TY - JOUR A1 - Wenz, Jan A1 - Arndt, Felix A1 - Samnick, Samuel T1 - A new concept for the production of \(^{11}\)C-labelled radiotracers JF - EJNMMI Radiopharmacy and Chemistry N2 - Background The GMP-compliant production of radiopharmaceuticals has been performed using disposable units (cassettes) with a dedicated synthesis module. To expand this “plug ‘n’ synthesize” principle to a broader scope of modules we developed a pressure controlled setup that offers an alternative to the usual stepper motor controlled rotary valves. The new concept was successfully applied to the synthesis of N-methyl-[\(^{11}\)C]choline, L-S-methyl-[\(^{11}\)C]methionine and [11C]acetate. Results The target gas purification of cyclotron produced [\(^{11}\)C]CO\(_2\) and subsequent conversion to [\(^{11}\)C]MeI was carried out on a TRACERlab Fx C Pro module. The labelling reactions were controlled with a TRACERlab Fx FE module. With the presented modular principle we were able to produce N-methyl-[\(^{11}\)C]choline and L-S-methyl-[\(^{11}\)C]methionine by loading a reaction loop with neat N,N'-dimethylaminoethanol (DMAE) or an ethanol/water mixture of NaOH and L-homocysteine (L-HC), respectively and a subsequent reaction with [\(^{11}\)C]MeI. After 18 min N-methyl-[\(^{11}\)C]choline was isolated with 52% decay corrected yield and a radiochemical purity of > 99%. For L-S-methyl-[\(^{11}\)C]methionine the total reaction time was 19 min reaction, yielding 25% of pure product (> 97%). The reactor design was used as an exemplary model for the technically challenging [\(^{11}\)C]acetate synthesis. The disposable unit was filled with 1 mL MeMgCl (0.75 M) in tetrahydrofuran (THF) bevore [\(^{11}\)C]CO\(_2\) was passed through. After complete release of [\(^{11}\)C]CO\(_2\) the reaction mixture was quenched with water and guided through a series of ion exchangers (H\(^+\), Ag\(^+\) and OH\(^−\)). The product was retained on a strong anion exchanger, washed with water and finally extracted with saline. The product mixture was acidified and degassed to separate excess [\(^{11}\)C]CO\(_2\) before dispensing. Under these conditions the total reaction time was 18 ± 2 min and pure [\(^{11}\)C]acetate (n = 10) was isolated with a decay corrected yield of 51 ± 5%. Conclusion Herein, we described a novel single use unit for the synthesis of carbon-11 labelled tracers for preclinical and clinical applications of N-methyl-[\(^{11}\)C]choline, L-S-methyl-[\(^{11}\)C]methionine and [11C]acetate. KW - carboxylation KW - methylation KW - Carbon-11 KW - isotopes KW - isotopic labelling KW - radiopharmaceuticals KW - radiochemistry Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-300731 VL - 7 ER - TY - THES A1 - Berking, Ann-Cathrine T1 - Assoziationsuntersuchung von ausgewählten Polymorphismen der Gene DNMT3A und DNMT3B mit der Panikstörung T1 - Association study of selected polymorphisms of DNMT3A and DNMT3B genes with panic disorder N2 - Currently, the vulnerability-stress model, in the sense of a multifactorial explanatory model, is considered to be the most appropriate to represent the etiopathogenesis of anxiety disorders. Epigenetic mechanisms are understood as a bridge between genetic factors and environmental factors. This includes the methylation of specific DNA regions, which is mediated by DNA methyltransferases. These enzymes have rarely been the focus of psychiatric research in relation to anxiety disorders. Therefore, this work deals with selected single nucleotide polymorphisms of the DNMT3A and DNMT3B gene and investigates whether these SNPs and/or their haplotypes are associated panic disorder and/or with dimensional psychological characteristics, such as anxiety-related cognition or anxiety sensitivity. In summary, a significant or nominally significant association of two SNPs with anxiety-related characteristics such was shown. To better assess these associations, replications with sufficient test strength are required . Given the demonstrated association with PSWQ, investigation of another anxiety phenotype, Generalized Anxiety Disorder, is also sensible. As a further step, the functionality of the significantly associated SNPs should be performed. In addition, another DNMT, Dnmt1, is associated with fear conditioning, and the methylation patterns of the DNMTs themselves also appear to have an impact on the development of anxiety disorders. Therefore, an