies in Spain.
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Utilisation du séquençage à haut débit dans l’identification des gènes prédisposant à l’épilepsie et aux syndromes neurocutanésCadieux-Dion, Maxime 04 1900 (has links)
No description available.
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Studium molekulární podstaty vybraných dědičně podmíněných onemocnění / Molecular basis of selected inherited rare diseasesHartmannová, Hana January 2013 (has links)
Rare diseases represent a clinically and genetically heterogeneous group of diseases affecting various organs and presenting at different ages. Identification and functional characterization of genetic defects causing individual rare diseases represent unique opportunity to understand biological functions of human genes and gene products as well as to basic pathogenetic mechanisms of individual diseases. This knowledge is prerequisite for their effective diagnosis, specific treatment and prevention and it also opens up an avenue for better understanding of complex diseases. My thesis documents basic conceptual and methodological developments of biochemical genetics, functional cloning, genetic mapping, positional cloning, DNA microarrays and genomic sequencing, which have provided a universal framework for effective characterization of the genetic architecture of almost all human diseases. This conceptual and technological developments are demonstrated on several cases of rare genetic diseases - adenylosuccinate lyase deficiency, mucopolysacharidosis type IIIC, Rotor syndrome, deficiency of ATP synthase, neuronal ceroid lipofuscinosis, GAPO syndrome and X -linked restrictive cardiomyopathy, which genetic and molecular basis I have helped to elucidate.
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Současné metody analýzy genomu a jejich využití v hledání genetických příčin nemocí / Current methods of genome analysis and their use in identification of genetic determinants of human diseasesStránecký, Viktor January 2015 (has links)
The study of rare genetic diseases presents unique opportunity to uncover the genetic and molecular basis of human traits and greatly helped to the identification of genes, to the elucidation of their function and to the characterization of metabolic pathways and cellular processes. Over the past decades, linkage analysis has been appropriate approach to search for the genes causing Mendelian diseases and contributed to the identification of many genes, but the genetic cause of many diseases remains unknown. New methods of studying the human genome, microarray technology and massively parallel sequencing (next generation sequencing), represent a way to efficiently identify the cause of genetically determined diseases, based on direct observation of mutations in the genome of affected individuals. These techniques replaced the traditional method of disease gene identification represented by linkage analysis and sequencing of candidate genes and have become the standard approach to elucidate the molecular basis of diseases. In this work, i describe the the results achieved by using these methods - identification of the genes underlying mucopolysacharidosis type IIIC, isolated defect of ATP synthase, Rotor syndrome, autosomal dominat ANCL and GAPO syndrome.
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Současné metody analýzy genomu a jejich využití v hledání genetických příčin nemocí / Current methods of genome analysis and their use in identification of genetic determinants of human diseasesStránecký, Viktor January 2015 (has links)
The study of rare genetic diseases presents unique opportunity to uncover the genetic and molecular basis of human traits and greatly helped to the identification of genes, to the elucidation of their function and to the characterization of metabolic pathways and cellular processes. Over the past decades, linkage analysis has been appropriate approach to search for the genes causing Mendelian diseases and contributed to the identification of many genes, but the genetic cause of many diseases remains unknown. New methods of studying the human genome, microarray technology and massively parallel sequencing (next generation sequencing), represent a way to efficiently identify the cause of genetically determined diseases, based on direct observation of mutations in the genome of affected individuals. These techniques replaced the traditional method of disease gene identification represented by linkage analysis and sequencing of candidate genes and have become the standard approach to elucidate the molecular basis of diseases. In this work, i describe the the results achieved by using these methods - identification of the genes underlying mucopolysacharidosis type IIIC, isolated defect of ATP synthase, Rotor syndrome, autosomal dominat ANCL and GAPO syndrome.
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