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Role of mitochonodrial genome in myocardial ischemia-reperfusion injury of spontaneously hypertensive rats (SHR) adapted to hypoxia.
Brabcová, Iveta ; Žurmanová, Jitka (advisor) ; Mlejnek, Petr (referee)
Diplomová práce Abstract - Iveta Brabcová Abstract Ischemia-reperfusion heart injury is one of the most significant diseases affecting mankind and therefore current research pays more attention to its prevention and knowledge of the possible mechanisms which protect the heart. Adaptation to hypoxia has been known for several decades as a cardioprotective intervention but the main issues of protective mechanisms which are induced by the adaptation are still not completely understood. An important role of mitochondria as the main producers of energy and reactive oxygen species which can play a signalizing role in these mechanisms is confirmed in many studies. For this reason a special conplastic strain SHR/OlaIpcv-mtBN/Crl was created. This strain carries the nuclear genome of spontaneously hypertensive rat (SHR) and the mitochondrial genome of normotensive, highly resistant strain Brown Norway (BN). The aim of this study was to compare the expression of selected gene transcripts in the area of energy metabolism, of genes which are related to mitochondrial biogenesis and signaling and antioxidant systems. Comparing the expression was analyzed between strains and after chronic hypoxia adaptation, which cause cardioprotective phenotype in both of these strains. Our results showed a different expression HIF-1α...
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Energetic metabolism of heart during acut and chronic hypoxia
Kolář, David ; Žurmanová, Jitka (advisor) ; Sotáková, Dita (referee)
The heart is a highly oxidative tissue, which far exceeds the oxygen consumption of neurons. The centre of ATP production is therefore in oxidative phosphorylation, which is contributed to by different substrates (glucose, fatty acids and lactate) depending on metabolic conditions. A high proportion of mitochondria in heart tissue carries an increased risk of reactive oxygen species development in the possible disruption of mitochondrial metabolism. Oxygen radicals are generated primarily at complex I and III of the respiratory chain of mitochondria. They may perform a signalling role allowing the heart adaptation to hypoxia, but the high concentration leads to irreversible damage /of cellular structures. This thesis considers the energy metabolism of the heart under normoxic, hypoxic and ischemic conditions, with emphasis on the glucose and fatty acids uptake, and the control of oxidative phosphorylation.
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Effect of morphine on the resistance of the heart to ischemia
Mošovská, Linda ; Neckář, Jan (advisor) ; Žurmanová, Jitka (referee)
2. Abstract Opioids are considered as dangerous and addictive substances, mainly due to synthetic opioids such as heroin. It was discovered, that these substances can play an important role in myocardial ischemia because they can limit the damage of the heart tissue that occurs during a heart attack. Since that heart attack is the most common cardiovascular disease, the protective effect is significant. Cardioprotective effect is mainly mediated through δ opioid receptors, but the few studies have shown cardioprotective effect mediated through κ opioid receptors. The protective effect occurs by activation of opioid receptors by their agonists (eg. morphine or TAN-67), either before ischemia (opioid preconditioning) or before reperfusion (opioid postconditioning). The signaling pathway of cardioprotection include mitochondrial KATP channel, Gi/o proteins, protein kinase C, tyrosine kinases and reactive oxygen species.
