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Thyroid tumors and their molecular genetic causes.
Šmídová, Barbora ; Dvořáková, Šárka (advisor) ; Soták, Matúš (referee)
The aim of this work is to summarize actual literature overview and to collect the up- to-date knowledge on genetic causes of the development of thyroid carcinomas. Thyroid carcinomas represent the most often endocrine malignancy and its incidence is still growing. This work describes all types of thyroid carcinomas derived from different cell types and are distinguished also according to the degree of differentiation. The main genetic changes in the tumor tissues of the medullary, papillary, follicular and anaplastic thyroid carcinoma are described. Thyroid carcinomas occur mostly in sporadic form, rarely as a familial disease. The causes of familial forms of thyroid carcinomas are also summarized and the main mutations in the germ-line DNA are identified. Key words: carcinoma, genetics, mutation, thyroid
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Endothelin system and the role of salt in hypertension
Čejková, Soňa ; Vaněčková, Ivana (advisor) ; Soták, Matúš (referee)
Although hypertension is studied for several decades, this problem is still not solved. Moreover, its incidence increases. Most cases of secondary hypertension is associated with the kidneys, the most important organ regulating the volume and ionic composition of body fluids. If the kidneys are damaged, or intake of salt is excessive, they are unable to fulfill their role and blood pressure (BP) increases. Especially salt contributes to secondary hypertension. Excessive salt intake increases the volume of body fluids and subsequently increases BP, and secondary act on the mechanisms regulating BP, mainly the renin-angiotensin system (RAS) and endotelin (ET) system. Endothelin-1 (ET 1) is the main active peptide of the ET system. ET-1 is one of the most potent vasoconstrictors. It acts through ET receptors type A and B (ETA and ETB receptors), which belong to the family of receptors coupled with G-proteins. The effects of ETA and ETB receptors differ depending on the type of cells where they are located. For example, ETB receptors in vascular smooth muscle contribute to vasoconstriction, whereas the same receptors on endothelial cells of blood vessels mediate vasodilation (stimulating the production of NO). In the kidney, ET system affects excretion of Na+and water and contribute to the regulation...
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Circadian regulation of sleep during ontogenesis in humans
Grieblová, Adéla ; Sumová, Alena (advisor) ; Soták, Matúš (referee)
The circadian system has evolved as an adaptation to periodically changing conditions on Earth. In mammals, and therefore in humans, the circadian system consists of the central and perip- heral oscillators generating a circadian rhythm. One of the most significant process exhibiting circadian rhythm is the sleep-wake cycle. Sleep is regulated by cooperation of circadian and homeostatic process. There are changes in circadian regulation of sleep during ontogenesis in human. The changes mainly releate to chronotype, i.e., to the diurnal preferences of activity and sleep. In the first years of life, there is a typical morning chronotype. In the end of first decade of life, the circadian phase begins to delay and reaches its maximal eveningness during ado- lescence. In adulthood, the preference changes again toward morning chronotype and reaches extreme morningness in elderly. Changes in circadian regulation of sleep during ontogenesis depend not only on age, but also on sex. 1
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Role of intestinal circadian clock in epithelial transport, proliferation, and tumourigenesis
Soták, Matúš ; Pácha, Jiří (advisor) ; Bendová, Zdeňka (referee) ; Herichová, Iveta (referee)
AABBSSTTRRAACCTT The molecular circadian clock enables anticipation of environmental changes. In mammals, clocks are ubiquitously present in almost all tissues and they are comprised of transcriptional-translational feedback loops of the so-called clock genes. The central clock represents the intrinsic pacemaker which is located in suprachiasmatic nuclei (SCN) of hypothalamus and synchronizes peripheral clocks. Clockwork system in alimentary tract and its regulatory link to intestinal functions are poorly understood. Therefore the objective of the thesis was to characterize molecular clock in particular parts of the rat intestine and to elucidate its link to the intestinal transport, regulation of cell cycle and neoplastic transformation in colonic tissue. We used quantitative RT-PCR (qPCR) to determine circadian profiles of mRNA expression of clock genes in the epithelium of duodenum, jejunum, ileum, and colon of rat. Furthermore, we analysed the expression of genes coding sodium chloride transporters and channels as well as cell cycle regulators in colon. To focus more precisely on different structures of intestinal epithelia we used laser capture microdissection. In addition, we performed Ussing chamber measurements to determine the colonic electrogenic transport. To study the contribution of circadian...
