969 resultados para DNA Double-stranded Breaks
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DNA block copolymer, a new class of hybrid material composed of a synthetic polymer and an oligodeoxynucleotide segment, owns unique properties which can not be achieved by only one of the two polymers. Among amphiphilic DNA block copolymers, DNA-b-polypropylene oxide (PPO) was chosen as a model system, because PPO is biocompatible and has a Tg < 0 °C. Both properties might be essential for future applications in living systems. During my PhD study, I focused on the properties and the structures of DNA-b-PPO molecules. First, DNA-b-PPO micelles were studied by scanning force microscopy (SFM) and fluorescence correlation spectroscopy (FCS). In order to control the size of micelles without re-synthesis, micelles were incubated with template-independent DNA polymerase TdT and deoxynucleotide triphosphates in reaction buffer solution. By carrying out ex-situ experiments, the growth of micelles was visualized by imaging in liquid with AFM. Complementary measurements with FCS and polyacrylamide gel electrophoresis (PAGE) confirmed the increase in size. Furthermore, the growing process was studied with AFM in-situ at 37 °C. Hereby the growth of individual micelles could be observed. In contrast to ex-situ reactions, the growth of micelles adsorbed on mica surface for in-situ experiments terminated about one hour after the reaction was initiated. Two reasons were identified for the termination: (i) block of catalytic sites by interaction with the substrate and (ii) reduced exchange of molecules between micelles and the liquid environment. In addition, a geometrical model for AFM imaging was developed which allowed deriving the average number of mononucleotides added to DNA-b-PPO molecules in dependence on the enzymatic reaction time (chapter 3). Second, a prototype of a macroscopic DNA machine made of DNA-b-PPO was investigated. As DNA-b-PPO molecules were amphiphilic, they could form a monolayer at the air-water interface. Using a Langmuir film balance, the energy released owing to DNA hybridization was converted into macroscopic movements of the barriers in the Langmuir trough. A specially adapted Langmuir trough was build to exchange the subphase without changing the water level significantly. Upon exchanging the subphase with complementary DNA containing buffer solution, an increase of lateral pressure was observed which could be attributed to hybridization of single stranded DNA-b-PPO. The pressure versus area/molecule isotherms were recorded before and after hybridization. I also carried out a series of control experiments, in order to identify the best conditions of realizing a DNA machine with DNA-b-PPO. To relate the lateral pressure with molecular structures, Langmuir Blodgett (LB) films were transferred to highly ordered pyrolytic graphite (HOPG) and mica substrates at different pressures. These films were then investigated with AFM (chapter 4). At last, this thesis includes studies of DNA and DNA block copolymer assemblies with AFM, which were performed in cooperation with different group of the Sonderforschungsbereich 625 “From Single Molecules to Nanoscopically Structured Materials”. AFM was proven to be an important method to confirm the formation of multiblock copolymers and DNA networks (chapter 5).
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Die Entstehung von Mutationen, und somit der erste Schritt der Kanzerogenese, steht in engem Zusammenhang mit der Effektivität der DNA-Reparatur. Werden zur Fehlpaarung neigende (prämutagene) DNA-Schäden, wie z.B. die oxidative Läsion 8-oxoG, zu langsam oder auch fehlerhaft repariert, so führt dies zwangsläufig zu einer Erhöhung der Mutationsrate. Das Zusammenspiel zwischen Schadensentstehung und dessen Reparatur ist somit von großem Interesse. Ein wichtiger Faktor, der dieses Gleichgewicht beeinflussen könnte, ist die Chromatinstruktur, die entscheidend ist für die DNA-Zugänglichkeit.rnrnDie Frage, ob und in welchem Ausmaß der globale Kondensationsgrad des Chromatins die Entstehung und Reparatur von DNA-Schäden und damit die Entstehung von Mutationen beeinflusst, war der Ausgangspunkt für die vorliegende Arbeit. Um die Chromatinstruktur zu modulieren, wurden zum einen Resveratrol, zum anderen die HDAC-Inhibitoren Natriumbutyrat und