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Study of mitochondrial morphology in pancreatic β-cells depending on the presence of different types of secretagogues
Lorenc, David ; Dlasková, Andrea (advisor) ; Mráček, Tomáš (referee)
Glucose homeostasis is crucial for the proper functioning of the organism. The pancreatic β-cells, which serve as a sensor of changes in blood glucose concentration and are responsible for the adequate release of the hormone insulin, play a crucial role in its maintenance. Increased glucose concentration activates oxidative phosphorylation and subsequently increases the concentration of cellular ATP, which then indirectly stimulates insulin secretion. The process of oxidative phosphorylation is localized in the inner mitochondrial membrane, where the final stage of processing of substrate energy into ATP occurs. To make the oxidative phosphorylation process as efficient as possible, the mitochondrial network undergoes a series of morphological changes. In this work, we aimed to elucidate the effect of changes in nutrient concentration on mitochondrial morphology in a pancreatic β-cell model, the INS1E tissue line. We used as experimental conditions: 1) a high glucose concentration at which insulin secretion is maximal, 2) a low glucose concentration at which insulin secretion does not occur, and 3) the addition of α-ketoisocaproate, a leucine metabolite that amplifies insulin secretion. We first characterized the bioenergetic parameters that influence mitochondrial morphology. A decrease in glucose...
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The inner mitochondrial membrane cristae biogenesis
Efimova, Iuliia ; Mráček, Tomáš (advisor) ; Petrů, Markéta (referee)
Invaginations of the inner mitochondrial membrane originate cristae - important structural and bioenergetic mitochondrial compartments. Long-term observations of mitochondrial ultrastructure uncovered cristae dynamics, but did not identify mechanisms of cristae formation and maintenance. This thesis summarizes results of latest research on molecular mechanisms of mitochondrial cristae biogenesis, which are conserved from fungi to mammals including human. The emphasis is put on major remodeling factors: F1Fo-ATP synthase dimers, MICOS complex, OPA1 protein and cardiolipin. Their defects lead to extensive changes on cristae level, as well as on mitochondrial, cellular and organismal levels. Various pathophysiological conditions and human mitochondrial diseases are related to these defects. More detailed research of cristae biogenesis is therefore of high significance, new findings could assist in the development of new treatments for mitochondrial disorders.
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The inner mitochondrial membrane cristae biogenesis
Efimova, Iuliia ; Mráček, Tomáš (advisor) ; Petrů, Markéta (referee)
Invaginations of the inner mitochondrial membrane originate cristae - important structural and bioenergetic mitochondrial compartments. Long-term observations of mitochondrial ultrastructure uncovered cristae dynamics, but did not identify mechanisms of cristae formation and maintenance. This thesis summarizes results of latest research on molecular mechanisms of mitochondrial cristae biogenesis, which are conserved from fungi to mammals including human. The emphasis is put on major remodeling factors: F1Fo-ATP synthase dimers, MICOS complex, OPA1 protein and cardiolipin. Their defects lead to extensive changes on cristae level, as well as on mitochondrial, cellular and organismal levels. Various pathophysiological conditions and human mitochondrial diseases are related to these defects. More detailed research of cristae biogenesis is therefore of high significance, new findings could assist in the development of new treatments for mitochondrial disorders.
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