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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

Mitofusin 1 and Mitofusin 2 Function in the Context of Brain Development

Hamze, Carmen 01 November 2011 (has links)
Mitofusin 1 and 2 are outer-mitochondrial membrane proteins that have been shown to be involved in fusion. Mitofusin 2 has also been associated with apoptosis and development. When Mfn1 and Mfn2 were each conditionally knocked out from the cerebellum, Purkinje cells in Mfn2 deficient cerebellum during development had undergone neurodegeneration. Mutations in Mfn2 have also been associated with the Charcot Marie Tooth Type 2A (CMT2A). We want to asses the effect Mfn2 and Mfn1 might have on the development of other regions of the brain such as the telencephalon. We generated Mfn1 and Mfn2 conditional knockouts in the telencephalon by crossing them with Foxg1 Cre - a cre expressed in the telencephalon. We found that Mfn1 deficient mice have lost their corpus callosum at the midline, but survive over 6 months with a decrease in progenitor cells postnatally. Mfn2 deficient mice die between P9 and P12 with a decrease in progenitor cells postnatally and a decrease in number of neurons in the cortex. Therefore, our results suggest that Mfn1 and Mfn2 play a significant role in the development of the telencephalon.
2

Mitofusin 1 and Mitofusin 2 Function in the Context of Brain Development

Hamze, Carmen 01 November 2011 (has links)
Mitofusin 1 and 2 are outer-mitochondrial membrane proteins that have been shown to be involved in fusion. Mitofusin 2 has also been associated with apoptosis and development. When Mfn1 and Mfn2 were each conditionally knocked out from the cerebellum, Purkinje cells in Mfn2 deficient cerebellum during development had undergone neurodegeneration. Mutations in Mfn2 have also been associated with the Charcot Marie Tooth Type 2A (CMT2A). We want to asses the effect Mfn2 and Mfn1 might have on the development of other regions of the brain such as the telencephalon. We generated Mfn1 and Mfn2 conditional knockouts in the telencephalon by crossing them with Foxg1 Cre - a cre expressed in the telencephalon. We found that Mfn1 deficient mice have lost their corpus callosum at the midline, but survive over 6 months with a decrease in progenitor cells postnatally. Mfn2 deficient mice die between P9 and P12 with a decrease in progenitor cells postnatally and a decrease in number of neurons in the cortex. Therefore, our results suggest that Mfn1 and Mfn2 play a significant role in the development of the telencephalon.
3

Mitofusin 1 and Mitofusin 2 Function in the Context of Brain Development

Hamze, Carmen 01 November 2011 (has links)
Mitofusin 1 and 2 are outer-mitochondrial membrane proteins that have been shown to be involved in fusion. Mitofusin 2 has also been associated with apoptosis and development. When Mfn1 and Mfn2 were each conditionally knocked out from the cerebellum, Purkinje cells in Mfn2 deficient cerebellum during development had undergone neurodegeneration. Mutations in Mfn2 have also been associated with the Charcot Marie Tooth Type 2A (CMT2A). We want to asses the effect Mfn2 and Mfn1 might have on the development of other regions of the brain such as the telencephalon. We generated Mfn1 and Mfn2 conditional knockouts in the telencephalon by crossing them with Foxg1 Cre - a cre expressed in the telencephalon. We found that Mfn1 deficient mice have lost their corpus callosum at the midline, but survive over 6 months with a decrease in progenitor cells postnatally. Mfn2 deficient mice die between P9 and P12 with a decrease in progenitor cells postnatally and a decrease in number of neurons in the cortex. Therefore, our results suggest that Mfn1 and Mfn2 play a significant role in the development of the telencephalon.
4