Trichostatin A eingesetzt. Resveratrol führt, möglicherweise über eine SIRT1-Aktivierung, zu einem kondensierten und schlecht zugänglichen Chromatin. Die HDAC-Inhibitoren hingegen resultieren durch verstärkte Acetylierung von Histonen in einer global dekondensierten, offenen Chromatinstruktur. Mit Hilfe des Photosensibilisators Ro19-8022 in Kombination mit sichtbarem Licht, UV-B-Strahlung und Wasserstoffperoxid wurden in so veränderten Zellen verschiedene Arten von DNA-Schäden induziert, welche jeweils spezifisch sind für unterschiedliche Reparaturwege. Das Ausmaß induzierter Läsionen sowie deren Reparatur wurde mittels Alkalischer Elution und entsprechenden Reparaturendonukleasen bestimmt. rnrnDie Ergebnisse zeigen eine durch Resveratrol unbeeinflusste Schadensinduktion, andererseits jedoch eine deutliche Verlangsamung der Reparatur verschiedener Arten von DNA-Läsionen (oxidative Läsionen, Cyclobutanpyrimidindimere, Einzelstrangbrüche) und somit auch verschiedener Reparaturwege in AS52-Zellen. Die HDAC-Inhibitoren hingegen verursachen ein erhöhtes Ausmaß induzierter Läsionen, jedoch keine Änderung der Reparaturgeschwindigkeit. Die Entstehung spontaner und induzierter Mutationen zeigt sich durch Resveratrol unbeeinflusst, HDAC-Inhibitoren resultieren in signifikant erniedrigten Mutationsraten in AS52-Zellen. Letzterer Effekt ist durch die beobachteten Einflüsse auf Reparatur und Suszeptibilität in den Zellen nicht erklärbar und bedarf einer mechanistischen Aufklärung. Die durch Resveratrol beobachtete Reparatur-Retardierung wurde mechanistisch weiter untersucht. Durch Inhibierung von SIRT1, einer durch Resveratrol aktivierten Deacetylase, konnte dessen Beteiligung an der Reparaturverlangsamung ausgeschlossen werden. Auch eine Beteiligung von oxidativem Stress, dem MAPK-Signalweg (ERK 1/2, p38) oder p53 konnte ausgeschlossen werden. Die Durchführung der Reparaturversuche mit menschlichen HeLa-Zellen zeigten, dass die durch Resveratrol verursachten Effekte quantitativ stark zelltypabhängig sind. Während die Reparatur in HeLa-Zellen deutlich weniger beeinflusst wird, sind dennoch andere Parameter wie Proliferation und Glutathionspiegel eher stärker verändert wie in AS52-Zellen. Der Mechanismus der durch Resveratrol verursachten Reparaturhemmung bedarf somit weiterer Untersuchungen.rn
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The presence of damaged nucleobases in DNA can negatively influence transcription of genes. One of the mechanisms by which DNA damage interferes with reading of genetic information is a direct blockage of the elongating RNA polymerase complexes – an effect well described for bulky adducts induced by several chemical substances and UV-irradiation. However, other mechanisms must exist as well because many of the endogenously occurring non-bulky DNA base modifications have transcription-inhibitory properties in cells, whilstrnnot constituting a roadblock for RNA polymerases under cell free conditions. The inhibition of transcription by non-blocking DNA damage was investigated in this work by employing the reporter gene-based assays. Comparison between various types of DNA damage (UV-induced pyrimidine photoproducts, oxidative purine modifications induced by photosensitisation, defined synthetic modified bases such as 8-oxoguanine and uracil, and sequence-specific single-strand breaks) showed that distinct mechanisms of inhibition of transcription can be engaged, and that DNA repair can influence transcription of the affectedrngenes in several different ways.rnQuantitative expression analyses of reporter genes damaged either by the exposure of cells to UV or delivered into cells by transient transfection supported the earlier evidence that transcription arrest at the damage sites is the major mechanism for the inhibition of transcription by this kind of DNA lesions and that recovery of transcription requires a functional nucleotide excision repair gene Csb (ERCC6) in mouse cells. In contrast, oxidisedrnpurines generated by photosensitisation do not cause transcriptional blockage by a direct mechanism, but rather lead to transcriptional repression of the damaged gene which is associated with altered histone acetylation in the promoter region. The whole chain of events leading to transcriptional silencing in response to DNA damage remains to be uncovered. Yet, the