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Electrophysiological characterization of Kir2.1 membrane channel
Měsíčková, Klára ; Chmelíková, Larisa (referee) ; Svoboda, Ondřej (advisor)
The topic of this thesis is electrophysiological characterization of Kir2.1 membrane channel. Inward rectifier potassium channel Kir2.1 is located in muscular, heart and nerve cells and its dysfunction causes various diseases. Practical part of this stage is focused on cultivation of the HEK293T cell line that is used to transfection of the plasmid Kir2.1 and subsequent measurement of the ionic current through the electrophysiological method patch-clamp in whole-cell mode.
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Simulation of electrophysiological experiments
Kubáček, Svatopluk ; Provazník, Ivo (referee) ; Rychtárik, Milan (advisor)
Simulation of electrophysiological experiments enables to gain valuable data about bioelectrical processes occurring on isolated cells. This thesis deals with basic principals allowing the creation of bioelectrical phenomenons and measuring techniques that need to be used in order to collect information about these phenomenons. The outcome of the thesis is a programme that serves as an instrument for simulation of measuring techniques applied on Luo-Rudy model. The programme contains basic measuring techniques – current clamp and voltage clamp – providing the possibility to change basic parameters of the model. The results of this work are later compared with the accessible literature.
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Optimization of a method for the determination of inorganic ions using capillary electrophoresis
Špačková, Simona ; Bezděková, Jaroslava (referee) ; Vaculovičová, Markéta (advisor)
Inorganic ions are one of the most important group chemicals. Their importance is crucial for all living organisms on the planet and monitoring of their content is essential for this purpose in clinical or environmental analysis but also in the food industry, agriculture or many other industries. Many analytical methods for ion detection have been designed and used, depending on the area of their use. Recently, numerous methods have been adapted to areas where not primarily intended. One such methods may be, for example, laser ablation with inductively coupled plasma mass spectrometry, which has recently begun to affect the analysis of biological samples. As a complementary method, able to detect also non-metallic ions is capillary electrophoresis. In this master thesis, the possibility of applying capillary electrophoresis with indirect photometric detection for the separation of inorganic ions in cell lysates of HeLa cells by capillary electrophoresis was verified. Main attention was paid to chloride ions. The ability to separate inorganic compounds in cellular material using salicylic acid as an absorbing anion in the base electrolyte was tested.
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The ion channel TRPV1 and its role in dendritic cells and macrophages
Trnková, Nella ; Krulová, Magdaléna (advisor) ; Vlachová, Viktorie (referee)
This bachelor's thesis deals with the TRPV1 channel and its role in cells of the innate immune system, such as dendritic cells and macrophages. TRPV1 is a membrane ion channel that is activated by physical stimuli such as pH and temperature as well as by substances from the vanilloid group. The most significant of these is capsaicin. Activation of the TRPV1 channel has several effects on different types of cells. Based on the literature review, the bachelor's thesis concludes that the TRPV1 channel tends to lead dendritic cells to have an anti- inflammatory effect. However, there is evidence for both an anti-inflammatory and a pro-inflammatory response in macrophages and the role of TRPV1 is unclear in this cell type. Thus, further research is needed to understand the exact mechanisms of modulation of immune responses and to clarify the role of the TRPV1 channel. Key words: ion channels, TRPV1, capsaicin, dendritic cells, macrophages
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Identification of new neuroactive steroids that are able to interact with allosteric binding sites on purinergic P2X receptors
Sivčev, Sonja ; Zemková, Hana (advisor) ; Vyklický, Vojtěch (referee) ; Stojilkovic, Stanko S. (referee)
(EN) Purinergic P2X receptors are ATP-gated cation channels with multiple physiological roles and are emerging as important therapeutic targets in a range of diseases. P2X subunit consists of two transmembrane helices (TM1 and TM2), an extracellular ATP-binding domain, and intracellular N- and C- termini. Seven different P2X subunits (P2X1-7) can assemble to form homotrimeric or heterotrimeric ion channels permeable for monovalent cations and calcium. P2X are ubiquitously expressed. Among them, P2X2, P2X4, and P2X7 are the most abundant within the brain. The activity of P2X depends not only on the presence of ATP but also on allosteric modulators that may inhibit or potentiate the activity of these channels. Our aim was to identify new molecules that could interact with allosteric binding sites on P2X receptors, design and synthesize new analogues of neurosteroids, and define crucial receptor domains and amino acids important for neurosteroid binding. By using a patch-clamp electrophysiology technique we recorded ATP-induced currents in HEK293T cells transfected with rat P2X2, P2X4, and P2X7, as well as in the rat anterior pituitary cells and hypothalamic neurons endogenously expressing these receptors. We found that 17β-ester derivatives of testosterone, namely testosterone butyrate and...
