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Electrochemical detection of purine metabolites and their isosters
Spružinová, Petra ; Vrána, Oldřich (referee) ; Jelen,, František (advisor)
Electrochemical analysis of some important purine derivatives from catabolic cycle of purine, and allantoin is presented. Determination is based on the forming of purine Cu (I) complex on the mercury or carbon paste electrode. Electrochemical stripping by suitable change of potential results in voltammetric signal, which reflects purine concentration in the sample. Procedure was optimalized and calibration curves were measured.
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Pathophysiological and genetic factors affecting serum uric acid level.
Hasíková, Lenka ; Závada, Jakub (advisor) ; Hrnčíř, Zbyněk (referee) ; Horák, Pavel (referee)
Introduction: Serum uric acid level (SUA) depends on the balance between its production and excretion. SUA is associated with several transmembrane proteins responsible for reabsorption (mainly URAT1 and GLUT9) and secretion (ABCG2) on the apical and basolateral membranes of the proximal tubules in the kidney, and in the case of ABCG2, it also correlates with its significant excretion through the gastrointestinal tract. Gout is a metabolic disease caused by the deposition of urate crystals in the joints and tissues. Chronic hyperuricemia is a primary risk factor for the development of gout; however, gout patients usually have a lower SUA during an acute gout attack than in the intercritical periods. The exact mechanism of this phenomenon is unknown. It has been speculated that the systemic inflammatory response can explain this discrepancy. The aim of the study is to determine whether treatment with specific inhibitors of the proinflammatory cytokine TNF (TNFi) affects SUA in patients with systemic rheumatic disease (SRD), and whether changes in SUA correlate with changes in selected proinflammatory cytokines or with the biomarker of oxidative stress, allantoin. Another aim is to determine the frequency and effect of allelic variants in the ABCG2 urate transporter gene in patients with primary...
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Electrochemical biosensors with spatially separated enzymatic and detection parts for selective analysis in flow-through arrangement
Tvorynska, Sofiia ; Barek, Jiří (advisor) ; Labuda, Ján (referee) ; Korecká, Lucie (referee)
This dissertation thesis presents the newly developed four highly reusable, stable as well as simple, and cost-effective electrochemical (bi)enzymatic biosensors for the selective and reliable determination of choline, acetylcholine, uric acid, and L-lactic acid in flow injection analysis. All biosensors are based on the concept of the spatial separation of the biorecognition part from detection one and amperometric monitoring of the enzymatically consumed oxygen via its four-electron reduction at the highly negative detection potential. In this way, the design of the biosensors includes an easily replaceable enzymatic mini-reactor(s) connected upstream to the flow cell that contains the appropriate silver amalgam-based transducer. The enzymatic mini-reactor based on choline oxidase, uricase, or lactate oxidase was used for choline, uric acid, or L-lactic acid biosensors, respectively. The acetylcholine bienzymatic biosensor includes the consequently connected choline oxidase- and acetylcholinesterase-based mini-reactors. The first part of this thesis focuses on the construction of two different silver amalgam-based electrodes. Specifically, this section discusses the fabrication of a silver solid amalgam electrode covered by mercury film operating in a wall-jet cell and also highlights the...
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Urat transportosome: recent knowledge of physiology and pathophysiology
Eisenreichová, Bára ; Stibůrková, Blanka (advisor) ; Janečková, Hana (referee)
The main topic and aim of this bachelor thesis is the description of the urate transportosome, its physiology and pathophysiology. The term "urate transportosome" collectively refers to the urate transporters that are predominantly located on the apical or basolateral membrane of the proximal tubule of the kidney. Here their main role is the transport of uric acid in the body. Uric acid is the end product of purine metabolism, if its physiological serum level decreases or increases, this condition is referred to as dysuricemia. Primary dysuricemia can be divided into hypouricemia and hyperuricemia. Both of these conditions result from a disorder of uric acid metabolism or transport. Key words: Uric acid, urate transport, dysuricemia, gout
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Identification of basolateral localization motifs of the urate transporter GLUT9 using functional studies.
Pácalová, Eliška ; Krylov, Vladimír (advisor) ; Pavelcová, Kateřina (referee)
The GLUT9 transporter, coded by the SLC2A9 gene, is one of the key proteins enabling the trasnfer of uric acid across the membrane in epithelial cells of the proximal tubule. In humans, this protein is naturally expressed in two variants: long (GLUT9L) and short (GLUT9S), which differ from one another by their N-terminus sequence. Each of these isoforms is localized on a different pole of the epithelial cell. The signal sequence/motif responsible for this difference is presumed to be located in the aforementioned N-terminus domain. Numerous allelic variants influencing the transport properties of the protein have also been described. The first aim of this thesis is to verify the influence of a newly discovered variant, characterized by substituting of valine for leucine in the 114th position (V114L, in the short form its corresponding variant V85L) on the ability to transport uric acid. Second aim is to verify the influence of mutations in selected motifs, which could be responsible for the localization of the protein, thus also changing its transport properties. Two dileucine motifs 12LGL14 and 33LL34 and one tyrosine motif 84YIKA87 were tested. Functional studies using 14 C radiolabeled urate demonstrated significant decrease of transport ability for the V114L/V85L allelic variant in both...