data presented here identify repair-induced single-strand breaks – which arise from excision of damaged bases by the DNA repair glycosylases or endonucleases – as arnputative initiatory factor in this process. Such an indirect mechanism was supported by requirement of the 8-oxoguanine DNA glycosylase (OGG1) for the inhibition of transcription by synthetic 8-oxodG incorporated into a reporter gene and by the delays observed for the inhibition of transcription caused by structurally unrelated base modifications (8-oxoguanine and uracil). It is thereby hypothesized that excision of the modified bases could be a generalrnmechanism for inhibition of transcription by DNA damage which is processed by the base excision repair (BER) pathway. Further gene expression analyses of plasmids containing single-strand breaks or abasic sites in the transcribed sequences revealed strong transcription inhibitory potentials of these lesions, in agreement with the presumption that BER intermediates are largely responsible for the observed effects. Experiments with synthetic base modifications positioned within the defined DNA sequences showed thatrninhibition of transcription did not require the localisation of the lesion in the transcribed DNA strand; therefore the damage sensing mechanism has to be different from the direct encounters of transcribing RNA polymerase complexes with DNA damage.rnAltogether, this work provides new evidence that processing of various DNA basernmodifications by BER can perturb transcription of damaged genes by triggering a gene silencing mechanism. As gene expression can be influenced even by a single DNA damage event, this mechanism could have relevance for the endogenous DNA damage induced in cells under normal physiological conditions, with a possible link to gene silencing in general.
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Uracil ist eine der am häufigsten vorkommenden DNA-Basenmodifikationen, die über den Mechanismus der Basen-Exzisions-Reparatur (BER) aus dem Genom entfernt wird. Im Verlauf der Reparatur dieser Läsion durch monofunktionelle Uracil-DNA-Glykosylasen (UNG1/2, SMUG1, TDG und MBD4) entstehen AP-Läsionen und Einzelstrangbrüche. Da von beiden bekannt ist, eine Blockade der Transkription verursachen zu können, wurde in dieser Arbeit der Einfluss von Uracil und dessen Exzision auf die Expression eines Gens untersucht. Dafür wurde eine effiziente Methode entwickelt, die DNA-Basenmodifikation spezifisch in den transkribierten oder nicht-transkribierten DNA-Strang eines Reporter-Vektors einzufügen. rnIn Host cell reactivation Assays konnte gezeigt werden, dass Uracil unabhängig davon, ob es mit Adenin gepaart (U:A) oder mit Guanin (U:G) eine Fehlpaarung bildet, keine direkte Blockade der Transkriptions-Maschinerie in menschlichen Zellen auszulösen vermag. Dies kann daraus geschlossen werden, dass die Expression des Reportergens der Uracil-enthaltenen Vektoren im Vergleich zu unmodifizierten Referenz-Vektoren kurze Zeit nach der Transfektion unverändert ist. Die erst mit zunehmender Inkubationszeit in den Wirtszellen progressiv abnehmende Transkription ließ vermuten, dass die intrazelluläre Prozessierung der Läsion über die BER für die verringerte Genexpression verantwortlich ist. In der Tat bewirkte der Knockdown der BER-initiierenden UNG1/2, die Uracil aus der DNA herausschneidet und damit eine AP-Läsion generiert, eine Verringerung des negativen Effektes eines U:A-Basenpaares auf die Genexpression. Dass der Knockdown der SMUG1- oder TDG-Glykosylase hingegen keine Auswirkungen zeigte, beweist, dass UNG1/2 die Hauptglykosylase für die Exzision dieser Läsion und der Auslöser der inhibierten Transkription in HeLa-Zellen darstellt. Der Zusammenhang zwischen dem Maß des Ausschnitts einer DNA-Basenmodifikation im Verlauf der BER und einer verringerten Expression des Reportergens konnte zudem am Beispiel von 5-Hydroxymethyluracil und der für diese Läsion spezifischen SMUG1-Glykosylase nachgewiesen werden. Im Falle einer U:G-Fehlpaarung besaß weder UNG1/2 noch SMUG1 oder TDG einen Einfluss auf die Rate oder das Ausmaß der mit der Zeit abnehmenden Genexpression, was die Beteiligung einer anderen Glykosylase oder eines anderen Reparatur-Mechanismus vermuten lässt. rnDie Tatsache, dass die Stärke der Gen-Suppression unabhängig davon war, ob Uracil im transkribierten