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The role of methylation of histone 3 on lysine 4 (H3K4) during mouse spermatogenesis
Blumenstein, Jan ; Trachtulec, Zdeněk (advisor) ; Král, Jiří (referee)
Epige eti ké odifika e hro ati u hrají z ač ou roli v regula i přístup osti DNA. odifika í je etyla e histo ů. V H a lysi u ěhe sper atoge eze yši do á í a to zej é a ve Běhe eioti ké profáze I do hází k hro ozo ů, a k eioti ké reko i a i. Tyto pro esy jsou kriti ký ode tvor y pohlav í h u ěk a jeji h selhá í vede k eioti ké zástavě a tí páde k poruše tvor y haploid í h u ěk. Histo ová etyltra sferáza PRDM9 hraje klíčovou roli v eioti ké reko i a e, e oť je zodpověd á za urče í progra ova ý h dvouřetěz ový h zlo ů v íste h zva ý h hotspoty. Ni é ě ge je důležitý i ve spe ia i, a to řed i tví fe o é u hy rid í sterility. Další i protei y, které se podílí a etyla i histo u H a lysi u ěhe sper atoge eze, jsou MLL KMT D , MLL KMT E a yší h varlate h ovše az ačují, že regula i této odifika e hro ati u podílí ví e ge ů. Avšak ejsou z á é ko krét í fu k e, které ají tyto z ývají í ge y ěhe vývoje sa čí h pohlav í h u ěk. Další zkou á í tě hto ge ů ohou ýt užiteč á pro o jas ě í částeč é e o úpl é eplod os Klíčová slova: eioti ká reko i a e, dvouřetěz ové zlo y, hy rid í sterilita, sper atoge eze, etyla e histo ů
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The Impact of Selected Endocrine Disruptors on Human Spermatogenesis
Vítků, Jana
Steroid hormones in testis play an important role in spermatogenesis, maintenance of the male reproductive tract, production of semen and the maintenance of secondary sex characteristics and libido. They are also discussed as a target for substances called endocrine disruptors (EDs). No complex study was conducted on evaluation of relationships between EDs and steroid spectrum in 2 biological fluids; seminal plasma and plasma. The aim of the PhD. thesis was to develop and validate a method for determination of bisphenol A (BPA) and steroid spectrum in plasma and seminal plasma and to shed more light into mechanisms of ED action and effects of BPA and polychlorinated biphenyls (PCBs) on human spermatogenesis and steroidogenesis. Two new liquid-chromatography mass spectrometry methods for determination of BPA and 11 steroids in plasma and seminal plasma were developed and validated. The methods were used for estimation of analyte concentrations in 191 men with a different degree of fertility. Concurrently, the levels of six congeners of PCBs, gonadotropins, selenium and zinc in plasma were estimated. Partial correlations adjusted for age and BMI were calculated to evaluate relationships between these analytes. Seminal BPA, but not plasma BPA, was negatively associated with sperm concentration...
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Effect of selected endocrine disruptors on the male mouse reproductive system in vivo
Žatecká, Eva ; Pěknicová, Jana (advisor) ; Kubelka, Michal (referee) ; Kaňka, Jiří (referee)
In our environment there are many compounds which can negatively influence humans and wildlife. Every day, a vast number of environmental pollutants are released into our environment and there is no way to avoid their exposure. Some of these compounds can even mimic endogenous hormones and interfere with our endocrine system (so called endocrine disruptors), which is the key regulatory system controlling almost all physiological processes in human and animal bodies. Also the reproductive system is largely regulated by various hormones, and their proper function is crucial for gamete formation, fertilization and embryo development. Environmental pollutants are therefore considered as one of the possible causes of increased infertility in human population. This prompted us to study the effect of two endocrine disruptors (tetrabromobisphenol A - TBBPA, and zearalenone - ZEA) on the male mouse reproductive system in vivo. According to our results, TBBPA is able to induce apoptosis as well as changes in the expression of selected testicular genes and sperm protamination. Our results also suggest that permanent exposure to TBBPA slightly enhances its effect in the next generation, depending on whether the parents have been affected or not. We hypothesized that differential protamination of the sperm DNA...
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The Impact of Selected Endocrine Disruptors on Human Spermatogenesis
Vítků, Jana ; Hill, Martin (advisor) ; Pohanka, Michal (referee) ; Lapčík, Oldřich (referee)
Steroid hormones in testis play an important role in spermatogenesis, maintenance of the male reproductive tract, production of semen and the maintenance of secondary sex characteristics and libido. They are also discussed as a target for substances called endocrine disruptors (EDs). No complex study was conducted on evaluation of relationships between EDs and steroid spectrum in 2 biological fluids; seminal plasma and plasma. The aim of the PhD. thesis was to develop and validate a method for determination of bisphenol A (BPA) and steroid spectrum in plasma and seminal plasma and to shed more light into mechanisms of ED action and effects of BPA and polychlorinated biphenyls (PCBs) on human spermatogenesis and steroidogenesis. Two new liquid-chromatography mass spectrometry methods for determination of BPA and 11 steroids in plasma and seminal plasma were developed and validated. The methods were used for estimation of analyte concentrations in 191 men with a different degree of fertility. Concurrently, the levels of six congeners of PCBs, gonadotropins, selenium and zinc in plasma were estimated. Partial correlations adjusted for age and BMI were calculated to evaluate relationships between these analytes. Seminal BPA, but not plasma BPA, was negatively associated with sperm concentration...