investigation of the DNMT1 gene and the methylation patterns of the DNMT genes are further reasonable steps to better understand a possible influence of DNMTs on the development of anxiety disorders and on anxiety-related psychological characteristics. N2 - Derzeit gilt das Vulnerabilitäts-Stressmodell im Sinne eines multifaktoriellen Erklärungsmodells als am besten geeignet, um die Ätiopathogenese der Angsterkrankungen abzubilden. Als Brücke zwischen den genetischen Faktoren und den auf ein Individuum einwirkenden Umweltfaktoren werden epigenetische Mechanismen verstanden. Hierzu zählt die Methylierung bestimmter DNA-Bereiche, welche durch die DNA-Methyltransferasen vermittelt wird. Diese Enzyme waren in Verbindung mit Angsterkrankungen bisher kaum im Fokus psychiatrischer Forschung. Diese Arbeit beschäftigt sich daher mit ausgewählten Einzelnukleotidpolymorphismen des DNMT3A- und DNMT3B-Gens und untersucht, ob diese SNPs und/oder deren Haplotypen zum einen mit der Panikstörung und zum andern mit dimensionalen psychologischen Charakteristiken, wie angstbezogener Kognition oder Angstsensitivität, assoziiert sind. Zusammenfassend konnte eine signifikante bzw. nominal signifikante Assoziation der zweier SNPs mit angstbezogenen Charakteristiken wie der angstbezogenen Kognition und der Angstsensitivität gezeigt werden. Um die gefundenen Assoziationen besser beurteilen zu können, ist in Folgeuntersuchungen eine Replikation in einer weiteren Probandengruppe und in einer angemessen großen Patienten- und Fall-Kontroll-Gruppe mit ausreichender Teststärke erforderlich. Aufgrund der nachgewiesenen Assoziation mit dem PSWQ bietet sich auch die Untersuchung eines anderen Angstphänotypen, der Generalisierten Angststörung, an. Als weiterer Schritt sind Untersuchungen zur Klärung der Funktionalität der signifikant assoziierten SNPs anzustreben. In der Literatur wird zudem eine weitere DNMT, die Dnmt1, mit der Furchtkonditionierung assoziiert und auch die Methylierungsmuster der DNMTs selbst scheinen einen Einfluss auf die Entwicklung von Angststörungen zu haben. Eine Untersuchung des DNMT1-Gens und der Methylierungsmuster der DNMT-Gene sind daher weitere sinnvolle Schritte, um einen möglichen Einfluss von DNMTs auf die Entstehung von Angsterkrankungen und auf angstbezogene psychologische Charakteristiken besser zu verstehen. KW - DNMT3A KW - DNMT3B KW - Angsterkrankungen KW - DNA-Methyltransferasen KW - Methylierung KW - anxiety disorders KW - DNA methyltransferases KW - methylation Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-234687 ER - TY - JOUR A1 - Hurd, Paul J. A1 - Grübel, Kornelia A1 - Wojciechowski, Marek A1 - Maleszka, Ryszard A1 - Rössler, Wolfgang T1 - Novel structure in the nuclei of honey bee brain neurons revealed by immunostaining JF - Scientific Reports N2 - In the course of a screen designed to produce antibodies (ABs) with affinity to proteins in the honey bee brain we found an interesting AB that detects a highly specific epitope predominantly in the nuclei of Kenyon cells (KCs). The observed staining pattern is unique, and its unfamiliarity indicates a novel previously unseen nuclear structure that does not colocalize with the cytoskeletal protein f-actin. A single rod-like assembly, 3.7-4.1 mu m long, is present in each nucleus of KCs in adult brains of worker bees and drones with the strongest immuno-labelling found in foraging bees. In brains of young queens, the labelling is more sporadic, and the rod-like structure appears to be shorter (similar to 2.1 mu m). No immunostaining is detectable in worker larvae. In pupal stage 5 during a peak of brain development only some occasional staining was identified. Although the cellular function of this unexpected structure has not been determined, the unusual distinctiveness of the revealed pattern suggests an unknown and potentially important protein assembly. One possibility is that this nuclear assembly is part of the KCs plasticity underlying the brain maturation in adult honey bees. Because no labelling with this AB is detectable in brains of the fly Drosophila melanogaster and the ant Camponotus floridanus, we tentatively named this antibody AmBNSab (Apis mellifera Brain Neurons Specific antibody). Here we report our results to make them accessible to a broader community and invite further research to unravel the biological role of this curious nuclear structure in