oder nicht-transkribierten DNA-Strang positioniert wurde, lässt die Mutmaßung zu, dass keine Blockade der elongierenden RNA-Polymerase, sondern vielmehr ein indirekter Mechanismus der Auslöser für die verringerte Transkription ist. Dieser Mechanismus muss unabhängig von der gut untersuchten transkriptionsgekoppelten Nukleotid-Exzisions-Reparatur erfolgen, da der Knockdown des hierfür benötigten CSB-Gens keine Auswirkungen auf die Inhibition der Genexpression der Uracil-enthaltenen Vektoren hatte. Insgesamt liefert diese Arbeit neue Erkenntnisse über den Beitrag der einzelnen Uracil-DNA-Glykosylasen zur Reparatur der DNA-Basenmodifikation Uracil in humanen Zellen und zeigt, dass die BER über einen indirekten Mechanismus die Hemmung der Genexpression verursacht.
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In dieser Arbeit sollte der Einfluss einer Überproduktion von humaner Superoxiddismutase 1 (hSOD1) auf die Spiegel der DNA-Schäden in verschiedenen Geweben von transgenen Mäusen untersucht werden. Tiere die eine Defizienz des Ogg1- und Csb- Proteins aufweisen und deshalb oxidative Purinmodifikationen nicht oder nur schwer reparieren können, akkumulieren 8-oxoG im Laufe ihres Lebens (Osterod, et al. 2001). Aus diesem Grund sind diese ein gutes Modell, um protektive Eigenschaften von Antioxidantien wie z.B. Substanzen oder Enzymen zu untersuchen. Fusser, et al. 2011 konnten beispielsweise zeigen, dass das pflanzliche Polyphenol Resveratrol die endogenen Spiegel an 8-oxoG sowie die spontanen Mutatiosraten im Lac I - Gen senken kann. Um den Einfluss von hSOD1 in vivo zu untersuchen, wurden in zwei Zuchtschritten 4 Mausgenotypen generiert, nämlich (Csb -/- Ogg1 -/- und Csb +/- Ogg1 +/- Mäuse jeweils mit ohne hSOD1 Überexpression). Diese wurden in verschiedenen Altersstufen auf die Basalspiegel an oxidativen Schäden (Einzelstrangbrüche und Fpg-sensitive Läsionen) in der Leber, der Niere und der Milz untersucht. Die Genotypen wurden zunächst charakterisiert und die hSOD1-Überexpression mittels qRT-PCR, Western Blot und Enzymaktivitätsbestimmung verifiziert. Es konnte an diesen Tieren erstmalig gezeigt werden, dass SOD die Generierung von DNA-Schäden in vivo mit zunehmendem Alter der Tiere senkt und dass deshalb Superoxid eine der reaktiven Sauerstoffspezies ist, die unter physiologischen Bedingungen für die DNA-Schäden verantwortlich ist. Außerdem kann ein möglicher toxischer Effekt der Überproduktion von SOD ausgeschlossen werden. Erhöhte Spiegel an oxidativen DNA-Schäden durch womöglich erhöhte Spiegel an H2O2 konnten in dieser Studie nicht beobachtet werden. Eine Messung der Genexpression anderer antioxidativer Enzyme wie Katalase, SOD2 und SOD3, GPX oder HO1 sind an diesem Effekt nicht beteiligt. Auch konnte kein Einfluss des redoxsensitiven Transkriptionsfaktors Nrf2 gezeigt werden. rnUm mögliche Quellen der für die oxidativ gebildeten DNA-Schäden verantwortlichen ROS zu identifizieren, wurde der Einfluss des Dopaminstoffwechsels untersucht. Während des Dopaminmetabolismus werden intrazellulär Reaktive Sauerstoffspezies (H2O2 und O2.-) gebildet und tragen sehr wahrscheinlich zur Entstehung von neurodegenerativen Erkrankungen wie Parkinson bei. In dem gängigen Parkinson-Zellkulturmodell SH-SY5Y konnte keine Erhöhung von oxidativen Schäden in nukleärer DNA nach Dopaminbehandlung nachgewiesen werden. Eine Überexpression der Dopaminmetabolisierenden Enzyme MAO-A und MAO-B zeigen bei niedrigen Dosen Dopamin eine leichte jedoch nicht signifikante Erhöhung der Fpg-sensitiven Modifikationen. Die Überproduktion des Dopamintransporters zeigte keinen Effekt nach Dopaminzugabe. Es kann geschlussfolgert werden, dass durch erhöhte MAO-A und MAO-B endogen ROS gebildet werden, die die Bildung Fpg-sensitiver Läsionen hervorrufen. Bei hohen Dosen und langer Inkubationszeit steht die Dopaminautoxidation, anschließende Neuromelaninbildung und als Konsequenz Apoptose im Vordergrund.rn
