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Blood glucose concentration in Barn Swallow (\kur{Hirundo rustica}): sources of variability and association with fitness
VLČKOVÁ, Kamila
Glucose is an important fuel for intense activities of short duration, but in high concentration is reputed to be tissue-damaging at least in mammals. In birds, blood glucose concentration is naturally considerably higher than in other vertebrates of similar body mass. In this thesis, we focused on blood glucose concentration in the wild populations of the Barn Swallow (Hirundo rustica). Firstly, we investigated the level of repeatability of blood glucose concentration to find out if this trait is individual-specific and thus, it is subject to selection. Secondly, we examined which environmental and physiological variables explain variation in blood glucose level. Thirdly, we tested association of blood glucose level with fitness related traits, namely individual body mass and lifespan.
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Pentoses as energy sources of Mastigamoeba balamuthi
Novotná, Monika ; Verner, Zdeněk (advisor) ; Čepička, Ivan (referee)
Mastigamoeba balamuthi is a free-living amoeba, a sister group to one of the most widespread parasitic agent Entamoeba histolytica. During its lifetime, M. balamuthi can utilize at least four different energy sources to produce ATP. In addition to glucose, a standard cultivation energy source, the amoeba can utilize pentoses xylose and arabinose, as well as an amino acid L-arginine. In this work, energy source preference was assessed. Morphological and physiological characteristics including cell growth and size, motility, number of nuclei and metabolic end products were evaluated. It was concluded that glucose appears to be a less preferred energy source than pentose upon evaluating statistically significant differences. Therefore, it was proposed to replace the commonly used hexose with the preferred xylose in the culture medium of M. balamuthi.
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Brain energy metabolism and its pathologies
Nová, Jana ; Telenský, Petr (advisor) ; Kolář, David (referee)
The brain belongs amongst metabolically most active organs and disturbances of brain energy metabolism are commonly cited as a critical factor predisposing to neurodegeneration. Brain metabolic substrates must be strictly regulated both spatially and temporarily to ensure the energy homeostasis of the brain. Research on energy metabolism of the brain identified several models revealing the interdependence of metabolic processes in the CNS. Powered by TCPDF (www.tcpdf.org)
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The role of mitochondrial metabolism in initiation and adaptation to hypoxic conditions.
Rohlenová, Terezie ; Novák, Petr (advisor) ; Rohlena, Jakub (referee)
We can meet pathological hypoxia in the cases of hearth attack, ischemic stroke, but also during tumor invasion, thanks to insufficient angiogenesis. The activation of HIF- 1 factor during hypoxic conditions is crucial for the cell survival. This factor modulates energetic metabolism in favor of fast progressing glycolysis (with the contribution of glutaminolysis) which provides to cell enough ATP and "building blocks", while suppressing Krebs cycle and respiration because of shortage of oxygen. The thesis studies energetic metabolism of HepG2 cells (derived from liver carcinoma) which are cultivated in the media with various energetic substrates, i. e. glucose or galactose (always together with glutamine and pyruvate) under the hypoxic conditions (5% O2). HepG2 cells use particularly oxidative metabolism for ATP and "building blocks" production under the normoxic conditions while hypoxic environment causes metabolic shift in glycemic condition. Interestingly, cells cultured in galactose (glutamine) didn't switch the energy metabolism from oxidative to aerobic glycolysis such as cells cultivated in glucose, although HIF-1 factor was stabilized. We found that enhanced activity and integrity of mitochondria, enhanced maximal capacity and reserve capacity of respiration chain correlates with...
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Energy metabolism and apoptotsis markers in cold heart aclimated rat.
Pospíšilová, Barbora ; Horníková, Daniela (advisor) ; Knytl, Martin (referee)
Cold adaptation and her effects has been known for many decates. Positive or negative impact depends especially on its length and strength. The lower temperature can very often cause the stress for organism. On the other hand in expreriment with long-term adapatation were found positive consequences on cardiovascular system. We found the lack of studies devoted to the energy metabolism and apoptosis in heart tissue during long-term cold adaptation. In this work we used a model with milder conditions of the adaptation (10žC±1), so there wouldn't be damage of the experimental animals. We compared the resuls betwen control, cold and regressive group of rats. In this expreriment we used methods of electrophoresis and Western blot. The target of the work was found if we can find any differences betwen chosen HIF targeted genes. The next goal was to detect the differences betwen chosen pro-apoptotic and anti-apoptotic markers. Keywords: cold adaptation, heart, energetic metabolism, HIF, apoptosis
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Modulation of RNA demethylase FTO function in SH-SY5Y cells: the effect on insulin signaling and mitochondrial respiration
Čočková, Zuzana ; Novotný, Jiří (advisor) ; Hlaváčková, Markéta (referee)
Aim of this thesis was to observe changes in oxidative metabolism and expression of important neuroenergetic proteins in human neuroblastoma cell line SH-SY5Y due to inhibition of FTO. FTO is a RNA demethylase that uses N6-methyladenosine as substrate. Differences in enzyme expression are connected to broad area of effects involving energy homeostasis. Mitochondria are cellular powerhouses, a key elements in production of energy and metabolic substrates, yet a source of potentially dangerous reactive oxygen species (ROS) and analogous reactive molecules. In order to better understand FTO purpose in neuronal energetic metabolism, we examined mitochondrial respiratory chain. Using high-resolution respirometry we were capable of observing impairment in mitochondrial respiration after FTO inhibition. There was considerable decline in endogenous respiration, maximal respiration rate and reserve capacity. In order to obtain more detailed view into mitochondrial respiration, expression levels of electron-transport complexes were quantified by Western blot technique. Slight reduction was identified in subunits of complex I and IV. However, the most prominent alteration was seen in complex II subunit. There were no differences in expression of complex III and ATP synthase subunits. Beside disrupted activity...