the honey bee central brain. KW - mushroom body calyx KW - synaptic complexes KW - bodies KW - insect KW - plasticity KW - insights KW - genome KW - model KW - proteins KW - methylation KW - biological techniques KW - cell biology KW - developmental biology KW - molecular biology KW - neuroscience Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-260059 VL - 11 ER - TY - THES A1 - Reichenbach, Juliane Renate T1 - Paternal age effects on sperm DNA methylation and its impact on the next generation T1 - Der väterliche Alterseffekt auf das Spermienmethylom und seine Auswirkungen auf die nächste Generation N2 - The effect of late parenthood on the offspring´s physical and mental health status has recently become an increasingly important topic of discussion. Studies on neurodevelopmental disorders in children of older parents (Naserbakht et al., 2011) outline the negative consequences of aging fathers as unpredictable compared to the better-understood unfavorable maternal influences (Cedars et al. 2015). This may be due to the fact that lifelong production of male gametes becomes more susceptible to error, not only for somatic mutations. Non-genomic mechanisms such as epigenetic methylation also alter DNA dynamically throughout life (Jones et al., 2015) and influence the aging human sperm DNA (Jenkins et al., 2014). These methylation changes may be transmitted to the next generation via epigenetic inheritance mechanisms (Milekic et al., 2015), which may negatively impact the sensitive epigenetic regulation of cell differentiation in the embryonic period (Curley et al., 2011; Spiers et al., 2015). Accordingly, Nardone et al. (2014) reported several hypomethylated regions in autistic patients, illustrating potential epigenetic influences on the multifactorial pathogenesis of neuropsychiatric disorders. In the present study, the methylation status of five gene regions in the sperm DNA of males of different ages was analyzed by two techniques - pyrosequencing and deep bisulfite sequencing. Two gene regions, FOXK1 and DMPK, showed a highly significant age-related methylation loss and FOXK1 a reduced methylation variation at the level of single alleles. In addition, the examined gene region of FOXK1 showed significant methylation changes in the fetal cord blood DNA of the respective offspring of the sperm donor. This fact suggests a transfer of age-related methylation loss to the next generation. Interestingly, a methylation analysis at the level of single alleles showed that the methylation loss was inherited exclusively by the father. FOXK1 is a transcription factor that plays an important role in the epigenetic regulation of the cell cycle during embryonic neuronal development (Huang et al., 2004; Wijchers et al., 2006). For this reason, the methylation status of FOXK1 in the blood of autistic patients and an age- and sex-matched control group was investigated. While both groups showed age-associated FOXK1 methylation loss, a faster dynamics of methylation change was observed in the autistic group. Although further studies are needed to uncover inheritance mechanisms of epigenetic information, the present results show an evident influence of age-related methylation changes on offspring. When advising future fathers, it is important to consider how the paternal epigenome is altered by aging and can have a negative impact on the developing embryo. N2 - Die Auswirkungen einer späten Elternschaft auf die körperliche und geistige Gesundheit der Nachkommen wurde in letzter Zeit zunehmend diskutiert. Studien zu neurologischen Entwicklungsstörungen bei Kindern älterer Eltern (Naserbakht et al. 2011) skizzieren insbesondere die negativen Folgen alternder Väter (Cedars et al. 2015). Dies ist möglicherweise darauf zurückzuführen, dass die lebenslange Produktion männlicher Gameten im Laufe des Lebens nicht nur für somatische Mutationen fehleranfälliger wird. Auch nicht-genomische Mechanismen wie die epigenetische Methylierung verändert die DNA im Laufe des Lebens dynamisch (Jones et al. 2015) und beeinflussen die alternde menschliche Spermien-DNA (Jenkins et al. 2014). Möglicherweise werden diese Methylierungsveränderungen über epigenetische Vererbungsmechanismen an die nächste Generation übertragen (Milekic et al. 2015), was sich negativ auf die empfindliche epigenetische Regulation der Zelldifferenzierung in der Embryonalperiode auswirken kann (Curley