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Neurosteroid modulation of ligand-gated ion-channel activity
Krausová, Barbora ; Vyklický, Ladislav (advisor) ; Moravec, Jan (referee)
The term neurosteroids refers to steroids that are synthetized in the nervous tissue from cholesterol or steroidal precursors from peripheral sources. These compounds affect the neuronal excitability by modulating the function of some ligand-gated ion channels. NMDA (N methyl D aspartate) receptors are glutamate gated ion channels involved in excitatory synaptic transmission, synaptic plasticity and excitotoxicity. GABAA ( aminobutyric acid type A) receptors mediate most of the inhibitory synaptic transmission in the mammalian brain and are targeted by many clinically important drugs. Function of NMDA and GABAA receptors can by affected by neurosteroids, both positively and negatively. The aim of this work is to summarize the current knowledge about the neurosteroid effects on the function of GABAA a NMDA receptors and suggest the physiological role and the potential therapeutic use of the neurosteroids as a regulator of some functions of the central nervous system.
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Calcium signalling in astrocytes under physiological and pathological conditions
Svatoňová, Petra ; Anděrová, Miroslava (advisor) ; Kolář, David (referee)
Calcium signalling in astrocytes represents an important component, which enables proper neuronal functioning under physiological conditions. Alterations in Ca2+ signalling, accompanied by an increase in intracellular calcium levels is a hallmark for numerous pathological states of central nervous system, such as traumatic and ischemic brain/spinal cord injuries, epilepsy as well as neurodegenerative diseases, such as Alzheimer's disease and psychiatric disorders, such as schizophrenia. The research analyzing the molecular components of astrocytic Ca2+ signalling can help us understand the control mechanisms used in calcium signalling and thus be greatly beneficial for further therapeutic research. Powered by TCPDF (www.tcpdf.org)
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The role of astrocytes in the formation of brain edema
Heřmanová, Zuzana ; Anděrová, Miroslava (advisor) ; Pačesová, Dominika (referee)
Brain edema is a cause of mortality accompanying number of pathologies such as ischemia, traumatic brain injury, tumors or liver and kidney failure. It is described as a process of osmotic and water flux alterations, which lead to cell volume changes and to an increase in intracranial pressure. Brain edema is usually classified into two types: vasogenic and cytotoxic. Development of vasogenic edema is connected to the blood brain barrier disruption. Water accumulates in the extracellular space and exerts pressure on the cellular compartments of the tissue. The cytotoxic type of edema is characterized by water accumulation within the cells. The process of cellular volume enlargement is termed cellular swelling. Cytotoxic swelling is usually connected to glial cells, namely astrocytes, as these cells represent a part of the blood brain barrier and thus they influence homeostasis inside the brain. Water flows across cytoplasmic membrane through a system of specialized channels - aquaporins. For the brain edema formation, aquaporin 4 is the most important. It is localized on astrocytic membranes and using aquaporin-null mice, it has been shown, that it participates in water clearance in physiological and pathological conditions. Since the water fluxes are passive, the driving force for edema formation...
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Optimization of a method for the determination of inorganic ions using capillary electrophoresis
Špačková, Simona ; Bezděková, Jaroslava (referee) ; Vaculovičová, Markéta (advisor)
Inorganic ions are one of the most important group chemicals. Their importance is crucial for all living organisms on the planet and monitoring of their content is essential for this purpose in clinical or environmental analysis but also in the food industry, agriculture or many other industries. Many analytical methods for ion detection have been designed and used, depending on the area of their use. Recently, numerous methods have been adapted to areas where not primarily intended. One such methods may be, for example, laser ablation with inductively coupled plasma mass spectrometry, which has recently begun to affect the analysis of biological samples. As a complementary method, able to detect also non-metallic ions is capillary electrophoresis. In this master thesis, the possibility of applying capillary electrophoresis with indirect photometric detection for the separation of inorganic ions in cell lysates of HeLa cells by capillary electrophoresis was verified. Main attention was paid to chloride ions. The ability to separate inorganic compounds in cellular material using salicylic acid as an absorbing anion in the base electrolyte was tested.
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