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The role of cohesin genes in the meiosis of male house mouse
Šebestová, Lenka ; Trachtulec, Zdeněk (advisor) ; Král, Jiří (referee)
Cohesin genes play an important role in cell division. They ensure proper chromosome segregation during mitosis and meiosis. This study is focused on the role of cohesin genes during meiosis in male house mouse (Mus musculus). At first, this study introduces key processes of mammalian meiosis. Next, the structure of cohesin complex is described; it consists of a heterodimer SMC proteins - SMC3 and SMC1α or SMC1β, which are enclosed to the ring by cleavable subunit RAD21, RAD21L or REC8. Fourth subunit - a STAG protein (STAG1, STAG2 or STAG3) associates with the cleavable subunit. Meiotic function of specific cohesin proteins (SMC1β, RAD21L, REC8 and STAG3) as deduced from the phenotypes of the deficiencies of their genes in male mouse is depicted. All these four genes are necessary for many processes during meiosis, - e.q. sister chromatid cohesion maintenance, synapsis and recombination. STAG3, SMC1β, and REC8 are necessary for centromeric cohesion. STAG3 and RAD21L are important for the assembly of the remaining cohesin subunits. The most important phenotype of deficiency of all four genes is the complete meiotic arrest in male prophase I. Therefore, cohesin research is important for the investigation of the causes of sterility in mammals. key words: cohesin, meiosis, spermatogenesis, mouse,...
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Targeted next generation sequencing of candidate genes responsible for impaired spermatogenesis and male infertility
Daňková, Michaela ; Liška, František (advisor) ; Holá, Dana (referee)
Infertility is a widespread health problem, caused by the male factor in about half of all cases, and in about a half of the infertile men the cause is unknown. In a significant number of these men, genetic etiology is assumed. Current routine methods of laboratory diagnostics, which include karyotype examination, exclusion of mutations in the CFTR gene, and Y chromosome microdeletions, do not usually reveal the cause of infertility. That is why researchers' efforts aim at detecting mutations in other genes that are causing male infertility. In recent years, animal models have been used to identify many genes necessary for fertility. Based on these findings, 12 candidate genes have been selected (CAPZA3, CDC14B, CDC42, CNTROB, CSNK2A2, GOPC, HOOK1, HRB, OAZ3, ODF1, RIMBP3, SPATA16) that are essential for spermatogenesis. Mouse or rat mutants in these genes are primarily associated with oligoasthenoteratozoospermia, since they are involved in sperm morphogenesis. However, the phenotype spectrum may comprise also azoospermia. The purpose of the thesis was to determine the sequence of the afore mentioned genes in infertile men with impaired spermatogenesis and to reveal presence or absence of pathogenic mutations in these genes, using cDNA and genomic DNA from peripheral blood. The candidate genes were...
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Maping of genes modifying the subspecies-specific roles of the meiotic gene Prdm9
Škaloudová, Eliška ; Trachtulec, Zdeněk (advisor) ; Schierová, Michaela (referee)
The PRDM9 (PR domain containing 9) protein is an epigenetic factor that trimethylates lysine 4 of histone H3 and thereby determines the future meiotic double-strand breaks - sites important for proper segregation of homologous chromosomes. Males of the Mus musculus domesticus (Mmd) origin with homozygous deletion in Prdm9 (Prdm9-/- ) are sterile with a complete arrest in meiotic prophase I, in contrast to the same mutant males of the M. m. musculus (Mmm) subspecies. The aim of this diploma thesis was to identify the genomic loci responsible for the phenotypic difference of these Prdm9-/- males. The major research tool was a population of 182 Mmm x Mmd Prdm9-/- males. The mapping method of quantitative trait loci (QTLs) was based on relating the genotypes of single-nucleotide and microsatellite polymorphisms to the observed phenotypes. At least two QTLs on Chr X were identified. The Mmm alleles of these QTLs reduced fertility of Prdm9-/- males. Both QTLs were confirmed and narrowed down using two types of subconsomic strains. It was not possible to confirm other QTLs, particularly on autosomes. This QTL mapping is the first step towards the identification of genes that modify the resulting phenotype of Prdm9-/- animals. This identification should help designing studies of human infertility that...
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Analysis of spermatogenesis in mice C57BL/6 after Toxoplasma gondii infection.
Šidlová, Adéla ; Hortová, Kateřina (advisor) ; Flegr, Jaroslav (referee)
Toxoplasma gondii is an intracellular parasite that causes a persistent infection in 10- 80% of the world's population, depending on geographic location. Infection with this parasite causes changes in behavior and physiological functions of an infected host, including warm- blooded animals including humans. Recent studies also show influence of infection with T.gondii on male reproductive fitness in mice and rat and to investigate this issue further became a task of my diploma thesis. In this study, detailed histometric screening of testicular function along with levels of a pituitary luteinizing hormone (LH) and screening of epigenetic modification of testicular DNA were analysed in infected and control mice. Testicular function and sperm production was significantly decreased in T. gondii positive group after a 30-day infection. The level of LH in urine of T. gondii infected mice was decreased compares to control and the number of leptotene primary spermatocytes and spermatids was lowered, but also number of Sertoli cells and tubule diameter were elevated. In epigenetic study the testicular epigenom was tested to measure global methylation and methylation of specific genes Hspa1, Crem and Creb1 which are essential for successfully ongoing spermatogenesis. The global level of methylation of...
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