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Etude de la dysfonction cellulaire et moléculaire du syndrome mitochondrial MELAS. / Study of cellular and molecular dysfunction of mitochondrial MELAS syndromGeffroy, Guillaume 29 September 2017 (has links)
Chaque mitochondrie contient son propre génome en de multiples copies d’ADN. Les mutations de l'ADN mitochondriales (ADNmt) sont responsables de sévères dysfonctions de la chaîne respiratoire. Le ratio entre la proportion de copies sauvages et mutantes, qualifiée d'hétéroplasmie, détermine la sévérité de la pathologie. Une des mutations les plus répandues de l'ADNmt est la mutation m.3243A>G, affectant l'ARN de transfert de la leucine. Ce variant est à l'origine du syndrome mitochondrial MELAS. Il n’existe à l’heure actuelle aucun traitement curatif pour ce syndrome. Nous avons développé une série de cybrides neuronaux porteurs de la mutation m.3243A>G a différents taux d’hétéroplasmie. Nous avons mis en évidence que de fort taux de mutations sont responsables de sévères dysfonctions de la chaîne respiratoire, d’un défaut d’assemblage précoce du complexe I ainsi qu’une réduction du renouvellement mitochondrial. Différentes stratégies métaboliques ont été employées pour compenser ces déficits. L’exposition des cellules a une restriction glucidique ou à la diète cétogène associant réduction glucidique et ajout de corps cétoniques, améliore significativement les fonctions mitochondriales après 4 semaines. Ces effets passent notamment par une restauration de l’assemblage et de l’activité du complexe I médiée ces interventions métaboliques. Par ailleurs, l’administration de la diète cétogène à un patient atteint du syndrome MELAS a déjà montré des résultats encourageants. De telles approches pourraient alors, constituées des stratégies thérapeutiques futures dans le traitement du syndrome MELAS et des maladies mitochondriales. / Each mitochondrion contains its own genome in multiple copies. Mitochondrial DNA (mtDNA) mutations are responsible for respiratory chain defects. The ratio of mutant to normal mtDNA, a condition known as heteroplasmy, may determine the disease severity. The m.3243A>G mutation, which affects the leucine tRNA, is one of the most common mtDNA mutation. This variant is responsible for the MELAS syndrome, a neurodegenerative disease, characterized by pseudostrokes. Unfortunately there are no curative treatments for MELAS syndrome. We have developed series of cybrid neuronal cells lines carrying the m.3243A>G mutation with different mutant loads, within the same nuclear background. High mutation load is associated to severe respiratory chain dysfunction, an early complex I assembly defect and a mitochondrial turn-over deficit. Different strategies were used to compensate the defects in the mutant cells. Cell exposure to low glucose or ketogenic diet, combining glucose reduction and the addition of ketone bodies, greatly improves mitochondrial functions after 4 weeks. Those effects are linked to a significant increase of complex I assembly and activity mediated by those metabolic interventions. In addition, a MELAS patient treated with ketogenic diet showed significant clinical improvement. Thus, metabolic approaches may constitute promising therapeutic strategies against MELAS syndrome and mitochondrial disorders.
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Effects of Nicotinamide Riboside and Beta-hydroxybutyrate on C. elegans LifespanPeters, Jeffery 01 May 2020 (has links)
The nicotinamide riboside (NR) form of vitamin B3and the ketone body ß-hydroxybutyrate (BHB) are two of the most promising natural compounds yet identified for the treatment of aging and aging-related diseases. Forms of vitamin B3are precursors for the synthesis of the coenzymes nicotinamide adenine dinucleotide (NAD(H)) and nicotinamide adenine dinucleotide phosphate (NADP(H)). In aged cells levels of NAD+decline, decreasing metabolism and decreasing activity of protective sirtuin protein deacetylases. In aged cells NR, but not more common forms of vitamin B3, boost NAD+levels. BHB is naturally produced by the body when individuals fast or consume a ketogenic (KD) or calorically restricted (CR) diet. These diets have been shown to extend lifespan in mice, while they are also protective in many disease models. Caenorhabditis elegans, a roundworm with a short mean lifespan of roughly 2 to 3 weeks depending upon the temperature, is used as a model system to study aging. BHB has been previously shown to increase lifespan by roughly 20% when administered to C. elegans.We administered NR and BHB individually and together to C. elegans starting at two different developmental stages (larval stages 1 and 4) and measured lifespan. We found that administration of 20 mM DL-BHB decreased lifespan when first given at the L1 stage, while it robustly increased lifespan when first given at the L4 stage. Administration of 0.5 mM NR increased lifespan when first given at L1, with only a very slight increase when first given at L4. When initiating administration at L1, NR greatly mitigated the BHB-mediated decline in longevity, however, NR did not increase BHB-mediated lifespan extension when first administered at L4.