et al. 2011; Spiers et al. 2015). Mögliche epigenetische Einflüsse auf die multifaktorielle Pathogenese neuropsychiatrischer Erkrankungen veranschaulichend, zeigten Nardone et al. (2014) mehrere hypomethylierte Regionen bei autistischen Patienten auf. In der vorliegenden Arbeit wurde der Methylierungsstatus von fünf Genregionen in der Spermien-DNA von Männern unterschiedlichen Alters durch zwei Techniken analysiert – das Pyrosequencing und das Deep Bisulfite Sequencing. Zwei Genregionen, FOXK1 und DMPK, zeigten einen hochgradig signifikanten altersbedingten Methylierungsverlust und FOXK1 auf der Ebene einzelner Allele eine verringerte Methylierungsvariation. Darüber hinaus zeigte die untersuchte Genregion von FOXK1 signifikante Methylierungsveränderungen in der Nabelschnurblut-DNA der jeweiligen Nachkommen der Samenspender. Diese Tatsache spricht für eine Übertragung des altersbedingten Methylierungsverlustes auf die nächste Generation. Anhand einer Methylierungsanalyse auf der Ebene einzelner Allele konnte interessanterweise gezeigt werden, dass der Methylierungsverlust ausschließlich durch den Vater vererbt wurde. FOXK1 ist ein Transkriptionsfaktor, der eine wichtige Rolle bei der epigenetischen Regulation des Zellzyklus während der embryonalen neuronalen Entwicklung spielt (Huang et al. 2004; Wijchers et al. 2006). Aus diesem Grund wurde der Methylierungsstatus von FOXK1 im Blut autistischer Patienten und einer alters- und geschlechtsentsprechenden Kontrollgruppe untersucht. Während beide Gruppen einen altersassoziierten FOXK1-Methylierungverlust zeigten, wurde in der autistischen Gruppe eine schnellere Dynamik der Methylierungsänderung beobachtet. Obwohl weitere Studien erforderlich sind, um Vererbungsmechanismen epigenetischer Information aufzudecken, zeigen die vorliegenden Ergebnisse einen offensichtlichen Einfluss altersbedingter Methylierungsveränderungen auf die Nachkommen. Bei der Beratung zukünftiger Väter ist es wichtig zu berücksichtigen, wie das väterliche Epigenom durch das Altern verändert wird und negative Auswirkungen auf den sich entwickelnden Embryo haben kann. KW - Epigenetik KW - Vater KW - Spermium KW - Autismus KW - Methylierung KW - paternal age KW - epigenetics KW - sperm KW - methylation KW - reproduction KW - autism KW - Väterliches Alter KW - Epigenetik KW - Spermien KW - Methylierung Y1 - 2020 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-199805 ER - TY - JOUR A1 - Maierhofer, Anna A1 - Flunkert, Julia A1 - Dittrich, Marcus A1 - Müller, Tobias A1 - Schindler, Detlev A1 - Nanda, Indrajit A1 - Haaf, Thomas T1 - Analysis of global DNA methylation changes in primary human fibroblasts in the early phase following X-ray irradiation JF - PLoS ONE N2 - Epigenetic alterations may contribute to the generation of cancer cells in a multi-step process of tumorigenesis following irradiation of normal body cells. Primary human fibroblasts with intact cell cycle checkpoints were used as a model to test whether X-ray irradiation with 2 and 4 Gray induces direct epigenetic effects (within the first cell cycle) in the exposed cells. ELISA-based fluorometric assays were consistent with slightly reduced global DNA methylation and hydroxymethylation, however the observed between-group differences were usually not significant. Similarly, bisulfite pyrosequencing of interspersed LINE-1 repeats and centromeric α-satellite DNA did not detect significant methylation differences between irradiated and non-irradiated cultures. Methylation of interspersed ALU repeats appeared to be slightly increased (one percentage point; p = 0.01) at 6 h after irradiation with 4 Gy. Single-cell analysis showed comparable variations in repeat methylation among individual cells in both irradiated and control cultures. Radiation-induced changes in global repeat methylation, if any, were much smaller than methylation variation between different fibroblast strains. Interestingly, α-satellite DNA methylation positively correlated with gestational age. Finally, 450K methylation arrays mainly targeting genes and CpG islands were used for global DNA methylation analysis. There were no detectable methylation differences in genic (promoter, 5' UTR, first exon, gene body, 3' UTR) and intergenic regions between irradiated and control fibroblast cultures. Although we cannot exclude minor effects, i.e. on individual CpG sites, collectively our data