Global ETD Search

51	Characterizing the Function of PAS kinase in Cellular Metabolism and Neurodegenerative Disease Pape, Jenny Adele 01 June 2019 (has links) The second identified substrate of PAS kinase discussed is Pbp1. The human homolog of Pbp1 is ataxin-2, mutations in which are a known risk factor for amyotrophic lateral sclerosis (ALS). As diet and sex have been shown to be important factors regarding PAS kinase function, they also are strong contributing factors to ALS and are extensively reviewed herein. Pbp1 is known to be sequestered by PAS kinase under glucose depravation, and it can sequester additional proteins along with it to regulate different cellular pathways. To shed light on the pathways affected by Pbp1, we performed a yeast two-hybrid assay and mass spectrometry, identifying 32 novel interacting partners of Pbp1 (ataxin-2). We provide further analysis of the direct binding partner Ptc6, measuring mitophagy, mitochondrial content, colocalization, and respiration. This work elucidates novel molecular mechanisms behind the function of PAS kinase and yields valuable insights into the role of PAS kinase in disease. PAS kinase Cbf1 USF1 respiration glucose allocation ALS neurodegenerative ataxin-2 Pbp1 stress granules Ptc6 mitophagy Life Sciences Molecular Biology
52	SNFing Glucose to PASs Mitochondrial Dysfunction: The Role of Two Sensory Protein Kinases in Metabolic Diseases Ong, Kai Li 01 July 2019 (has links) Mitochondria is no longer viewed as merely a powerhouse of the cell. It is now apparentthat mitochondria play a central role in signaling, maintaining cellular homeostasis and cell fate.Mitochondrial dysfunction has been linked to many human diseases caused by cellular metabolicderegulation, such as obesity, diabetes, neurodegenerative disease, cardiovascular disease andcancer. Eukaryotic organisms have evolved an efficient way in sensing, communicating andresponding to cellular stress and regulating mitochondrial activity correspondingly through acomplex network of intercommunicating protein kinases and their downstream effectors. Thisdissertation focuses on the interplay of two of the master metabolic regulators in the cell: AMPKand PASK, and characterization of the functions of their downstream substrates: OSBP andMED13. AMPK is an energy sensing kinase that maintains energy homeostasis in the cell,whereas PASK is a nutrient sensing kinase that regulates glucose partitioning and respiration inthe cell. Both kinases play important roles in mitochondrial function and regulation, anddeficiency in either kinase has been found to associate with various human pathologies. Furthercharacterization of the cross-talk and molecular mechanisms of both kinases in controllingmitochondrial health and function may aid in the identification of new targets for treatingmetabolic diseases. mitophagy Life Sciences Molecular Biology
53	Characterizing Stress Granule Regulation by PAS Kinase, Ataxin-2 and Ptc6 and Investigating the Lifespan of Covid-19 Virus on Currency Newey, Colleen R 07 December 2023 (has links) (PDF) The protein Ataxin-2 is a known positive regulator of stress granules in humans, mice and yeast (known as yeast PBP1). Due to the role that stress granules play in diseases including Amyotrophic Lateral Sclerosis (ALS) and cancer, this thesis investigates the role of Ataxin-2 and its protein binding partners in stress granule development and its effects on various metabolic phenotypes of the cell. PAS kinase is a sensory protein kinase, conserved from yeast to man, which regulates respiration and lipid biosynthesis. Our lab discovered that PAS kinase phosphorylates and activates Ataxin-2 in yeast, and that PAS kinase overexpression enhances localization of Ataxin-2 to stress granules. Our preliminary results from yeast show that PAS kinase positively regulates stress granule formation in response to metabolic stress. Ataxin-2 normally functions to promote stress granule formation and it has been specifically shown to sequester and inhibit mammalian target of rapamycin complex I (mTORC1), a major player in the regulation of cell growth, to stress granules in both yeast and mammalian cells. To build upon this knowledge we performed a large-scale yeast interactome to identify Pbp1 binding partners through yeast-two hybrid and mass spectrometry. We identified 32 novel putative binding partners. A protein of note was Ptc6, a known regulator of mitophagy with human homolog PPM1K, which is not known to be involved in stress granules. Through colocalization with Ppb1 we determined that Ptc6 is sequestered to stress granules under glucose depravation. Under Pbp1 overexpression, Ptc6 was shown to increase localization to a stress granule marker, Pab1, showing that Pbp1 may be actively promoting Ptc6 to stress granules. We investigated the effects of eliminating Pbp1 and Ptc6 in yeast cells, including on mitophagy, mitochondrial quantification, whole cell respiration and mitochondrial reactive oxidative species. In a separate project, due to the outbreak of a worldwide pandemic and early concerns that currency could be a potential SARS-CoV-2 fomite, we investigated whether the virus could survive on varying types of currency. We conducted environmental studies and found no viable virus on bank notes or money cards. In vitro studies with live virus suggested SARS-CoV-2 was highly unstable on banknotes, however SARS-CoV-2 displayed increased stability on money cards with live virus detected after 48 hours. stress granules metabolism mitophagy mitochondria yeast Ataxin-2 PAS kinase Ptc6 ALS cancer neurodegenerative SARS-CoV-2 Covid 19 currency Life Sciences
