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Cardioprotective effect of adaptations to hypoxia and cold: Connexin 43 and hexokinase 2
Kohútová, Jana ; Žurmanová, Jitka (advisor) ; Radošinská, Jana (referee) ; Barančík, Miroslav (referee)
Ventricular arrhythmias are the main cause of death worldwide. An increased incidence of arrhythmias in the heart of mammals is accompanied by a remodeling of the cellular distribution gap between the channels of mainly connexin 43 (Cx43). Recently has been demonstrated significant effect of mitochondria and their association with arrhythmogenesis. Various pathological conditions alter the expression and / or distribution of Cx43, depending on the phosphorylation status. but also on altering the association of hexokinase with mitochondria, which reduces the likelihood of apoptosis activation. Adaptation to intermittent hypobaric hypoxia potentiates endogenous pathways reducing the incidence of ventricular arteries, whereas continuous normobaric hypoxia does not have this effect. Another studied model is cold acclimatization, which has been known for several decades by known effects on human health. However, the heart study of these models in relation to Cx43 is missing. Our goal was to determine the expression of Cx43, phosphorylated Cx43 (p-Cx43) and hexokinase (HK1, HK2) and their distribution in cardiomyocytes. In addition, the expression of Cx43 upstream kinases, protein kinase A, protein kinase G, casein kinase 1 in normoxic and hypoxic left ventricles of rats, along with Cx43 distribution...
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Cardioprotective effect of adaptations to hypoxia and cold: Connexin 43 and hexokinase 2
Kohútová, Jana
Ventricular arrhythmias are the main cause of death worldwide. An increased incidence of arrhythmias in the heart of mammals is accompanied by a remodeling of the cellular distribution gap between the channels of mainly connexin 43 (Cx43). Recently has been demonstrated significant effect of mitochondria and their association with arrhythmogenesis. Various pathological conditions alter the expression and / or distribution of Cx43, depending on the phosphorylation status. but also on altering the association of hexokinase with mitochondria, which reduces the likelihood of apoptosis activation. Adaptation to intermittent hypobaric hypoxia potentiates endogenous pathways reducing the incidence of ventricular arteries, whereas continuous normobaric hypoxia does not have this effect. Another studied model is cold acclimatization, which has been known for several decades by known effects on human health. However, the heart study of these models in relation to Cx43 is missing. Our goal was to determine the expression of Cx43, phosphorylated Cx43 (p-Cx43) and hexokinase (HK1, HK2) and their distribution in cardiomyocytes. In addition, the expression of Cx43 upstream kinases, protein kinase A, protein kinase G, casein kinase 1 in normoxic and hypoxic left ventricles of rats, along with Cx43 distribution...
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The role of mitochondrial creatine kinase and hexokinase in cardioprotective mechanisms induced by chronic hypoxia
Wasková, Petra
IN ENGLISH The ischemia-reperfusion (I/R) injury, which is a consequence of myocardial infarction, represents a major cause of death worldwide. One of the most effective cardioprotective interventions increasing the resistance of hearts to the I/R injury is the adaptation to a chronic hypoxia (CH). However, the molecular mechanisms of CH are still not well understood. The most important factors responsible for the I/R injury are reactive oxygen species (ROS) produced by complexes I and III within the mitochondrial electron transport chain. Potential candidates maintaining ROS at a low level are mitochondrial creatine kinase (mtCK) and two hexokinase isoforms (HK1 and HK2). These enzymes highly support the mitochondrial oxidative phosphorylation by increasing the availability of ADP for complex V of the respiratory chain. In addition, the HK binding to mitochondria inhibits binding of the pro- apoptotic protein BAX, thereby protecting cardiac cells against apoptosis. Besides the mitochondrial CK isoform, there are two cytosolic CK (CKM and CKB) present in cardiomyocytes that help to maintain energy homeostasis. Based on the known anatomical and physiological differences between the left (LV) and the right (RV) ventricles, the first study focused on the comparing ventricles in terms of the energy...
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Cardioprotective effect of adaptations to hypoxia and cold: Connexin 43 and hexokinase 2
Kohútová, Jana
Ventricular arrhythmias are the main cause of death worldwide. An increased incidence of arrhythmias in the heart of mammals is accompanied by a remodeling of the cellular distribution gap between the channels of mainly connexin 43 (Cx43). Recently has been demonstrated significant effect of mitochondria and their association with arrhythmogenesis. Various pathological conditions alter the expression and / or distribution of Cx43, depending on the phosphorylation status. but also on altering the association of hexokinase with mitochondria, which reduces the likelihood of apoptosis activation. Adaptation to intermittent hypobaric hypoxia potentiates endogenous pathways reducing the incidence of ventricular arteries, whereas continuous normobaric hypoxia does not have this effect. Another studied model is cold acclimatization, which has been known for several decades by known effects on human health. However, the heart study of these models in relation to Cx43 is missing. Our goal was to determine the expression of Cx43, phosphorylated Cx43 (p-Cx43) and hexokinase (HK1, HK2) and their distribution in cardiomyocytes. In addition, the expression of Cx43 upstream kinases, protein kinase A, protein kinase G, casein kinase 1 in normoxic and hypoxic left ventricles of rats, along with Cx43 distribution...