suggest that global DNA methylation remains rather stable in irradiated normal body cells in the early phase of DNA damage response. KW - DNA methylation KW - fibroblasts KW - methylation KW - alu elements KW - DNA damage KW - epigenetics KW - cancer treatment Y1 - 2017 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-170895 VL - 12 IS - 5 ER - TY - JOUR A1 - Sbirkov, Yordan A1 - Kwok, Colin A1 - Bhamra, Amandeep A1 - Thompson, Andrew J. A1 - Gil, Veronica A1 - Zelent, Arthur A1 - Petrie, Kevin T1 - Semi-quantitative mass spectrometry in AML cells identifies new non-genomic targets of the EZH2 methyltransferase JF - International Journal of Molecular Sciences N2 - Alterations to the gene encoding the EZH2 (KMT6A) methyltransferase, including both gain-of-function and loss-of-function, have been linked to a variety of haematological malignancies and solid tumours, suggesting a complex, context-dependent role of this methyltransferase. The successful implementation of molecularly targeted therapies against EZH2 requires a greater understanding of the potential mechanisms by which EZH2 contributes to cancer. One aspect of this effort is the mapping of EZH2 partner proteins and cellular targets. To this end we performed affinity-purification mass spectrometry in the FAB-M2 HL-60 acute myeloid leukaemia (AML) cell line before and after all-trans retinoic acid-induced differentiation. These studies identified new EZH2 interaction partners and potential non-histone substrates for EZH2-mediated methylation. Our results suggest that EZH2 is involved in the regulation of translation through interactions with a number of RNA binding proteins and by methylating key components of protein synthesis such as eEF1A1. Given that deregulated mRNA translation is a frequent feature of cancer and that eEF1A1 is highly expressed in many human tumours, these findings present new possibilities for the therapeutic targeting of EZH2 in AML. KW - acute myeloid leukaemia KW - EZH2 KW - mass spectrometry KW - methylation KW - eEF1A1 Y1 - 2017 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-285541 SN - 1422-0067 VL - 18 IS - 7 ER - TY - JOUR A1 - Almanzar, Giovanni A1 - Klein, Matthias A1 - Schmalzing, Marc A1 - Hilligardt, Deborah A1 - El Hajj, Nady A1 - Kneitz, Hermann A1 - Wild, Vanessa A1 - Rosenwald, Andreas A1 - Benoit, Sandrine A1 - Hamm, Henning A1 - Tony, Hans-Peter A1 - Haaf, Thomas A1 - Goebeler, Matthias A1 - Prelog, Martina T1 - Disease Manifestation and Inflammatory Activity as Modulators of Th17/Treg Balance and RORC/FoxP3 Methylation in Systemic Sclerosis JF - International Archives of Allergy and Immunology N2 - Background: There is much evidence that T cells are strongly involved in the pathogenesis of localized and systemic forms of scleroderma (SSc). A dysbalance between FoxP3+ regulatory CD4+ T cells (Tregs) and inflammatory T-helper (Th) 17 cells has been suggested. Methods: The study aimed (1) to investigate the phenotypical and functional characteristics of Th17 and Tregs in SSc patients depending on disease manifestation (limited vs. diffuse cutaneous SSc, dcSSc) and activity, and (2) the transcriptional level and methylation status of Th17- and Treg-specific transcription factors. Results: There was a concurrent accumulation of circulating peripheral IL-17-producing CCR6+ Th cells and FoxP3+ Tregs in patients with dcSSc. At the transcriptional level, Th17- and Treg-associated transcription factors were elevated in SSc. A strong association with high circulating Th17 and Tregs was seen with early, active, and severe disease presentation. However, a diminished suppressive function on autologous lymphocytes was found in SSc-derived Tregs. Significant relative hypermethylation was seen at the gene level for RORC1 and RORC2 in SSc, particularly in patients with high inflammatory activity. Conclusions: Besides the high transcriptional activity of T cells, attributed to Treg or Th17 phenotype, in active SSc disease, Tregs may be insufficient to produce high amounts of IL-10 or to control proliferative activity of effector T cells in SSc. Our results suggest a high plasticity of Tregs strongly associated with the Th17 phenotype. Future directions may focus on enhancing Treg functions and stabilization of the Treg phenotype. KW - methylation KW - systemic sclerosis KW - suppression KW - Tregs KW - Th17 Y1 - 2016 