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The role of pyruvate dehydrogenase kinase in glucose and ketone body metabolismRahimi, Yasmeen 03 January 2014 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / The expression of pyruvate dehydrogenase kinase (PDK) 2 and 4 are increased in the fasted state to inactivate the pyruvate dehydrogenase complex (PDC) by phosphorylation to conserve substrates for glucose production. To assess the importance of PDK2 and PDK4 in regulation of the PDC to maintain glucose homeostasis, PDK2 knockout (KO), PDK4 KO, and PDK2/PDK4 double knockout (DKO) mice were generated. PDK2 deficiency caused higher PDC activity and lower blood glucose levels in the fed state while PDK4 deficiency caused similar effects in the fasting state. DKO intensified these effects in both states. PDK2 deficiency had no effect on glucose tolerance, PDK4 deficiency produced a modest effect, but DKO caused a marked improvement, lowered insulin levels, and increased insulin sensitivity. However, the DKO mice were more sensitive than wild-type mice to long term fasting, succumbing to hypoglycemia, ketoacidosis, and hypothermia. Stable isotope flux analysis indicated that hypoglycemia was due to a reduced rate of gluconeogenesis. We hypothesized that hyperglycemia would be prevented in DKO mice fed a high saturated fat diet for 30 weeks. As expected, DKO mice fed a high fat diet had improved glucose tolerance, decreased adiposity, and were euglycemic due to reduction in the rate of gluconeogenesis. Like chow fed DKO mice, high fat fed DKO mice were unusually sensitive to fasting because of ketoacidosis and hypothermia. PDK deficiency resulted in greater PDC activity which limited the availability of pyruvate for oxaloacetate synthesis. Low oxaloacetate resulted in overproduction of ketone bodies by the liver and inhibition of ketone body and fatty acid oxidation by peripheral tissues, culminating in ketoacidosis and hypothermia. Furthermore, when fed a ketogenic diet consisting of low carbohydrate and high fat, DKO mice also exhibited hypothermia, ketoacidosis, and hypoglycemia. The findings establish that PDK2 is more important in the fed state, PDK4 is more important in the fasted state, survival during long term fasting depends upon regulation of the PDC by both PDK2 and PDK4, and that the PDKs are important for the regulation of glucose and ketone body metabolism.
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Food addiction : a cost-effective treatment proposal within a developing country contextKistenmacher, Ann 01 1900 (has links)
This study explores the possible efficacy of a low carbohydrate and high fat nutritional intervention (LCHF) as a treatment possibility aiming to improve the ability of self-control and regulation in the context of carbohydrate-addiction.
The study first outlines why increased simple carbohydrate consumption has been implicated as a risk-factor in numerous chronic conditions, and then explores the possibility that a reduction of such consumption could lower general medical expenditure in the healthcare sector of already overburdened institutions, especially in developing countries like South Africa. Since the neurobiological evidence for food addiction is compelling, this study investigates the impact of a low carbohydrate and high fat eating (LCHF) regimen by measuring the change in the severity of addictive behaviour in relation to a reduced carbohydrate consumption. Results indicate that a LCHF nutritional intervention lessened addictive behaviour after just 30 days, resulting in a statistically significant decrease in addiction symptoms from day 1 to day 30. The weight and BMI values of the participants recorded at the end of the study showed a reduction from those obtained during the pre- treatment stage, and the self-perceived ‘feeling in control’ also improved in all participants after the intervention.
The introduction of a LCHF nutritional intervention presents a relatively cost-effective treatment and preventative measure to combat carbohydrate over-consumption and its numerous health complications, and it is therefore hoped that the positive findings of this study will foster further research, using larger samples, into this type of nutritional intervention against addictive eating behaviour. / Psychology / M.A. (Psychology)
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