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Cardioprotective effect of adaptations to hypoxia and cold: Connexin 43 and hexokinase 2
Kohútová, Jana ; Žurmanová, Jitka (advisor) ; Radošinská, Jana (referee) ; Barančík, Miroslav (referee)
Ventricular arrhythmias are the main cause of death worldwide. An increased incidence of arrhythmias in the heart of mammals is accompanied by a remodeling of the cellular distribution gap between the channels of mainly connexin 43 (Cx43). Recently has been demonstrated significant effect of mitochondria and their association with arrhythmogenesis. Various pathological conditions alter the expression and / or distribution of Cx43, depending on the phosphorylation status. but also on altering the association of hexokinase with mitochondria, which reduces the likelihood of apoptosis activation. Adaptation to intermittent hypobaric hypoxia potentiates endogenous pathways reducing the incidence of ventricular arteries, whereas continuous normobaric hypoxia does not have this effect. Another studied model is cold acclimatization, which has been known for several decades by known effects on human health. However, the heart study of these models in relation to Cx43 is missing. Our goal was to determine the expression of Cx43, phosphorylated Cx43 (p-Cx43) and hexokinase (HK1, HK2) and their distribution in cardiomyocytes. In addition, the expression of Cx43 upstream kinases, protein kinase A, protein kinase G, casein kinase 1 in normoxic and hypoxic left ventricles of rats, along with Cx43 distribution...
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Localization of cytosolic isoforms of creatine kinase and hexokinase in hypertrophied heart
Heleš, Mário ; Žurmanová, Jitka (advisor) ; Mrózková, Petra (referee)
Hypertrophy of the heart is tightly bound to the metabolic adaptations and a cellular remodeling. An important and dynamic system contributing to the maintenance of energy homeostasis is the creatine kinase system (CK). The microcompartmentalization of CK isoforms maintains the flux of ATP between energy production and consumption sites and ensures the effectiveness of the CK system. Changes in expression and activity of CK isoforms during hypertrophy are already well described - to extend this knowledge, this thesis quantified changes in association of cytosolic CK isoforms and sarcomeres. Another essential system, maintaining homeostasis in overloaded heart is composed of the hexokinase (HK) isoforms, located also in cytosol and in mitochondrial compartment. HK1 is associated with mitochondria under physiological conditions, maintaining mitochondrial membrane potential, while HK2 is located mainly in the cytosol. Under stress conditions translocation of HK2 into mitochondrial membrane occurs, which increases the direct supply of ADP to complex V of the respiratory chain and decreases the probability of apoptosis activation. We analyzed association of individual HK isoforms with mitochondria within the second aim of this thesis. Third aim of the thesis was to characterize changes in the CK and M...
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The role of mitochondrial creatine kinase and hexokinase in cardioprotective mechanisms induced by chronic hypoxia
Wasková, Petra
IN ENGLISH The ischemia-reperfusion (I/R) injury, which is a consequence of myocardial infarction, represents a major cause of death worldwide. One of the most effective cardioprotective interventions increasing the resistance of hearts to the I/R injury is the adaptation to a chronic hypoxia (CH). However, the molecular mechanisms of CH are still not well understood. The most important factors responsible for the I/R injury are reactive oxygen species (ROS) produced by complexes I and III within the mitochondrial electron transport chain. Potential candidates maintaining ROS at a low level are mitochondrial creatine kinase (mtCK) and two hexokinase isoforms (HK1 and HK2). These enzymes highly support the mitochondrial oxidative phosphorylation by increasing the availability of ADP for complex V of the respiratory chain. In addition, the HK binding to mitochondria inhibits binding of the pro- apoptotic protein BAX, thereby protecting cardiac cells against apoptosis. Besides the mitochondrial CK isoform, there are two cytosolic CK (CKM and CKB) present in cardiomyocytes that help to maintain energy homeostasis. Based on the known anatomical and physiological differences between the left (LV) and the right (RV) ventricles, the first study focused on the comparing ventricles in terms of the energy...
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The role of mitochondrial creatine kinase and hexokinase in cardioprotective mechanisms induced by chronic hypoxia
Wasková, Petra ; Žurmanová, Jitka (advisor) ; Drahota, Zdeněk (referee) ; Nováková, Olga (referee)
IN ENGLISH The ischemia-reperfusion (I/R) injury, which is a consequence of myocardial infarction, represents a major cause of death worldwide. One of the most effective cardioprotective interventions increasing the resistance of hearts to the I/R injury is the adaptation to a chronic hypoxia (CH). However, the molecular mechanisms of CH are still not well understood. The most important factors responsible for the I/R injury are reactive oxygen species (ROS) produced by complexes I and III within the mitochondrial electron transport chain. Potential candidates maintaining ROS at a low level are mitochondrial creatine kinase (mtCK) and two hexokinase isoforms (HK1 and HK2). These enzymes highly support the mitochondrial oxidative phosphorylation by increasing the availability of ADP for complex V of the respiratory chain. In addition, the HK binding to mitochondria inhibits binding of the pro- apoptotic protein BAX, thereby protecting cardiac cells against apoptosis. Besides the mitochondrial CK isoform, there are two cytosolic CK (CKM and CKB) present in cardiomyocytes that help to maintain energy homeostasis. Based on the known anatomical and physiological differences between the left (LV) and the right (RV) ventricles, the first study focused on the comparing ventricles in terms of the energy...
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