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-196577 SN - 1018-2438 SN - 1423-0097 N1 - This publication is with permission of the rights owner freely accessible due to an Alliance licence and a national licence (funded by the DFG, German Research Foundation) respectively. VL - 171 IS - 2 ER - TY - JOUR A1 - Ahmad, Ruhel A1 - Wolber, Wanja A1 - Eckardt, Sigrid A1 - Koch, Philipp A1 - Schmitt, Jessica A1 - Semechkin, Ruslan A1 - Geis, Christian A1 - Heckmann, Manfred A1 - Brüstle, Oliver A1 - McLaughlin, John K. A1 - Sirén, Anna-Leena A1 - Müller, Albrecht M. T1 - Functional Neuronal Cells Generated by Human Parthenogenetic Stem Cells JF - PLoS One N2 - Parent of origin imprints on the genome have been implicated in the regulation of neural cell type differentiation. The ability of human parthenogenetic (PG) embryonic stem cells (hpESCs) to undergo neural lineage and cell type-specific differentiation is undefined. We determined the potential of hpESCs to differentiate into various neural subtypes. Concurrently, we examined DNA methylation and expression status of imprinted genes. Under culture conditions promoting neural differentiation, hpESC-derived neural stem cells (hpNSCs) gave rise to glia and neuron-like cells that expressed subtype-specific markers and generated action potentials. Analysis of imprinting in hpESCs and in hpNSCs revealed that maternal-specific gene expression patterns and imprinting marks were generally maintained in PG cells upon differentiation. Our results demonstrate that despite the lack of a paternal genome, hpESCs generate proliferating NSCs that are capable of differentiation into physiologically functional neuron-like cells and maintain allele-specific expression of imprinted genes. Thus, hpESCs can serve as a model to study the role of maternal and paternal genomes in neural development and to better understand imprinting-associated brain diseases. KW - methylation KW - derivation KW - blastocysts KW - pluripotent KW - differentiation KW - lines KW - brain development KW - in-vitro KW - mice KW - specification Y1 - 2012 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-130268 VL - 7 IS - 8 ER - TY - THES A1 - Jonas, René T1 - Arsen-induzierte Zyto- und Gentoxizität sowie deren Modulation T1 - Arsenite-induced cyto- and genotoxicity and their modulation N2 - Arsen ist dafür bekannt, dass es mutagen und kanzerogen wirkt und ein gentoxisches Potential besitzt. Die Mechanismen, durch die diese Effekte ausgeübt werden, sind noch nicht vollständig aufgeklärt. Es konnte jedoch gezeigt werden, dass Parameter, die mit der Freisetzung reaktiver Sauerstoffspezies (ROS), z.B. Superoxiddismutaseaktivität und Hämoxygenase-Genexpression, und Veränderungen des epigenetischen Musters der DNA, z.B. Depletion von S-Adenosylmethionin, in Zusammenhang stehen, durch Arsen beeinflusst werden. In dieser Studie wurde versucht, das gentoxische Potential von Arsen mit Hilfe des Comet Assay, eines Standard-Gentoxizitätstests, zu charakterisieren sowie zu prüfen, ob dieser Test eine geeignete Messmethode für die gentoxische Wirkung von Arsen darstellt. Dies wurde unter Heranziehung verschiedener additiver Messgrößen wie der Vitalität und der Proliferation sowie der parallelen Quantifizierung der Mitose-, C-Mitose-, Mikrokern- und Apoptosefrequenzen der verwendeten murinen L5178Y-Zellen durchgeführt. Des Weiteren wurde der den Arsen-bedingten DNA-Schäden zugrundeliegende Mechanismus genauer beleuchtet. Unter Zuhilfenahme verschiedener Modulatoren wurden durch Arsen induzierter oxidativer Stress und durch Arsen induzierte Veränderung der epigenetischen DNA-Struktur untersucht. Ferner wurde geprüft, inwieweit die Inhibition von oxidativem Stress und Hypomethylierung der DNA zur Verringerung von potenziellen Folgen wie der Entstehung unnatürlicher Mitosemorphologien und chromosomaler Aberrationen beitragen können, die wiederum eventuell in der Entstehung von Karzinomen resultieren können. Für die Modulation der Freisetzung von ROS wurden als prooxidative Substanz 4-Nitrochinolin-1-Oxid und als Antioxidantien Benfotiamin (Vitamin-B1-Prodrug), N-Acetylcystein (NAC) und α-Tocopherol (Vitamin E) ausgewählt. Das Methylierungs¬muster der DNA sollte durch das hypomethylierende Agens 5-Azacytidin und durch die potenziell hypermethylierenden Verbindungen S-Adenosylmethionin (SAM) und Folat beeinflusst werden. Die Untersuchungen bezüglich des gentoxischen