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6. Summary Despite the lack of direct evidence from large clinical trials for mutagenic and genotoxic effects of GTN therapy, the present study show s the induction of pre-mutagenic lesions, such as 8- oxo - G and O 6 - me - G by GTN t reatment as well as increased formation of DNA strand breaks. These results were obtained in an in vitro (EA.hy 926 – human endothelial cell line) and in vivo (Wistar rats and C57BL/6 mice) setting. However, GTN - induced DNA damage had no effect on the degr ee of nitrate tolerance but only on other pathological side effects such as oxidative stress, as confirmed by studies in MGMT knockout mice. Of clinical importance , this study establishes potent apoptotic properties of organic nitrates, which has been demo nstrated by the levels of the novel apoptotic marker and caspase - 3 substrate, fractin, as well as levels of cleaved caspase - 3 , the activated form of this pro - apoptotic enzyme . The p rotein analy tical data ha ve been confirmed by an independent assay for the apoptosis , Cell death detection assay (TUNEL) . First, these GTN - mediated apoptotic effects may account for the previously reported anti - cancer effects of GTN therapy (probably based on induction of apoptosis in tumor cells). Second, these GTN - mediated apop totic effects may account for the increased mortality rates observed in the group of organic nitrate - treated patients as reported by two independent meta - analysis (probably due to induction of apoptosis in highly beneficial endothelial progenitor cells as well as in cardiomyocytes during wound healing and cardiac remodeling) . Summary of the current investigations can be seen in Figure 18.
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The incorporation of modified nucleotides into ribonucleic acids (RNAs) is important for their structure and proper function. These modifications are inserted by distinct catalytic macromolecules one of them being Dnmt2. It methylates the Cytidine (C) at position 38 in tRNA to 5-methylcytidine (m5C). Dnmt2 has been a paradigm in this respect, because all of its nearest neighbors in evolution are DNA-cytosine C5-methyltransferases and methylate DNA, while its (own) DNA methyltransferase activity is the subject of controversial reports with rates varying between zero and very weak. This work determines whether the biochemical potential for DNA methylation is present in the enzyme. It was discovered that DNA fragments, when presented as covalent RNA:DNA hybrids in the structural context of a tRNA, can be more efficiently methylated than the corresponding natural tRNA substrate. Additional minor deviations from a native tRNA structure that were seen to be tolerated by Dnmt2 were used for a stepwise development of a composite system of guide RNAs that enable the enzyme to perform cytidine methylation on single stranded DNA in vitro. Furthermore, a proof-of-principle is presented for utilizing the S-adenosyl methionine-analog cofactor SeAdoYn with Dnmt2 to search for new possible substrates in a SELEX-like approach.rnIn innate immunity, nucleic acids can function as pathogen associated molecular patterns (PAMPs) recognized by pattern recognition receptors (PRRs). The modification pattern of RNA is the discriminating factor for toll-like receptor 7 (TLR7) to distinguish between self and non-self RNA of invading pathogens. It was found that a 2'-O-methylated guanosine (Gm) at position18, naturally occurring at this position in some tRNAs, antagonizes recognition by TLR7. In the second part of this work it is pointed out, that recognition extends to the next downstream nucleotide and the effectively recognized molecular detail is actually a methylated dinucleotide. The immune silencing effect of the ribose methylation is most pronounced if the dinucleotide motif is composed of purin nucleobases whereas pyrimidines diminish the effect. Similar results were obtained when the Gm modification was transposed into other tRNA domains. Point mutations abolishing base pairings important for a proper tertiary structure had no effect on the immune stimulatory potential of a Gm modified tRNA. Taken together these results suggest a processive type of RNA inspection by TLR7.rn