54	Towards the Regulation and Physiological Role of the Mitochondrial Calcium- Independent Phospholipase A<sub>2</sub> Rauckhorst, Adam J. January 2014 (has links) No description available. Biochemistry Biomedical Research Mitochondria bioenergetics electron transport chain phospholipase A2 Calcium-independent phospholipase A2 mitochondrial dynamics mitophagy mitochondrial permeability transition
55	Targeting Mitochondrial Pathways in Obesity and Type 2 Diabetes Sacks, Jessica Erin 04 June 2018 (has links) No description available. Biochemistry Cellular Biology Endocrinology Molecular Biology Pathology Physiology Mitochondria Obesity Diabetes Liver Skeletal Muscle Fusion Fission Biogenesis Mitophagy Gastric Bypass Metformin
56	Rôles de la méthionine sur le métabolisme hépatique de la truite arc-en-ciel (Oncorhynchus mykiss) : focus sur les mitochondries / Roles of methionine on hepatic metabolism of rainbow trout (Oncorhynchus mykiss) : focus on mitochondria Séité, Sarah 14 May 2019 (has links) L’impératif d’une aquaculture durable conduit à orienter l’alimentation des poissons vers la substitution de la farine de poisson par des produits végétaux renouvelables. Toutefois, ce remplacement est souvent limité par des niveaux trop faibles en méthionine dans les matières premières végétales. Ainsi la supplémentation en méthionine de ces nouveaux régimes à base de végétaux est essentielle, mais requière une bonne connaissance de son rôle pour adapter les apports aux conditions physiologiques des poissons tout en prenant en compte les contraintes économiques et environnementales de production. Dans ce contexte, cette thèse avait pour principal objectif de caractériser les effets induits par une carence en méthionine sur le métabolisme mitochondrial de la truite arc en ciel. Les résultats obtenus dans notre première étude montrent que l'alimentation de truites avec un régime déficient en méthionine entraîne une baisse des performances de croissance associée à une baisse de l’intégrité mitochondriale et une diminution du statut oxydatif dans le foie. Nous démontrons également que ces perturbations s’accompagnent de l’induction d’un processus de dégradation des mitochondries par autophagie (appelé mitophagie) ainsi que d’une augmentation du stress du Réticulum Endoplasmique (RE) et de l’apoptose. Ces données originales publiées dans le journal Scientific Reports mettent ainsi en évidence les liens étroits qui existent entre différentes fonctions cellulaires pour faire face à un déséquilibre nutritionnel en méthionine. Outre cet effet à court terme, nous démontrons également, dans un seconde étude, qu’une carence en méthionine alimentaire pendant une courte période (2 semaines) lors des premiers repas des alevins entraîne une induction à long terme de facteurs liés à la mitophagie. Ces résultats, soumis à publication dans Journal of Experimental Biology, démontrent ainsi pour la première fois la mise en place d’un processus de programmation de cette fonction cellulaire par une carence précoce en méthionine. L’enrichissement en H3K4me3 et H3K36me3 des foies des poissons issus d’alevins carencés en méthionine par rapport aux poissons témoins suggère une implication de mécanismes épigénétiques dans ces effets. Enfin, dans une troisième étude qui se détache de la thématique principale de la thèse et qui a fait l’objet d’une publication dans le journal Frontiers in Physiology, nous nous sommes attachés à préciser les interactions existante entre l’autophagie, l’homéostasie du RE et le métabolisme intermédiaire. Dans l’ensemble, ces données approfondissent notre compréhension du rôle de la méthionine alimentaire au niveau cellulaire et soulignent le potentiel de cet acide aminé en tant que levier pour appliquer de nouvelles stratégies alimentaires, comme la programmation nutritionnelle, afin d’optimiser la nutrition et la santé des poissons d'élevage. / The expansion of the aquaculture industry in combination with limited availability and high prices of fishmeal has prompted feed producers to include more plant proteins in the aquaculture feeds. However, replacement of fish meal with plant proteins is often limited by the level of methionine in the alternative plant protein sources. Understanding of the different roles of methionine in fish is therefore essential to develop new diets and/or feeding strategies that are in tune with optimal fish growth, environmental and economic constraints. In this context, the main objective of this thesis was to characterize the effects induced by methionine deficiency on the hepatic mitochondrial metabolism in rainbow trout. The results obtained in our first study show that feeding trout with a methionine deficient diet leads to a decrease in growth performance associated with a