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Genetic factors of progression of selected forms of chronicnephropathies.
Šafaříková, Markéta ; Reiterová, Jana (advisor) ; Brdička, Radim (referee) ; Gaillyová, Renata (referee)
Nephrotic syndrome is characterized by proteinuria, hypoproteinemia, edemas and hyperlipidemia. It occurs in primary (e.g. focal segmental glomerulosclerosis, FSGS or minimal change disease, MCD) and in secondary glomerulopathies (e.g. kidney amyloidosis). In primary forms, great attention is paid to the potential genetic background of the disease and due to new molecular genetic methods genes, whose mutations cause different nephropathies (e.g. ACTN4 or INF2) were identified. The aims of presented doctoral thesis were following. Firstly, to continue the mutational analysis of ACTN4 that was described in the author's diploma thesis in other glomerulopathies. Secondly, to implement the mutational analysis of INF2 and subsequently analyse this gene in patients with FSGS/MCD and in patients from special group characterized by positive family history for end stage renal disease (ESRD) in combination with advanced chronic kidney disease (CKD) or already developed ESRD at the time of diagnosis. Thirdly, mutational analysis of NPHS2 and TRPC6 (methods implemented in laboratory earlier) in selected patients from the special group. Finally, expression analyses of genes important for podocyte function or connected with human immune system. This part also verifies the applicability of NPHS2/SYNPO expression...
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Genetic factors of progression of selected forms of chronicnephropathies.
Šafaříková, Markéta ; Reiterová, Jana (advisor) ; Brdička, Radim (referee) ; Gaillyová, Renata (referee)
Nephrotic syndrome is characterized by proteinuria, hypoproteinemia, edemas and hyperlipidemia. It occurs in primary (e.g. focal segmental glomerulosclerosis, FSGS or minimal change disease, MCD) and in secondary glomerulopathies (e.g. kidney amyloidosis). In primary forms, great attention is paid to the potential genetic background of the disease and due to new molecular genetic methods genes, whose mutations cause different nephropathies (e.g. ACTN4 or INF2) were identified. The aims of presented doctoral thesis were following. Firstly, to continue the mutational analysis of ACTN4 that was described in the author's diploma thesis in other glomerulopathies. Secondly, to implement the mutational analysis of INF2 and subsequently analyse this gene in patients with FSGS/MCD and in patients from special group characterized by positive family history for end stage renal disease (ESRD) in combination with advanced chronic kidney disease (CKD) or already developed ESRD at the time of diagnosis. Thirdly, mutational analysis of NPHS2 and TRPC6 (methods implemented in laboratory earlier) in selected patients from the special group. Finally, expression analyses of genes important for podocyte function or connected with human immune system. This part also verifies the applicability of NPHS2/SYNPO expression...
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Function and regulation of ETV4 and MSX1 transcription factors in colon cancer progression
Hrčkulák, Dušan ; Kříž, Vítězslav (advisor) ; Libusová, Lenka (referee)
Colon cancer causes approximately seven percent of all cancer-related deaths in the world and presumably due to modern lifestyle, it is also one of the most frequently diagnosed cancers. The inefficiency of standard treatment indicates the need for intensive research of molecular mechanisms of cancer development. The canonical Wnt signaling pathway is essential for maintenance of the progenitor phenotype of stem cells in crypts of the intestine and controls repopulation of the epithelia, in physiological conditions. However, aberrant activation leads to tumor formation. Although Wnt signaling in cancer has been subjected to thorough investigation, there is still a lot of questions concerning further branching of the pathway. As a model of Wnt/β-catenin triggered colorectal cancer, we use mice with mutated APC, which is the tumor suppressor involved in this pathway. Previous expression profiling of the intestinal tumors from relevant mice revealed two transcription factors: ETV4 and MSX1 which are significantly overexpressed in cancer cells. In this project we elucidate whether the overexpression is really tumor restricted and Wnt dependent or there is a crosstalk with another signal transduction pathway. We investigate the function and regulation of these transcription factors by synthetic reporter assays,...
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Impact of NKR-P1 polymorphism on Ly49 receptors expression in hybrid mouse strains (C57BL/6 x Balb/c, F10-12)
Holubová, Martina ; Fišerová, Anna (advisor) ; Vomastek, Tomáš (referee)
Impact of NKR-P1 polymorphism on Ly49 receptors expression in hybrid mouse strains (C57BL/6 x Balb/c, F10-12) Abstract Natural killer (NK) cells constitute the subpopulation of large granular lymphocytes which mediate spontaneous immune response against infected, transformed or allogeneic cells and thus represent an important component of the innate immunity. NK cells express a wide repertoir of surface receptors which can be either activating or inhibitory and which mediate NK cell recognition and regulation of cytolytic activity. NKR-P1 and Ly49 receptor families belong to the most important murine NK receptors. Both NKR-P1 and Ly49 families are members of C-type lectin-like superfamily of receptors encoded by natural killer gene complex (NKC) on chromosome 6 and include both activating and inhibitory members. The aim of this diploma thesis was to elucidate the impact of Nkr-p1c gene divergence on Ly49 receptors expression and to find out whether the Ly49 and Nkr-p1 gene clusters (which are localized on opposite ends of NKC) are inherited independently or whether the NKC domain is inherited as a complex. The second research interest was to illustrate the influence of the above mentioned divergence on cytotoxic activity of NK cells and tumor growth. In this study, inbred mouse strains C57BL/6 and Balb/c...
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