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Institute
- Institut für Pharmakologie und Toxikologie (407) (remove)
Sonstige beteiligte Institutionen
- Institut für Biopsychologie, Universität Dresden (1)
- Johns Hopkins School of Medicine (1)
- Johns Hopkins School of Medicine, Baltimore, MD, U.S. (1)
- Leibniz-Institut für Analytische Wissenschaften - ISAS - e.V. (1)
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- Universitätsklinikum Düsseldorf, Institut für Toxikologie (1)
Diabetes mellitus (DM) is one of the major current health problems due to lifestyle changes. Before diagnosis and in the early years of disease, insulin blood levels are elevated. However, insulin generates low levels of reactive oxygen species (ROS) which are integral to the regulation of a variety of intracellular signaling pathways, but excess levels of insulin may also lead to DNA oxidation and DNA damage. Three pharmaceutical compounds, resveratrol, lovastatin and the mTOR-inhibitor RAD-001, were investigated due to their known beneficial effects. They showed protective properties against genotoxic damage and significantly reduced ROS after in vitro treatment of cultured cells with insulin. Therefore, the selected pharmaceuticals may be attractive candidates to be considered for support of DM therapy.
Effect of inhalation exposure regimen on DNA binding potency of 1,2-dichloroethane in the rat
(1991)
1 ,2-Dichloroethane (DCE) was reported to be carcinogenic in rats in a long-tenn bioassay using gavage in com oil (24 and 48 mg/kg/day), but not by inhalation (up to 150-250 ppm, 7 h/day, 5 days/week). The daily dose metabolized was similar in the two experiments. In order to address this discrepancy, the genotoxicity of DCE was investigated in vivo under different exposure conditions. Fernale F-344 rats (183-188 g) were exposed to [1,2-14C]DCE in a closed inhalation chamber to either a low, constant concentration (0.3 mg/l = 80 ppm for 4 h) or to a peak concentration (up to 18 mg/1 = 4400 ppm) for a few minutes. After 12 h in the chamber, the dose metabolized under the two conditions was 34 mg/kg and 140 mg/k:g. DNA was isolated from liver and lung and was purified to constant specific radioactivity. DNA was enzymaticaBy hydrolyzed to the 3' -nucleotides which were separated by reverse phase HPLC. Most radioactivity eluted without detectable or with little optical density' indicating that the major part of the DNA radioactivity was due to covalent binding of the test compound. The Ievel of DNA adducts was expressed in the dose-nonnalized units ofthe Covalent Binding Index, CBI = f.Lmol adduct per mol DNA nucleotide/ mmol DCE per kg body wt. In liver DNA, the different exposure regimens resulted in markedly different CBI values of 1.8 and 69, for "constant-low" and ''peak" DCE exposure Ievels. In the Jung, the respective values were 0.9 and 31. It is concluded that the DNA darnage by DCE depends upon the concentration-time profile and that the carcinogenic potency determined in the gavage study should not be used for low-Ievel inhalation exposure.
Marine sponge-derived Streptomyces sp SBT343 extract inhibits staphylococcal biofilm formation
(2017)
Staphylococcus epidermidis and Staphylococcus aureus are opportunistic pathogens that cause nosocomial and chronic biofilm-associated infections. Indwelling medical devices and contact lenses are ideal ecological niches for formation of staphylococcal biofilms. Bacteria within biofilms are known to display reduced susceptibilities to antimicrobials and are protected from the host immune system. High rates of acquired antibiotic resistances in staphylococci and other biofilm-forming bacteria further hamper treatment options and highlight the need for new anti-biofilm strategies. Here, we aimed to evaluate the potential of marine sponge-derived actinomycetes in inhibiting biofilm formation of several strains of S. epidermidis, S. aureus, and Pseudomonas aeruginosa. Results from in vitro biofilm-formation assays, as well as scanning electron and confocal microscopy, revealed that an organic extract derived from the marine sponge-associated bacterium Streptomyces sp. SBT343 significantly inhibited staphylococcal biofilm formation on polystyrene, glass and contact lens surfaces, without affecting bacterial growth. The extract also displayed similar antagonistic effects towards the biofilm formation of other S. epidermidis and S. aureus strains tested but had no inhibitory effects towards Pseudomonas biofilms. Interestingly the extract, at lower effective concentrations, did not exhibit cytotoxic effects on mouse fibroblast, macrophage and human corneal epithelial cell lines. Chemical analysis by High Resolution Fourier Transform Mass Spectrometry (HRMS) of the Streptomyces sp. SBT343 extract proportion revealed its chemical richness and complexity. Preliminary physico-chemical characterization of the extract highlighted the heat-stable and non-proteinaceous nature of the active component(s). The combined data suggest that the Streptomyces sp. SBT343 extract selectively inhibits staphylococcal biofilm formation without interfering with bacterial cell viability. Due to absence of cell toxicity, the extract might represent a good starting material to develop a future remedy to block staphylococcal biofilm formation on contact lenses and thereby to prevent intractable contact lens-mediated ocular infections.
The number of bariatric surgeries being performed worldwide has markedly risen. While the improvement in obesity-associated comorbidities after bariatric surgery is well-established, very little is known about its impact on cancer risk. The peripheral lymphocyte micronucleus test is a widely used method for the monitoring of chromosomal damage levels in vivo, and micronucleus frequency positively correlates with cancer risk. Therefore, the aim of this study was to compare the micronucleus frequency before and after bariatric surgery in obese subjects. Peripheral blood mononuclear cells were collected from 45 obese subjects before and at two time-points after bariatric surgery (6 and 12 months) to assess spontaneous micronucleus frequency. Consistent with the increased cancer risk previously shown, bariatric surgery-induced weight loss led to a significant reduction in lymphocyte micronucleus frequency after 12 months. Interestingly, comorbidities such as type 2 diabetes mellitus and metabolic syndrome further seemed to have an impact on the lymphocyte micronucleus frequency. Our findings may indicate a successful reduction of cancer risk in patients following weight loss caused by bariatric surgery.