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Cardioptrotective role of transcription factor HIF isoforms in rats
Bučinská, Ivana ; Žurmanová, Jitka (advisor) ; Pavlínková, Gabriela (referee)
Adaptation to chronic hypoxia is characterized by a variety of functional changes in order to maintain metabolic and energy homeostasis. It has been known for many years that both humans and animals indigenous or adapted to high-altitude hypoxia are more tolerant to an acute ischemic injury of the heart. HIF1α is found as a primary transcriptional regulator of adaptive response to hypoxia in all tissues, whereas HIF2α is more tissue specific. The activity of HIFα is regualted by prolyl hydoxylases (EGLN). The EGLN1 was shown to be more efficient in HIF1α hydroxylation than in HIF2α. As well as the EGLN3 is more specific for HIF2α . Under hypoxic conditions, HIF activates the transcription of about 70 genes. Hence, HIF1α and HIF2α can play an essential role in pathophysiology of ischemic heart disease. The aim of our study was to determine myocardial expression of HIFs and its regulatory hydroxylases in adult male Wistar rats adapted to continuous normobaric hypoxia (H; FIO2 = 0.1) for 3 weeks. Another two groups of rats were exposed to normobaric hypoxia intermittently for either 8 h/day (INH) or 23 h/day (RH) during the 3-week adaptation period. While H induces protective cardiac phenotype, the later regimen (RH) does not. The protein expression of HIFs, PHDs and FIH were then determined by...
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Mitochondrial subpopulations in rat myocardium - effect of chronic hypoxia
Kovalčíková, Jana ; Nováková, Olga (advisor) ; Žurmanová, Jitka (referee)
Adaptation to chronic hypoxia induces endogenous cardioprotection and increases the heart resistance to ischemia/reperfusion injury. The heart mitochondria, which produce reactive oxygen species (ROS) in addition to ATP, play an important role in these processes. During ischemia/reperfusion, ROS are produced in excessive amounts and damage the cells. However, in lower concentrations, ROS are involved in the signalling pathway of cardioprotection induced by adaptation to chronic hypoxia. In the heart, two mitochondrial subpopulations have been observed, subsarcolemmal mitochondria (SSM) and intermyofibrillar mitochondria (IMFM), which differ in cell localization as well as in morphological and biochemical properties. The aim of this work was to introduce the method of SSM and IMFM isolation in our laboratory and to analyse their antioxidative capacity after adaptation to chronic hypoxia. Adult male Wistar rats were kept either under normoxic conditions or exposed to intermittent high-altitude hypoxia (IHA; 7000 m, 5 days a week/8 hours a day, totally 25 exposures). Mitochondrial subpopulations were isolated from heart left ventricle and their functionality was verified by measuring oxygen consumption and enzyme activities. The IMFM had higher oxygen consumption in comparison with SSM and activities...
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The role of protein kinase B in cardioprotective mechanisms
Grešíková, Milada ; Žurmanová, Jitka (advisor) ; Hahnová, Klára (referee)
Cardiovascular disease is the most common cause of death worldwide and therefore it belongs to one of the most widespread diseases of modern civilization. For this reason, cardiovascular research focuses on unraveling mechanisms, which participate in protection of cardiac tissue. Protein kinase B (PKB/AKT) is an important regulator of cellular processes which could play a substantial role in protective mechanisms of the heart. There are 3 known isoforms of PKB/AKT, which differ in their localization and function, nevertheless all of them have an essential role in cardiomyocytes. PKB/AKT is involved in regulation of many cellular functions including cell proliferation, growth and energy metabolism, and it particularly takes part in the regulation of apoptosis. PKB/AKT controls the apoptotic pathway through regulation of pro- and anti-apoptotic proteins, hexokinase II, glycogen synthase kinase 3 and Ca2+ channels, by which it protects mitochondria and cardiomyocytes against cell death. That is why PKB/AKT is the center of attention of today's cardiovascular research and it could become one of the main therapeutic targets in the treatment of ischemia-reperfusion injury.
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The role of PCr/CK shuttle in adult rat myocardium under normoxic hypoxic conditions
Honcová, Lada ; Žurmanová, Jitka (advisor) ; Novotný, Jiří (referee)
The creatine kinase (CK) is an important enzyme of cell energy metabolism in excitable tissue. It occurs in four isoforms. Two cytosolic isoforms are functional in mono and hetero dimers and two mitochondrial isoforms reach tetramer and octamer forms. Its primary function is the regeneration of ATP close to ATPases and phosphocreatine pool from creatine and ATP, which gives its posphate in places of acute requirements of high energy demand. Dysfunction of CK is connected with heart, muscle and neurological diseases and CK is often used as a clinical indicator. This work is focused to the role of CK in energy metabolism of hypoxia adapted myocardium. CK thaks to production of ADP in mitochondria decreases a membrane potential as well as production of reactive oxygen species (ROS). ROS cause most of damage during ischemic heart disease and infarct of myocardium. That`s why cardioprotective effects and CK itself during hypoxia are investigated.