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Role of intestinal circadian clock in epithelial transport, proliferation, and tumourigenesis
Soták, Matúš
AABBSSTTRRAACCTT The molecular circadian clock enables anticipation of environmental changes. In mammals, clocks are ubiquitously present in almost all tissues and they are comprised of transcriptional-translational feedback loops of the so-called clock genes. The central clock represents the intrinsic pacemaker which is located in suprachiasmatic nuclei (SCN) of hypothalamus and synchronizes peripheral clocks. Clockwork system in alimentary tract and its regulatory link to intestinal functions are poorly understood. Therefore the objective of the thesis was to characterize molecular clock in particular parts of the rat intestine and to elucidate its link to the intestinal transport, regulation of cell cycle and neoplastic transformation in colonic tissue. We used quantitative RT-PCR (qPCR) to determine circadian profiles of mRNA expression of clock genes in the epithelium of duodenum, jejunum, ileum, and colon of rat. Furthermore, we analysed the expression of genes coding sodium chloride transporters and channels as well as cell cycle regulators in colon. To focus more precisely on different structures of intestinal epithelia we used laser capture microdissection. In addition, we performed Ussing chamber measurements to determine the colonic electrogenic transport. To study the contribution of circadian...
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Role of intestinal circadian clock in epithelial transport, proliferation, and tumourigenesis
Soták, Matúš
AABBSSTTRRAACCTT The molecular circadian clock enables anticipation of environmental changes. In mammals, clocks are ubiquitously present in almost all tissues and they are comprised of transcriptional-translational feedback loops of the so-called clock genes. The central clock represents the intrinsic pacemaker which is located in suprachiasmatic nuclei (SCN) of hypothalamus and synchronizes peripheral clocks. Clockwork system in alimentary tract and its regulatory link to intestinal functions are poorly understood. Therefore the objective of the thesis was to characterize molecular clock in particular parts of the rat intestine and to elucidate its link to the intestinal transport, regulation of cell cycle and neoplastic transformation in colonic tissue. We used quantitative RT-PCR (qPCR) to determine circadian profiles of mRNA expression of clock genes in the epithelium of duodenum, jejunum, ileum, and colon of rat. Furthermore, we analysed the expression of genes coding sodium chloride transporters and channels as well as cell cycle regulators in colon. To focus more precisely on different structures of intestinal epithelia we used laser capture microdissection. In addition, we performed Ussing chamber measurements to determine the colonic electrogenic transport. To study the contribution of circadian...
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Thyroid tumors and their molecular genetic causes.
Šmídová, Barbora ; Dvořáková, Šárka (advisor) ; Soták, Matúš (referee)
The aim of this work is to summarize actual literature overview and to collect the up- to-date knowledge on genetic causes of the development of thyroid carcinomas. Thyroid carcinomas represent the most often endocrine malignancy and its incidence is still growing. This work describes all types of thyroid carcinomas derived from different cell types and are distinguished also according to the degree of differentiation. The main genetic changes in the tumor tissues of the medullary, papillary, follicular and anaplastic thyroid carcinoma are described. Thyroid carcinomas occur mostly in sporadic form, rarely as a familial disease. The causes of familial forms of thyroid carcinomas are also summarized and the main mutations in the germ-line DNA are identified. Key words: carcinoma, genetics, mutation, thyroid
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Role of intestinal circadian clock in epithelial transport, proliferation, and tumourigenesis
Soták, Matúš ; Pácha, Jiří (advisor) ; Bendová, Zdeňka (referee) ; Herichová, Iveta (referee)
AABBSSTTRRAACCTT The molecular circadian clock enables anticipation of environmental changes. In mammals, clocks are ubiquitously present in almost all tissues and they are comprised of transcriptional-translational feedback loops of the so-called clock genes. The central clock represents the intrinsic pacemaker which is located in suprachiasmatic nuclei (SCN) of hypothalamus and synchronizes peripheral clocks. Clockwork system in alimentary tract and its regulatory link to intestinal functions are poorly understood. Therefore the objective of the thesis was to characterize molecular clock in particular parts of the rat intestine and to elucidate its link to the intestinal transport, regulation of cell cycle and neoplastic transformation in colonic tissue. We used quantitative RT-PCR (qPCR) to determine circadian profiles of mRNA expression of clock genes in the epithelium of duodenum, jejunum, ileum, and colon of rat. Furthermore, we analysed the expression of genes coding sodium chloride transporters and channels as well as cell cycle regulators in colon. To focus more precisely on different structures of intestinal epithelia we used laser capture microdissection. In addition, we performed Ussing chamber measurements to determine the colonic electrogenic transport. To study the contribution of circadian...
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