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Yellowfin tuna (Thunnus albacares, YFT, Bonnaterre 1788) is one of the most important market tuna species in the world. The high mortality of juveniles is in part caused by their bycatch. Indeed, if unregulated, it could permanently destabilize stocks health. For this reason investigating and better knowing the stock boundaries represent a crucial concern. Aim of this thesis was to preliminary investigate the YFT population structure within and between Atlantic and Pacific Oceans through the analysis of genetic variation at eight microsatellite loci and assess the occurrence of barriers to the gene flow between Oceans. For this propouse we collected 4 geographical samples coming from Atlantic and Pacific Ocean and selected a panel of 8 microsatellites loci developped by Antoni et al., (2014). Samples 71-2-Y and 77-2-Y, came from rispectively west central pacific ocean (WCPO) and east central pacific ocean (ECPO), instead samples 41-1-Y and 34-2-Y derive from west central atlantic ocean (WCAO) and east central atlantic ocean (ECAO). Total 160 specimens were analyzed (40 per sample) and were carried out several genetic information as allele frequencies, allele number, allelic richness, HWE (using He and Ho) and pairwise Fst genetic distance. Results obtained, may support the panmictic theory of this species, only one of pairwise Fst obtained is statistically significant (Fst= 0.00927; pV= 0.00218) between 41-1-Y and 71-2-Y samples. Results suggest low genetic differentiation and consequent high level of gene flow between Atlantic and Pacific populations. Furthermore, we performed an analysis of molecular taxonomy through the use of ATCO (the flaking region between ATPse6 and cytochrome oxidase subunit III genes mt DNA, to discriminate within the gener Thunnus two of the related species (Yellofin and bigeye tuna) according with their difficult recognition at certain size (<40 cm). ATCO analysis in this thesis, has provided strong discriminate evidence between the target species proving to be one of the most reliable genetic tools capable to indagate within the genus Thunnus. Thus, our study has provided useful information for possible use of this protocol for conservation plans and management of this fish stocks.
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In recent years, several surveys have highlighted the presence of the rodent carcinogen furan in a variety of food items. Even though the evidence of carcinogenicity of furan is unequivocal, the underlying mechanism has not been fully elucidated. In particular, the role of genotoxicity in furan carcinogenicity is still not clear, even though this information is considered pivotal for the assessment of the risk posed by the presence of low doses of furan in food. In this work, the genotoxic potential of furan in vivo has been investigated in mice, under exposure conditions similar to those associated with cancer onset in the National Toxicology Program long-term bioassay. To this aim, male B6C3F1 mice were treated by gavage for 4 weeks with 2, 4, 8 and 15 mg furan/kg b.w./day. Spleen was selected as the target organ for genotoxicity assessment, in view of the capability of quiescent splenocytes to accumulate DNA damage induced by repeat dose exposure. The induction of primary DNA damage in splenocytes was evaluated by alkaline single-cell gel electrophoresis (comet assay) and by the immunofluorescence detection of foci of phosphorylated histone H2AX (gamma-H2AX). The presence of cross-links was probed in a modified comet assay, in which cells were irradiated in vitro with gamma-rays before electrophoresis. Chromosome damage was quantitated through the detection of micronuclei in mitogen-stimulated splenocytes using the cytokinesis-block method. Micronucleus induction was also assessed with a modified protocol, using the repair inhibitor 1-beta-arabinofuranosyl-cytosine to convert single-strand breaks in micronuclei. The results obtained show a significant (P < 0.01) increase of gamma-H2AX foci in mitogen-stimulated splenocytes of mice treated with 8 and 15 mg furan/kg b.w. and a statistically significant (P < 0.001) increases of micronuclei in binucleated splenocytes cultured in vitro. Conversely, no effect of in vivo exposure to furan was observed when freshly isolated quiescent splenocytes were analysed by immunofluorescence and in comet assays, both with standard and radiation-modified protocols. These results indicate that the in vivo exposure to furan gives rise to pre-mutagenic DNA damage in resting splenocytes, which remains undetectable until it is converted in frank lesions during the S-phase upon mitogen stimulation. The resulting DNA strand breaks are visualized by the increase in gamma-H2AX foci and may originate micronuclei at the subsequent mitosis.