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The role of mitochondria in cardioprotective effect induced by hypoxia in rat
Lomnický, Matouš ; Žurmanová, Jitka (advisor) ; Hlaváčková, Markéta (referee)
Aerobic organisms need sufficient oxygen supply to maintain homeostasis. These organisms are frequently exposed in hypoxic environments naturally, and also occur in hypoxic states in various pathological conditions. Cardioprotective effect of hypoxia had been recognised more than 30 years ago; and later on, cardioprotective effects of ischemic preconditioning were discovered. Long term exposure to hypobaric hypoxia activates cardioprotective mechanisms, which lower the aftermathes of short term ischemia of myocardia and the effects of further health complications. The core of protective mechanisms has not yet been fully clarified. This work deals with the significance of mitochondria on cardioprotection during hypobaric hypoxia adaptation. This work describes physiological adaptive processes on selected animals on natural hypoxic conditions and also molecular mechanisms, examined on experimental models. Molecular mechanisms of the origins of cardioprotective effects discovered so far, mainly indicate PKC signal pathways through thyrosine kinase and mitogenes of activated kinase and also indicate an activation of sarcKATP-channels and mitoKATP-channels. Opening of these channels can protect mitochondria against a Ca2+ overload, or can lead to an increase in mitochondrial capacity which is possibly connected...
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Effect of nitrogen free radicals in rats heart under hypoxic condition
Cardová, Michaela ; Žurmanová, Jitka (advisor) ; Neckář, Jan (referee)
Since 1987 when the ability of cells was discovered to produce endogenous NO and its role in vascular vasodilatation was found, NO became to be the subject of examination by many scientists. NO is the important signaling molecule for now occurring in all important organ systems. This work is focused on its functionality in cardiac tissue under hypoxic stimulus. Effect of nitric oxide has been recently considered as cardioprotective, in spite of its known and well documented harmful influence. Most of the cytotoxic effects can be explained by peroxynitrit, which originates in the spontaneous reaction of NO with superoxid. The aim of this work is to summarize the most important effects of nitric oxide in the heart.
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Oxidative stress as the possible outcome of opioid treatment
Böhmová, Barbora ; Novotný, Jiří (advisor) ; Žurmanová, Jitka (referee)
Free radicals and reactive oxygen species are continuously formed in all aerobic organisms. They may be implicated in ethiology of some diseases such as cancer, atherosclerosis, rheumatoid arthritis, liver, renal, cardiovascular, and neurodegenerative diseases and premature aging. Free radicals and reactive oxygen species can also cause oxidative damage to important cellular components - proteins, lipids, and DNA. Cells are equipped with antioxidant systems to neutralize these radicals. The antioxidant system includes some vitamins (ascorbic acid, α-tocopherol, β-carotene) and enzymes, e.g., superoxide dismutase converting superoxide radical to hydrogen peroxide and molecular oxygen or catalase destroying H2O2. Another important H2O2-removing enzyme in human cells is glutathione peroxidase. Reduced activity of antioxidants leads to excessive production of free radicals resulting in oxidative stress. Opioids belong among pro-oxidants (chemicals inducting oxidative stress). Opioids can decrease activity of antioxidant enzymes and generate reactive oxygen species. The aim of this bachelor thesis is to gather information regarding the opioid ability to elicit oxidative stress. It briefly summarizes our current knowledge about opioids, oxidative stress, free radicals and antioxidants. Key words Opioids,...
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