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The role of energy metabolism in cardioprotection induced by the adaptation to chronic hypoxia
Kolář, David ; Žurmanová, Jitka (advisor) ; Adamcová, Michaela (referee) ; Bardová, Kristina (referee)
Cardiac energy metabolism is the one of the most complex system in the body. To sustain life, but also to respond quickly to any sudden changes (e.g. running, emotional stress), the heart has developed a unique ability and has become a metabolic "omnivore". At physiological conditions, long chain fatty acids (LCFAs) present the major energetic source for the adult myocardium. However, the cardiac energy metabolism may be compromised during pathophysiological states. One of the most dangerous is, undoubtedly, ischaemia-reperfusion injury with its acute form, myocardial infarction. However, the adaptation to chronic hypoxia has been known for decades for its cardioprotective effect against I/R. Changes of cardiac energy metabolism induced by the adaptation have not been fully explored and the system conceals still too many secrets. This thesis has aimed to determine how adaptation to chronic hypoxia affects the cardiac metabolism of the rat LVs in the following set-ups: 1. The effect of chronic normobaric hypoxia (CNH; 3 weeks, 5500m) during a brief I/R protocol in vitro on the protein kinase B/hexokinase (Akt/HK) pathway, including the expression and phosphorylation of Akt, the expression and localization of HK, the expression of mitochondrial creatine kinase (mtCKS), and the level of Bcl-2 family...
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The role adipose tissue in development of insulin resistance and other metabolic disorders in patients with pheochromocytoma
Klímová, Judita ; Petrák, Ondřej (advisor) ; Kříž, Jan (referee) ; Mlíková Seidlerová, Jitka (referee)
Pheochromocytoma and functional paraganglioma (PPGL) are rare neuroendocrine tumors characterized by catecholamines overproduction, which give a rise to disorders of glucose, lipid, and energy metabolism. The role of adipose tissue in these processes remains unclear. Our aim was to determine the gene expression profile in subcutaneous and visceral adipose tissue of patients with PPGL focusing on endocrine functions of adipose tissue, occurrence of brown (BAT) and beige adipose tissue (BeAT), all in connection with other measured metabolic and energy parameters and levels of circulating adipokines. We demonstrate signs of UCP1-dependent norepinephrine induced thermogenesis connected with overexpression of DIO2 in retroperitoneal VAT of PPGL and higher expression of key transcriptional factors of brown/beige adipogenesis, namely PPARGC1α, CEBPB and PRDM16. However, classic murine BAT or BeAT gene signature in VAT of PPGL was not detected. In subcutaneous adipose tissue (SAT) of PPGL we found signs of possible BeAT transformation, however without simultaneously undergoing UCP1-dependent thermogenesis. We also demonstrate that patients with PPGL have higher serum levels of FGF21 compared to healthy controls and these levels do not differ from obese patients. Furthermore, successful tumor removal...
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The role of energy metabolism in cardioprotection induced by the adaptation to chronic hypoxia
Kolář, David
Cardiac energy metabolism is the one of the most complex system in the body. To sustain life, but also to respond quickly to any sudden changes (e.g. running, emotional stress), the heart has developed a unique ability and has become a metabolic "omnivore". At physiological conditions, long chain fatty acids (LCFAs) present the major energetic source for the adult myocardium. However, the cardiac energy metabolism may be compromised during pathophysiological states. One of the most dangerous is, undoubtedly, ischaemia-reperfusion injury with its acute form, myocardial infarction. However, the adaptation to chronic hypoxia has been known for decades for its cardioprotective effect against I/R. Changes of cardiac energy metabolism induced by the adaptation have not been fully explored and the system conceals still too many secrets. This thesis has aimed to determine how adaptation to chronic hypoxia affects the cardiac metabolism of the rat LVs in the following set-ups: 1. The effect of chronic normobaric hypoxia (CNH; 3 weeks, 5500m) during a brief I/R protocol in vitro on the protein kinase B/hexokinase (Akt/HK) pathway, including the expression and phosphorylation of Akt, the expression and localization of HK, the expression of mitochondrial creatine kinase (mtCKS), and the level of Bcl-2 family...
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Výběr potravin ve výživě sportovců
Mašková, Dominika
This bachelor thesis is focused on a food selection in sport nutrition, especially on differences in nutrients and energy needs in strength and endurance sports. The first two chapters are devoted to principles of rational nutrition and basic components of nutrition. The third chapter describes energy metabolism during exercise. The other chapters include specifics in the intake of basic nutrients in sport nutrition, fluid intake including. Furthermore in these chapters are described the differences in food timing and choices before, during and after exercise according to the differences between endurance and strength sports. The sixth chapter is devoted to an issue of functional and fortified foods. The last chapter's aims are food supplements and their use in sport nutrition.
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