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Functional disruption of dendritic cells (DC) is an important strategy for viral pathogens to evade host defences. In this context, porcine circovirus type 2 (PCV2), a single-stranded DNA virus, impairs plasmacytoid DC (pDC) and conventional DC activation by certain viruses or Toll-like receptor (TLR) ligands. This inhibitory capacity is associated with the viral DNA, but the impairment does not affect all signalling cascades; TLR7 ligation by small chemical molecules will still induce interleukin-6 (IL-6) and tumour necrosis factor-α secretion, but not interferon-α or IL-12. In this study, the molecular mechanisms by which silencing occurs were investigated. PP2, a potent inhibitor of the Lyn and Hck kinases, produced a similar profile to the PCV2 DNA interference with cytokine secretion by pDC, efficiently inhibiting cell activation induced through TLR9, but not TLR7, ligation. Confocal microscopy and cytometry analysis strongly suggested that PCV2 DNA impairs actin polymerization and endocytosis in pDC and monocyte-derived DC, respectively. Altogether, this study delineates for the first time particular molecular mechanisms involved in PCV2 interference with DC danger recognition, which may be responsible for the virus-induced immunosuppression observed in infected pigs.
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AIMS: The induction of tumour cell death by apoptosis is a major goal of cancer therapy and the in situ detection of apoptosis in tumour tissue has become an important diagnostic parameter. Different apoptosis detection methods assess distinct biochemical processes in the dying cell. Thus, their direct comparison is mandatory to evaluate their diagnostic value. The aim of this study was to compare the immunohistochemical detection of active caspase 3 and single-stranded DNA in primary and metastatic liver tumours as markers of apoptotic cell death. METHODS: We studied detection of active caspase 3 and single-stranded DNA in 20 primary hepatocellular carcinomas (HCC) and 20 liver metastases from colorectal carcinomas (CRC) using immunohistochemistry on paraffin sections. RESULTS: Our results reveal that both methods are suitable and sensitive techniques for the in situ detection of apoptosis, however, they also demonstrate that immunohistochemistry for active caspase 3 and single-stranded DNA have differential sensitivities in HCC and CRC. CONCLUSION: The sensitivity of apoptosis detection using immunohistochemistry for active caspase 3 and single-stranded DNA may be tumour cell type dependent.
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Abnormal activation of DNA repair pathways by deregulated signaling of receptor tyrosine kinase systems is a compelling likelihood with significant implications in both cancer biology and treatment. Here, we show that due to a potential substrate switch, mutated variants of the receptor for hepatocyte growth factor Met, but not the wild-type form of the receptor, directly couple to the Abl tyrosine kinase and the Rad51 recombinase, two key signaling elements of homologous recombination-based DNA repair. Treatment of cells that express the mutated receptor variants with the Met inhibitor SU11274 leads, in a mutant-dependent manner, to a reduction of tyrosine phosphorylated levels of Abl and Rad51, impairs radiation-induced nuclear translocation of Rad51, and acts as a radiosensitizer together with the p53 inhibitor pifithrin-alpha by increasing cellular double-strand DNA break levels following exposure to ionizing radiation. Finally, we propose that in order to overcome a mutation-dependent resistance to SU11274, this aberrant molecular axis may alternatively be targeted with the Abl inhibitor, nilotinib.
