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Monitoring of mutant huntingtin influence on autophagy in human neural stem cells
Zezulová, Kristýna ; Vodička, Petr (advisor) ; Kohoutek, Jiří (referee)
Huntington's disease is an inherited neurodegenerative disease caused by a mutation in the huntingtin gene. Its expressed product, mutated huntingtin protein, aggregates in the cell and affects wide range of cellular processes, including proteostasis mechanisms. Autophagy, classified among the mechanisms of cellular degradation and recycling of proteins and other cellular components, is one of the processes disrupted by the presence of mutated huntingtin. The goal of the project was to prepare a tandem genetic construct (fusion protein LC3-EGFP-mCherry) using chemically competent bacteria by molecular cloning methods, transfect it into prepared human lines carrying both normal and mutated huntingtin, and thus modify the lines to transiently, and if possible also constantly express this sensor of autophagy activity. Such modified lines allow monitoring the effect of the presence of normal and mutated HTT on the course of autophagy and also provide experimentally suitable conditions for influencing autophagy in these cells using inhibitors and activators from the group of small molecules. Two types of LC3-GFP-mCherry/RFP fusion proteins were successfully prepared by molecular cloning and transiently introduced by lipofection into the control ARPE19 lines. Expression of the constructs in human H9 NSC...
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Role of modified autophagosomal function in patophysiology of Huntington's disease.
Kotrčová, Eva ; Motlík, Jan (advisor) ; Sládková, Jana (referee)
Huntington's disease, an autosomal dominant neurodegenerative disease, affects the cell in several toxical ways. One of them is accumulation of protein aggregates in cytoplasma, which could become a serious problem especially for long-lived cells such as neurons. Autophagy (macroautophagy) is an important catabolic pathway, crucial for cell survival. If fully functional, it should eliminate protein aggregates and reduce the toxic effect on the cell. However, recent works show that this pathway might be defective, most probably in the cytoplasmic cargo recognition. In my work I used a transgenic miniature pig model of Huntington's disease to verify the hypothesis of autophagical dysfunction in individuals suffering from Huntington's disease. I studied levels of autophagosomal markers - LC3 and p62 in mesenchymal stem cells after different autophagy stimulation treatments, and ammonium chloride was found the most effective. In addition I evaluated the effect of age of the animals on autophagic function, but no significant changes were identified, even if animal genotype was considered. Moreover I had an opportunity to study proteins levels in three porcine brain tissues - cortex, cerebellum and striatum. Even though there is no significant diference, we can observe a trend of LC3 II and p62 increase in...
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