decrease in both mitochondrial integrity and oxidative stress in the liver. We also demonstrate that these defects are accompanied by the induction of an autophagy-dependent mitochondrial degradation process (called mitophagy) as well as an increase in Endoplasmic Reticulum (ER)-stress and apoptosis. These original data published in Scientific Reports thus highlight the existence of close interactions between different cellular functions to cope to a dietary methionine deficiency. In addition to this short-term effect, we also demonstrate in a second study (submitted for publication in the Journal of Experimental Biology), that early nutritional stimulus during two weeks with a methionine deficient diet resulted in a long term programming of mitophagy. The enrichment of H3K4me3 and H3K36me3 in the liver of fish from methionine-deficient fry compared to their control counterparts suggests that epigenetic mechanisms are involved in these effects. Finally, in a third and last study, recently accepted for publication in Frontiers in Physiology, we sought to clarify, in primary culture of trout hepatocytes, the existing interactions between autophagy, ER homeostasis and intermediate metabolism under amino acid deprived conditions. Together, the results obtained in the present thesis extended our understanding of the role of dietary methionine at cellular level and emphasize the potential of this amino acid to apply new feeding strategies, such as nutritional programming, to optimize the nutrition and health of farmed fish. Truites arc-en-ciel Méthionine Mitophagie Autophagie Mitochondrie Programmation nutritionnelle Statut oxydant Stress du réticulum endoplasmique Foie Rainbow trout Methionine Mitophagy Autophagy Mitochondria Nutritional programming Oxidative status Endoplasmic reticulum stress Liver 572.8
57	A mitochondrial perspective on striated muscle physiopathology: insights from sepsis, denervation, and dystrophinopathies. Godin, Richard 05 1900 (has links) La mitochondrie est de plus en plus reconnue pour sa contribution à la dégénerescence musculaire. Les dysfonctions mitochondriales, en plus de causer une défaillance énergétique, contribuent à la signalisation apoptotique, stimule la production de ROS et peuvent induire une surcharge calcique. Ces caractéristiques sont tous reliées à certains types de myopathies. Cette thèse met en lumières comment certaines dysfonctions mitochondriales peuvent intervenir dans la pathogenèse de diverses myopathies. Nous démontrons que les dysfonctions mitochondriales sont impliqués dans l’atrophie dû à la perte d’innervation. Par contre, la désensabilisation de l’ouverture du pore mitochondrial de transition de perméabilité, via ablation génétique de cyclophiline-D, ne prévient ni la signalisation apoptotique mitochondrial ni l’atrophie. Nous avons aussi observé des dysfonctions mitochondriales dans le muscle atteint de dystrophie musculaire de Duchenne qui furent améliorés suite à une transfection de PGC1-α, laquelle résulta aussi en une amélioration de la pathologie. Finalement, nous démontrons que le recyclage de mitochondrie par les voies de mitophagies et de contrôles de la qualité impliquant Parkin et possiblement d’autres voies de signalisation inconnues sont cruciales au recouvrement cardiaqe lors d’un choc septique. / Mitochondria are increasingly being recognized for their role in contributing in cellular damage. Mitochondrial dysfunctions, in addition to causing energy failure, contribute to apoptotic signaling, stimulate ROS production and calcium overload. These are all features of various types of myopathies. This thesis sheds light on how mitochondrial dyfunctions may contribute to the pathogenesis in certain myopathies that have been found to show mitochondrial abnormalities. Specifically, we found that although mitochondrial dysfunctions are involved in denervation-associated atrophy, desensitizing mitochondrial permeability transition pore opening through genetic ablation of CyclophilinD does not prevent mitochondrial apoptotic signaling nor atrophy in this model of chronic inactivity. We also observed mitochondrial dysfunctions in the Duchenne dystrophic muscle that were improved after PGC1-α transfection, which also resulted in an amelioration of the disease presentation. Finally, we found that mitochondrial recycling, led by Parkin and alternate mitophagy pathways a crucial component of cardiac recovery in sepsis. mitochondria striated muscle muscular dystrophy denervation sepsis mitophagy cardiomyopathy atrophy biogenesis cardiac metabolism mitochondrie muscle strié dystrophie musculaire septicémie dénervation atrophie mitophagie cardiomyopathie métabolisme cardiaque biogénèse
58	A mitochondrial perspective on striated muscle physiopathology: insights from sepsis, denervation, and dystrophinopathies Godin, Richard 05 1900 (has links) No description available. mitochondria striated muscle muscular dystrophy denervation sepsis mitophagy cardiomyopathy atrophy biogenesis cardiac metabolism mitochondrie muscle strié dystrophie musculaire septicémie dénervation atrophie mitophagie cardiomyopathie métabolisme cardiaque biogénèse

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