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Exposure to polycyclic aromatic hydrocarbons (PAH) and DNA damage were analyzed in coke oven (n = 37), refractory (n = 96), graphite electrode (n = 26), and converter workers (n = 12), whereas construction workers (n = 48) served as referents. PAH exposure was assessed by personal air sampling during shift and biological monitoring in urine post shift (1-hydroxypyrene, 1-OHP and 1-, 2 + 9-, 3-, 4-hydroxyphenanthrenes, SigmaOHPHE). DNA damage was measured by 8-oxo-7,8-dihydro-2'-deoxyguanosine (8-oxodGuo) and DNA strand breaks in blood post shift. Median 1-OHP and SigmaOHPHE were highest in converter workers (13.5 and 37.2 microg/g crea). The industrial setting contributed to the metabolite concentrations rather than the air-borne concentration alone. Other routes of uptake, probably dermal, influenced associations between air-borne concentrations and levels of PAH metabolites in urine making biomonitoring results preferred parameters to assess exposure to PAH. DNA damage in terms of 8-oxo-dGuo and DNA strand breaks was higher in exposed workers compared to referents ranking highest for graphite-electrode production. The type of industry contributed to genotoxic DNA damage and DNA damage was not unequivocally associated to PAH on the individual level most likely due to potential contributions of co-exposures.
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In 2011 and 2012, outbreaks of clinical canine babesiosis were observed in 2 areas of the Swiss Midlands that had no history of this disease so far. In one area, cases of canine babesiosis occurred over 2 consecutive tick seasons. The outbreaks involved 29 dogs, 4 of which died. All dogs were infected with large Babesia sp. as diagnosed in Giemsa-stained blood smears and/or PCR. These were identified as B. canis (formerly known as B. canis canis) by subsequent partial sequencing of the 18S rRNA gene of Babesia sp. Interestingly, the sequence indicated either a genotype with heterogeneity in the ssrRNA gene copies or double infection with different B. canis isolates. None of the dogs had a recent travel history, but one had frequently travelled to Hungary and had suffered twice from clinical babesiosis 18 and 24 months prior to the outbreak in autumn 2011. Retrospective sequencing of a stored blood DNA sample of this dog revealed B. canis, with an identical sequence to the Babesia involved in the outbreaks. For the first time in Switzerland, the partial 18S rRNA gene of B. canis could be amplified from DNA isolated from 19 out of 23 adult Dermacentor reticulatus ticks flagged in the same area. The sequence was identical to that found in the dogs. Furthermore, one affected dog carried a female D. reticulatus tick harbouring B. canis DNA. Our findings illustrate that, under favourable biogeographic and climatic conditions, the life-cycle of B. canis can relatively rapidly establish itself in previously non-endemic areas. Canine babesiosis should therefore always be a differential diagnosis when dogs with typical clinical signs are presented, regardless of known endemic areas.
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The synthesis of a novel bicyclic thymidine analogue carrying a β-fluoro substituent at C6' (6'F-bcT) has been achieved. Key steps of the synthesis were an electrophilic fluorination/stereospecific hydrogenation sequence of a bicyclo sugar intermediate, followed by an N-iodo-succinimide-induced stereoselective nucleosidation. A corresponding phosphoramidite building block was then prepared and used for oligonucleotide synthesis. Tm measurements of oligonucleotides with single and double incorporations showed a remarkable stabilization of duplex formation particularly with RNA as complement without compromising pairing selectivity. Increases in Tm were in the range of +1-2 °C compared to thymidine and +1-3 °C compared to a standard bc-T residue. Structural investigations of the 6'F-bcT nucleoside by X-ray crystallography showed an in-line arrangement of the fluorine substituent with H6 of thymine, however, with a distance that is relatively long for a nonclassical CF-HC hydrogen bond. In contrast, structural investigations in solution by (1)H and (13)C NMR clearly showed scalar coupling of fluorine with H6 and C6 of the nucleobase, indicating the existence of at least weak electrostatic interactions. On the basis of these results, we put forward the hypothesis that these weak CF-HC6 electrostatic interactions increase duplex stability by orienting and partially freezing torsion angle χ of the 6'F-bcT nucleoside.