Mitofusin 1 and Mitofusin 2 Function in the Context of Brain Development

Hamze, Carmen January 2011 (has links)
Mitofusin 1 and 2 are outer-mitochondrial membrane proteins that have been shown to be involved in fusion. Mitofusin 2 has also been associated with apoptosis and development. When Mfn1 and Mfn2 were each conditionally knocked out from the cerebellum, Purkinje cells in Mfn2 deficient cerebellum during development had undergone neurodegeneration. Mutations in Mfn2 have also been associated with the Charcot Marie Tooth Type 2A (CMT2A). We want to asses the effect Mfn2 and Mfn1 might have on the development of other regions of the brain such as the telencephalon. We generated Mfn1 and Mfn2 conditional knockouts in the telencephalon by crossing them with Foxg1 Cre - a cre expressed in the telencephalon. We found that Mfn1 deficient mice have lost their corpus callosum at the midline, but survive over 6 months with a decrease in progenitor cells postnatally. Mfn2 deficient mice die between P9 and P12 with a decrease in progenitor cells postnatally and a decrease in number of neurons in the cortex. Therefore, our results suggest that Mfn1 and Mfn2 play a significant role in the development of the telencephalon.
5

Age-associated metabolic reprogramming, oxidative stress response, and cancer progression

Son, Jyung Mean 01 August 2017 (has links)
Replicative and chronological lifespan are two different modes of cellular aging. Chronological lifespan is defined as the duration during which quiescent normal cells retain their capacity to re-enter the proliferative cycle. This study investigates whether changes in metabolism occur during aging of quiescent normal human fibroblasts (NHFs) and the mechanisms that regulate these changes. Bioenergetics measurements were performed in quiescent NHFs from younger (newborn, 3-d, 5-m, and 1-y) and older (58-y, 61-y, 63-y, 68-y, and 70-y) donors as well as NHFs from the same individual at different ages (29-y, 36-y, and 46-y). Results show significant changes in cellular metabolism during aging of quiescent NHFs: old NHFs exhibit significant decreases in glycolytic flux and lactate levels, and increases in oxygen consumption rate (OCR) and ATP levels compared to young NHFs. Results from Seahorse Mito Stress Test show that old NHFs with a lower Bioenergetic Health Index (BHI) are more prone to oxidative stress compared to young NHFs with a higher BHI. The increase in OCR in old NHFs is associated with a shift in mitochondrial dynamics more towards fusion. Genetic knock-down of mitofusin 1 (MFN1) and optic atrophy 1 (OPA1) in old NHFs decreased OCR and shifted metabolism more towards glycolysis. Downregulation of MFN1 and OPA1 also suppressed the radiation-induced increase in doubling time of NHFs. These results suggest that a metabolic shift from glycolysis in young to mitochondrial respiration in old NHFs occurs during the chronological lifespan, and MFN1 and OPA1 regulate this process. Age-associated metabolic reprogramming can also impact the age-related disease progression such as cancer. Recent evidence suggests a significant role of fibroblasts in pancreatic ductal adenocarcinoma (PDAC) stromal cellularity, metabolism, and therapy response. Considering PDAC being an age-related disease and a dismal 5-y survival of less than 9%, this study investigates whether stromal aging regulates PDAC progression. Results show that NHFs from older healthy individuals stimulate proliferation of PDAC cells compared to younger NHFs. Results from an in vivo study show that rate of tumor growth in xenografts of PDAC cells cultured with the old NHFs is significantly increased compared to the co-cultures of the young NHFs. In addition, decreased survival was also observed in mice carrying xenograft of co-culture of PDAC and the old NHFs compared to the young NHFs. Results from quantitative RT-PCR assays show that arachidonic acid lipoxygenase (ALOX12) expression decreased in PDAC, but increased in stromal fibroblasts in an age-dependent manner. Molecular inhibition of ALOX12 in the old NHFs suppressed PDAC proliferation in co-culture. These results show that aging of stromal fibroblasts aging promotes progression of PDAC, and identified ALOX12 and its metabolite 12-hydroxyeicosatetraenoic acid (12(S)-HETE) as critical regulators of PDAC proliferation. Taken together, findings from this project demonstrate that age-associated metabolic reprogramming of NHFs from glycolysis in young to mitochondrial respiration in old regulates fibroblasts-induced stimulation of proliferation of human PDAC. Importantly, results from this study are anticipated to contribute to the development of novel approaches targeting stromal aging for cancer prevention and therapy response.
6

Impaired Balance of Mitochondria Fission and Fusion in Alzheimer Disease

Wang, Xinglong January 2009 (has links)
No description available.
7

Recherche des facteurs génétiques à l’origine de la maladie de Parkinson dans la population canadienne-française du Québec