Potentials von Arsen und die Eignung des Comet Assay für dessen Quantifizierung ergaben, dass unter Miteinbeziehung der erwähnten additiven Parameter und der Quantifizierung nach Behandlung mit unterschiedlichen Arsen-Konzentrationen nach unterschiedlich langen Behandlungszeiten die im Comet Assay erzielten Werte als korrekt und zuverlässig angesehen werden können. Des Weiteren zeigten die Untersuchungen der Freisetzung von ROS und der Veränderung des DNA-Methylierungsmusters mit Hilfe von Modulatoren, dass beide Mechanismen an den Arsen-induzierten Effekten beteiligt sind. Nicht nur konnte mit Hilfe der Modulatoren jeweils die Inhibition der Freisetzung von ROS und der DNA-Hypomethylierung erreicht werden, es konnte zudem gezeigt werden, dass die Substanzen auch die Reduktion der erhöhten Anzahl unnatürlicher Mitosemorphologien und chromosomaler Aberrationen bewirkten. Dieser Zusammenhang konnte in dieser Studie zum ersten Mal aufgezeigt werden und könnte im Hinblick auf die potenzielle Erniedrigung der Krebsinzidenzen durch Supplementierung der Bevölkerung in Gebieten mit Arsen-belastetem Trinkwasser mit den genannten Modulatoren von Bedeutung sein. N2 - Arsenite is known to be mutagenic as well as carcinogenic and is further known to have a genotoxic potency. However, the mechanisms by which these effects are exerted is not yet fully understood. It could be shown, that parameters which are linked to the release of reactive oxygen species e. g. increase activity of superoxide dismutase or increased expression of heme oxygenase or which are linked to changes in the epigenetic pattern of the DNA, like for example depletion of S-adenosylmethionine, are affected by arsenite. In the course of this study, we attempted to characterize the genotoxic potential of sodium arsenite with the aid of the comet assay, a standard genotoxicity test, and to examine, whether this test is a suitable method for the quantification of arsenite-induced genotoxicity. Additionally, parameters like the frequencies of mitoses, C-mitoses, micronuclei and apoptoses were evaluated in murine L5178Y-cells. Furthermore, the mechanism underlying the arsenite-induced DNA-damage was investigated. With the aid of several modulators, arsenite-induced oxidative stress and arsenite-induced epigenetic modifications were examined. In addition we analyzed, to which extent the inhibition of oxidative stress and DNA-hypomethylation can contribute to a decrease in pathologic mitosis morphologies and chromosomal aberrations, which in turn could possibly result in cancer development. For the modulation of the release of reactive oxygen species, the pro-oxidative substance 4-nitroquinoline-1-oxide and the antioxidative substances benfotiamine, N-acetylcysteine and α-tocopherol were chosen. The epigenetic pattern of the DNA was meant to be affected by the hypomethylating agent 5-azacytidine and the hypermethylating agents S-adenosylmethionine and folic acid. The experiments concerning the genotoxicity of arsenite and the suitability of the comet assay to quantify this genotoxic capacity revealed, that if the parameters mentioned above and different concentrations of arsenite and different incubation times were taken into consideration, the results gained with the aid of the comet assay can be considered as correct and reliable. Furthermore, the investigation of the release of reactive oxygen species and modifications of the DNA methylation patters with the aid of modulators showed, that both mechanisms are involved in the effects induced by sodium arsenite. The modulators were able to inhibit the release of reactive oxygen species and hypomethylation of the DNA respectively. In addition a decrease in the frequencies of pathologic mitosis morphologies and chromosomal aberrations could be shown. This connection could be shown for the first time in the course of this study and could be of relevance with regard to a possible decrease of the incidence of cancer by supplementation of populations with the introduced modulators in areas with drinking water contaminated with arsenite. KW - Oxidativer Stress KW - Methylierung KW - DNS-Reparatur KW - DNS-Schädigung KW - DNS-Strangbruch KW - DNS-Doppelstrangbruch KW - DNS KW - Arsen KW - oxidative stress KW - methylation KW - dna damage KW - arsenite KW - dna strand break Y1 - 2008 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-28772 ER -