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  • 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.
1

Investigating the existence of a link between mitochondria and microRNAs / Étude d'un lien entre la mitochondrie et les microARNs

Bandiera, Simonetta 05 November 2012 (has links)
La mitochondrie est une organite ayant un rôle central dans le métabolisme énergétique de la cellule. Bien que la mitochondrie exprime son propre génome, plusieurs protéines et ARN non-codants issus du génome nucléaire sont nécessaires à la biogenèse et aux fonctions mitochondriales. Les microARNs (miRNAs) sont de petits ARN non-codants qui s'associent à la protéine Argonaute 2 (Ago2) pour moduler l'expression génique au niveau post-transcriptionnelle par ARN interférence. Classiquement, les miRNAs s’apparient à des sites de liaison complémentaires situés dans le 3’-UTR de l’ARNm cible. Nous faisons l'hypothèse que les miRNAs seraient impliqués dans la communication entre le noyau et la mitochondrie. Notre travail a donc porté sur l’étude du rôle des miRNAs dans le contexte de maladies génétiques caractérisées par une dysfonction mitochondriale. Nous avons choisi d’étudier l’ataxie de Friedreich, la plus fréquente des ataxies héréditaires, qui est causée par un déficit d’expression de la protéine mitochondriale frataxine (FXN). Nous avons montré qu'environ 90% de patients étaient homozygotes pour un haplotype spécifique des variants génétiques du 3'-UTR du gène FXN. Ce résultat a été retrouvé dans deux cohortes de patients indépendantes. Par une combinaison d’approche bioinformatique et d’expériences de co-transfections, nous avons montré que les miRNAs, et en particulier miR-124, ciblent les variants du 3’-UTR. En parallèle, nous avons évalué la possibilité que les miRNAs ciblent directement la mitochondrie. Pour cela, nous avons analysé l’expression des miRNAs dans des fractions d'ARN mitochondriale et cytosolique isolées à partir de mêmes cellules HeLa. Nous avons identifié une signature de 13 miRNAs spécifiquement enrichis dans la fraction d'ARN mitochondriale que nous avons appelé «mitomiRs». Nos prédictions ont révèle des fonctions spécifiques de ces mitomiRs à la mitochondrie, y compris la modulation de l'activité de la chaîne respiratoire. Nous avons également montré une localisation de la protéine Ago2 à l’espace inter-membranaire mitochondriale.Notre travail définit ainsi les miRNAs et Ago2 comme un nouveau niveau de communication entre le noyau et les mitochondries. Nous discutons de la possibilité que la mitochondrie agisse comme acteur du ARN interférence ou plutôt comme organite cible. Notre travail ouvre la voie à un nouveau domaine de recherche, qui pourrait avoir une utilité thérapeutique pour palier les dysfonctions mitochondriales. / Mitochondria are organelles that have a central role in the energetic metabolism of the cell. Although mitochondria express their own genome, they rely on the expression of the nuclear genome for their biogenesis and function. microRNAs (miRNAs) are small non-coding RNAs that associate with Argonaute 2 (Ago2) protein to regulate gene expression post-transcriptionallythrough RNA interference. The ‘classic’ view of RNA interference describes the pairing of miRNAs with complementary binding sites within the 3’untranslated region (3’-UTR) of the target mRNA. We hypothesized that miRNAs might be instrumental to the cross-talk between the nucleus and the mitochondria. In the first part, we assessed the role of miRNAs in the context of a rare genetic disease involving mitochondrial dysfunction. We focused on Friedreich's ataxia, the most frequent of inherited ataxia in Europe, which is caused by reduced expression of the mitochondrial protein frataxin (FXN). Intwo independent cohorts of patients, we discovered that about 90% of patients were homozygous forone specific haplotype of genetic variants of the FXN3'-UTR. By a combination of computational target prediction analysis and co-transfection experiments, we showed that miRNAs, and specifically miR-124, are involved in the regulation of the FXN.We then challenged further the relationship between the miRNAs and mitochondria through questioning their localization at mitochondria. To this end, we studied miRNAs from mitochondrial and cytosolic RNA fractions isolated from the same HeLa cells. We identified a signature of 13 miRNAs specifically enriched in the mitochondrial RNA fraction that we termed ‘mitomiRs’. Through pathway-enrichement analysis, we observed a specific mitochondrial role for mitomiRs, including regulation of ATP synthesis coupled electron trasport. We also provided the evidence of Ago2 protein location inside human mitochondria at the inter-membrane space. Our work sketches miRNAs and Ago2 as a novel layer of the interplay between the nucleus and the mitochondria. We discuss whether mitochondria may be instrumental to RNA interference or a target per se. Our work paves the way to a new field of research, which may unravel therapeutic outcomes to rescue mitochondrial dysfunction.
2

Autophagy Regulates Expression of Argonaute 2, a Critical Regulator of the MicroRNA Silencing Pathway

Sibony, Michal 15 November 2013 (has links)
Genome-wide association studies have implicated autophagy in Crohn’s Disease (CD) pathogenesis. The functional relevance of autophagy in CD remains unknown. I hypothesized that autophagy is involved in microRNA silencing, another process implicated in CD pathogenesis. MicroRNAs are short non-coding RNAs that are loaded onto RNA-induced silencing complex (RISC) and promote degradation and/or repress translation of target mRNAs. RISC formation and turnover occurs on endosomal membranes. Since autophagosomes and endosomes are closely related and RISC components are downstream effectors of microRNA silencing, I hypothesized that autophagy affects RISC, hence modulates microRNA expression. Using immunoblotting and immunofluorescence, I showed that Ago2, a critical component of RISC, is increased in cells with defective autophagy. Using microarray technology, I discovered 5 microRNAs that are differentially expressed in these cells. Taken together, my results propose a compelling mechanism by which autophagy regulates Ago2, thereby affects miRNA expression, which is implicated in the development of CD.
3

Autophagy Regulates Expression of Argonaute 2, a Critical Regulator of the MicroRNA Silencing Pathway

Sibony, Michal 15 November 2013 (has links)
Genome-wide association studies have implicated autophagy in Crohn’s Disease (CD) pathogenesis. The functional relevance of autophagy in CD remains unknown. I hypothesized that autophagy is involved in microRNA silencing, another process implicated in CD pathogenesis. MicroRNAs are short non-coding RNAs that are loaded onto RNA-induced silencing complex (RISC) and promote degradation and/or repress translation of target mRNAs. RISC formation and turnover occurs on endosomal membranes. Since autophagosomes and endosomes are closely related and RISC components are downstream effectors of microRNA silencing, I hypothesized that autophagy affects RISC, hence modulates microRNA expression. Using immunoblotting and immunofluorescence, I showed that Ago2, a critical component of RISC, is increased in cells with defective autophagy. Using microarray technology, I discovered 5 microRNAs that are differentially expressed in these cells. Taken together, my results propose a compelling mechanism by which autophagy regulates Ago2, thereby affects miRNA expression, which is implicated in the development of CD.
4

The Functional Role of Hepatic Argonaute (Ago)-2 Slicer Activity in Metformin’s Action and Glucose Metabolism in Obese Mice

Salem, Esam 22 October 2020 (has links)
No description available.

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