Rivière, Jean-Baptiste 01 1900 (has links)
La maladie de Parkinson (MP) est une affection neurodégénérative invalidante et incurable. Il est maintenant clairement établi que d’importants déterminants génétiques prédisposent à son apparition. La recherche génétique sur des formes familiales de la MP a mené à la découverte d’un minimum de six gènes causatifs (SNCA, LRRK2, Parkin, PINK1, DJ-1 and GBA) et certains, par exemple LRRK2, contiennent des variations génétiques qui prédisposent également aux formes sporadiques. La caractérisation des protéines codées par ces gènes a mené à une meilleure compréhension des mécanismes moléculaires sousjacents. Toutefois, en dépit de ces efforts, les causes menant à l’apparition de la MP restent inconnues pour la majorité des patients. L’objectif général des présents travaux était d’identifier des mutations prédisposant à la MP dans la population canadienne-française du Québec à partir d’une cohorte composée principalement de patients sporadiques. Le premier volet de ce projet consistait à déterminer la présence de mutations de LRRK2 dans notre cohorte en séquençant directement les exons contenant la majorité des mutations pathogéniques et en effectuant une étude d’association. Nous n’avons identifié aucune mutation et l’étude d’association s’est avérée négative, suggérant ainsi que LRRK2 n’est pas une cause significative de la MP dans la population canadienne-française. La deuxième partie du projet avait pour objectif d’identifier de nouveaux gènes causatifs en séquençant directement des gènes candidats choisis à cause de leurs implications dans différents mécanismes moléculaires sous-tendant la MP. Notre hypothèse de recherche était basée sur l’idée que la MP est principalement due à des mutations individuellement rares dans un grand nombre de gènes différents. Nous avons identifié des mutations rares dans les gènes PICK1 et MFN1. Le premier code pour une protéine impliquée dans la régulation de la transmission du glutamate tandis que le second est un des acteurs-clés du processus de fusion mitochondriale. Nos résultats, qui devront être répliqués, suggèrent que le séquençage à grande échelle pourrait être une méthode prometteuse d’élucidation des facteurs de prédisposition génétiques à la MP ; ils soulignent l’intérêt d’utiliser une population fondatrice comme les canadiens-français pour ce type d’étude et devraient permettre d’approfondir les connaissances sur la pathogénèse moléculaire de la MP. / Parkinson’s disease (PD) is a complex neurological disorder with significant genetic predisposing factors which are extremely heterogeneous. Investigations of familial forms of the disorder revealed causative mutations in six different genes, namely SNCA, LRRK2, Parkin, PINK1, DJ-1 and GBA, and functional analyses of these gene products pinpointed dysfunction of key molecular pathways involved in the neurodegenerative process of the disorder. Further sequencing and genome-wide association studies indicated that some of these genes, including LRRK2, also contain variants predisposing to sporadic forms of PD. Despite these significant breakthroughs, the vast majority of PD genetic predisposing factors remain unknown. Our goal was to identify mutations predisposing to PD in the French Canadian (FC) population from a cohort mostly composed of late-onset sporadic cases. We therefore sequenced the two exons of LRRK2 that contain most of the pathogenic mutations and we performed a case-control association study. Sequencing analysis did not reveal any reported or novel mutations and the case-control association study did not provide any positive signal, thus indicating that common variants in LRRK2 are unlikely to be a significant cause of late-onset PD in the FC population. Because of the allelic and non-allelic genetic heterogeneity observed for PD, we hypothesized that dozens of genes may carry rare pathogenic mutations. The second part of this research project was therefore aimed at identifying new PD causative genes by direct sequencing of genes functionally associated with the known causative gene pathways. Our screening uncovered several rare mutations likely pathogenic in the PICK1 and the MFN1 genes. PICK1 is involved in internalization of AMPA receptors whereas MFN1 is one of the core components of the mitochondrial fusion/fission machinery. Although these observations will need to be replicated, our findings support the previously suspected pathogenic role for glutamate excitotoxicity and imbalanced mitochondrial dynamics in Parkinson’s disease. They further emphasize the value of inbred populations in genetic studies of PD and provide new clues to the molecular pathogenesis of the disorder.
8

Recherche des facteurs génétiques à l’origine de la maladie de Parkinson dans la population canadienne-française du Québec