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Epithelial uric acid transport proteins and their allelic variants
Vrzáčková, Aneta ; Tlapáková, Tereza (advisor) ; Pavelcová, Kateřina (referee)
In humans, uric acid is the end product of purine metabolism and it is excreted from the body on the one hand by the epithelium lining the tubules of the nephrons, and on the other hand by the intestinal epithelium. This work aims to verify the activity of three candidate transporters from the SLC family (SLC2215, SLC22A18 and SLC47A1) that could transport uric acid in the intestinal epithelium. Preliminary results did not demonstrate that these transporters are involved in uric acid transport in the intestinal epithelium. Furthermore, the work deals with the influence of the W75C allelic variant of the SLC17A1 transporter and the mechanism by which this variant affects the transport of urate in cells. Key words: SLC22A15, SLC22A18, SLC47A1, SLC17A1, transport, epithel, uric acid
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Construction and application of the amperometric uric acid biosensors based on the covalent immobilization of uricase by different strategies
Tvorynska, Sofiia ; Barek, J. ; Josypčuk, Bohdan
In this work, a promising combination of a biosensor based on the\nenzymatic mini-reactor with the detection principle of four-electron\nreduction of the consumed oxygen at highly negative potential has\nbeen developed for uric acid determination using flow injection\nanalysis. The construction of the biosensor provides a spatial\nsegregation of the biorecognition (uricase-based mini-reactor) and\ndetection (tubular detector of silver solid amalgam (TD-p-AgSA))\nparts. To find out the most appropriate enzyme immobilization\nprotocol, three different strategies of the covalent attachment for\nuricase from Bacillus fastidiosus have been compared. It was found\nthat the biosensor with the mini-reactor based on the covalent\nattachment of uricase via glutaraldehyde to -NH2 functionalized\nmesoporous silica powder MCM-41 showed extremely high stability\n(>1 year) and reusability (at least 600 measurements) The biosensor's\npractical applicability was confirmed by successful determination\nof uric acid in human urine.
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Metabolism of uric acid during mammalian evolution
Mančíková, Andrea ; Krylov, Vladimír (advisor) ; Stibůrková, Blanka (referee)
Uric acid is the end product of purine metabolism of humans and some higher primates. In other mammals enzyme urate oxidase is capable to further convert uric acid to allantoin. During evolution of primates several mutations in urate oxidase gene had occured, led the enzyme to decrease its activity or to complete loss of function. What was the initial impetus for the utilization of uric acid and what biochemical traits of uric acid led to a tendency to retain a major of this metabolite production in the bloodstream? Uric acid has antioxidant capabilities and it is scavanger of free radicals. Increased levels of uric acid in blood has an effect on acute and chronic elevations of blood pressure. It is possible that hyperuricemia helped to maintain blood pressure under low-salt dietary conditions of primates during the Miocene. This mechanism probably have allowed to stabilize bipedalism our ancestors. Uric acid has an important role as a neuroprotector. As inhibitor the permeability blood-brain barrier, uric acid limits the infiltration of undesirable substances to the neurons and prevents central nervous system against the formation of inflammatory diseases. Such as neurodegenerative diseases may be caused by reduced serum uric acid levels. Uric acid protects against peroxinitrite damage tissues in the...
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Molecular Pathophysiology of Primary Hyperuricemia and Gout
Bohatá, Jana ; Stibůrková, Blanka (advisor) ; Hrnčíř, Zbyněk (referee) ; Friedecký, David (referee)
Primary hyperuricemia, as a condition of elevated serum uric acid levels, is caused by various factors and necessarily precedes a form of inflammatory arthritis referred to as gout. Uric acid is the end product of purine catabolism and requires specialized proteins for its transport. Pathogenic variants in the genes for these transport proteins can have a major negative impact on their function, thereby affecting the resulting serum uric acid levels. However, chronically elevated uric acid levels are not the only predisposition to the development of gout. Other factors, such as epigenetic mechanisms or genetic predispositions to inflammatory conditions caused by immune dysregulation, are likely to play a role in disease progression. The aim of the study was to analyse damaging variants in genes for important urate transporters ABCG2, SLC22A12 and SLC2A9, which may cause impaired excretion or reabsorption of uric acid and thus contribute to the development of primary hyperuricemia and gout, or rare hereditary renal hypouricemia. We also focused on circulating miRNAs in the plasma of patients with primary hyperuricemia, gout and gout attack. We identified and functionally characterized over ten rare nonsynonymous variants in the ABCG2 gene. Most of these variants had a negative impact on protein...
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The effect of urate transporter polymorphisms on uric acid excretion
Mančíková, Andrea ; Krylov, Vladimír (advisor) ; Novotný, Jiří (referee) ; Ježek, Petr (referee)
Uric acid excretion disorders are the most common cause of primary dysuricemia. The kidneys eliminate two-thirds of uric acid production and the other third is eliminated in the gastrointestinal tract. Renal reabsorption and secretion occur through the polarised epithelial cells in the proximal tubules. Uric acid transporters are expressed on these cell membranes. Reabsorption deficiency leads to hypouricemia and elevated fraction excretion associated with urolithiasis, nephrolithiasis or acute renal injury. Decreased uric acid secretion in the kidneys and small intestine leads to hyperuricemia, which develops into gout in 10% of individuals. Genome wide association studies detected a strong effect of SLC22A12 (URAT1), SLC2A9 (GLUT9) reabsorbing transporters and ABCG2 (ABCG2) secreting transporter on uric acid serum concentration variability. This thesis aimed to map out urate transporter allelic variants in a cohort of primary dysuricemia patients and identification of the variants causing defective uric acid excretion. Six non-synonymous variants were described in SLC22A12 (URAT1) and SLC2A9 (GLUT9) genes in hypouricemic individuals, which had not been identified previously in any population studies. Significant decreases in uric acid transport have been demonstrated experimentally in vitro,...
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