Rivière, Jean-Baptiste 01 1900 (has links)
La maladie de Parkinson (MP) est une affection neurodégénérative invalidante et incurable. Il est maintenant clairement établi que d’importants déterminants génétiques prédisposent à son apparition. La recherche génétique sur des formes familiales de la MP a mené à la découverte d’un minimum de six gènes causatifs (SNCA, LRRK2, Parkin, PINK1, DJ-1 and GBA) et certains, par exemple LRRK2, contiennent des variations génétiques qui prédisposent également aux formes sporadiques. La caractérisation des protéines codées par ces gènes a mené à une meilleure compréhension des mécanismes moléculaires sousjacents. Toutefois, en dépit de ces efforts, les causes menant à l’apparition de la MP restent inconnues pour la majorité des patients. L’objectif général des présents travaux était d’identifier des mutations prédisposant à la MP dans la population canadienne-française du Québec à partir d’une cohorte composée principalement de patients sporadiques. Le premier volet de ce projet consistait à déterminer la présence de mutations de LRRK2 dans notre cohorte en séquençant directement les exons contenant la majorité des mutations pathogéniques et en effectuant une étude d’association. Nous n’avons identifié aucune mutation et l’étude d’association s’est avérée négative, suggérant ainsi que LRRK2 n’est pas une cause significative de la MP dans la population canadienne-française. La deuxième partie du projet avait pour objectif d’identifier de nouveaux gènes causatifs en séquençant directement des gènes candidats choisis à cause de leurs implications dans différents mécanismes moléculaires sous-tendant la MP. Notre hypothèse de recherche était basée sur l’idée que la MP est principalement due à des mutations individuellement rares dans un grand nombre de gènes différents. Nous avons identifié des mutations rares dans les gènes PICK1 et MFN1. Le premier code pour une protéine impliquée dans la régulation de la transmission du glutamate tandis que le second est un des acteurs-clés du processus de fusion mitochondriale. Nos résultats, qui devront être répliqués, suggèrent que le séquençage à grande échelle pourrait être une méthode prometteuse d’élucidation des facteurs de prédisposition génétiques à la MP ; ils soulignent l’intérêt d’utiliser une population fondatrice comme les canadiens-français pour ce type d’étude et devraient permettre d’approfondir les connaissances sur la pathogénèse moléculaire de la MP. / Parkinson’s disease (PD) is a complex neurological disorder with significant genetic predisposing factors which are extremely heterogeneous. Investigations of familial forms of the disorder revealed causative mutations in six different genes, namely SNCA, LRRK2, Parkin, PINK1, DJ-1 and GBA, and functional analyses of these gene products pinpointed dysfunction of key molecular pathways involved in the neurodegenerative process of the disorder. Further sequencing and genome-wide association studies indicated that some of these genes, including LRRK2, also contain variants predisposing to sporadic forms of PD. Despite these significant breakthroughs, the vast majority of PD genetic predisposing factors remain unknown. Our goal was to identify mutations predisposing to PD in the French Canadian (FC) population from a cohort mostly composed of late-onset sporadic cases. We therefore sequenced the two exons of LRRK2 that contain most of the pathogenic mutations and we performed a case-control association study. Sequencing analysis did not reveal any reported or novel mutations and the case-control association study did not provide any positive signal, thus indicating that common variants in LRRK2 are unlikely to be a significant cause of late-onset PD in the FC population. Because of the allelic and non-allelic genetic heterogeneity observed for PD, we hypothesized that dozens of genes may carry rare pathogenic mutations. The second part of this research project was therefore aimed at identifying new PD causative genes by direct sequencing of genes functionally associated with the known causative gene pathways. Our screening uncovered several rare mutations likely pathogenic in the PICK1 and the MFN1 genes. PICK1 is involved in internalization of AMPA receptors whereas MFN1 is one of the core components of the mitochondrial fusion/fission machinery. Although these observations will need to be replicated, our findings support the previously suspected pathogenic role for glutamate excitotoxicity and imbalanced mitochondrial dynamics in Parkinson’s disease. They further emphasize the value of inbred populations in genetic studies of PD and provide new clues to the molecular pathogenesis of the disorder.

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