The comet assay is widely used in basic research, genotoxicity testing, and human biomonitoring. However, interpretation of the comet assay data might benefit from a better understanding of the future fate of a cell with DNA damage. DNA damage is in principle repairable, or if extensive, can lead to cell death. Here, we have correlated the maximally induced DNA damage with three test substances in TK6 cells with the survival of the cells. For this, we selected hydrogen peroxide (H\(_{2}\)O\(_{2}\)) as an oxidizing agent, methyl methanesulfonate (MMS) as an alkylating agent and etoposide as a topoisomerase II inhibitor. We measured cell viability, cell proliferation, apoptosis, and micronucleus frequency on the following day, in the same cell culture, which had been analyzed in the comet assay. After treatment, a concentration dependent increase in DNA damage and in the percentage of non-vital and apoptotic cells was found for each substance. Values greater than 20-30% DNA in tail caused the death of more than 50% of the cells, with etoposide causing slightly more cell death than H\(_{2}\)O\(_{2}\) or MMS. Despite that, cells seemed to repair of at least some DNA damage within few hours after substance removal. Overall, the reduction of DNA damage over time is due to both DNA repair and death of heavily damaged cells. We recommend that in experiments with induction of DNA damage of more than 20% DNA in tail, survival data for the cells are provided.
The comet assay is a commonly used method to determine DNA damage and repair activity in many types of samples. In recent years, the use of the comet assay in human biomonitoring became highly attractive due to its various modified versions, which may be useful to determine individual susceptibility in blood samples. However, in human biomonitoring studies, working with large sample numbers that are acquired over an extended time period requires some additional considerations. One of the most important issues is the storage of samples and its effect on the outcome of the comet assay. Another important question is the suitability of different blood preparations. In this study, we analysed the effect of cryopreservation on DNA damage and repair activity in human blood samples. In addition, we investigated the suitability of different blood preparations. The alkaline and FPG as well as two different types of repair comet assay and an in vitro hydrogen peroxide challenge were applied. Our results confirmed that cryopreserved blood preparations are suitable for investigating DNA damage in the alkaline and FPG comet assay in whole blood, buffy coat and PBMCs. Ex vivo hydrogen peroxide challenge yielded its optimal effect in isolated PBMCs. The utilised repair comet assay with either UVC or hydrogen peroxide-induced lesions and an aphidicolin block worked well in fresh PBMCs. Cryopreserved PBMCs could not be used immediately after thawing. However, a 16-h recovery with or without mitotic stimulation enabled the application of the repair comet assay, albeit only in a surviving cell fraction.
Role of PTEN in Oxidative Stress and DNA Damage in the Liver of Whole-Body Pten Haplodeficient Mice
(2016)
Type 2 diabetes (T2DM) and obesity are frequently associated with non-alcoholic fatty liver disease (NAFLD) and with an elevated cancer incidence. The molecular mechanisms of carcinogenesis in this context are only partially understood. High blood insulin levels are typical in early T2DM and excessive insulin can cause elevated reactive oxygen species (ROS) production and genomic instability. ROS are important for various cellular functions in signaling and host defense. However, elevated ROS formation is thought to be involved in cancer induction. In the molecular events from insulin receptor binding to genomic damage, some signaling steps have been identified, pointing at the PI3K/AKT pathway. For further elucidation Phosphatase and Tensin homolog (Pten), a tumour suppressor phosphatase that plays a role in insulin signaling by negative regulation of PI3K/AKT and its downstream targets, was investigated here. Dihydroethidium (DHE) staining was used to detect ROS formation in immortalized human hepatocytes. Comet assay and micronucleus test were performed to investigate genomic damage in vitro. In liver samples, DHE staining and western blot detection of HSP70 and HO-1 were performed to evaluate oxidative stress response. DNA double strand breaks (DSBs) were detected by immunohistostaining. Inhibition of PTEN with the pharmacologic inhibitor VO-OHpic resulted in increased ROS production and genomic damage in a liver cell line. Knockdown of Pten in a mouse model yielded increased oxidative stress levels, detected by ROS levels and expression of the two stress-proteins HSP70 and HO-1 and elevated genomic damage in the liver, which was significant in mice fed with a high fat diet. We conclude that PTEN is involved in oxidative stress and genomic damage induction in vitro and that this may also explain the in vivo observations. This further supports the hypothesis that the PI3K/AKT pathway is responsible for damaging effects of high levels of insulin.
The EU chemicals strategy for sustainability (CSS) asserts that both human health and the environment are presently threatened and that further regulation is necessary. In a recent Guest Editorial, members of the German competent authority for risk assessment, the BfR, raised concerns about the scientific justification for this strategy. The complexity and interdependence of the networks of regulation of chemical substances have ensured that public health and wellbeing in the EU have continuously improved. A continuous process of improvement in consumer protection is clearly desirable but any initiative directed towards this objective must be based on scientific knowledge. It must not confound risk with other factors in determining policy. This conclusion is fully supported in the present Commentary including the request to improve both, data collection and the time-consuming and bureaucratic procedures that delay the publication of regulations.
Die Breite der Wirkungen von Aldosteron auf Nierenzellen wurde lange Zeit unterschätzt. Inzwischen zeigte sich ein nicht unerheblicher Anteil des Hyperaldosteronismus an arterieller Hypertonie und ebenso mehren sich die Hinweise auf damit assoziierter erhöhter Inzidenz für maligne Entartung von Nierengewebe. In dieser Arbeit wurde der Effekt von Hyperaldosteronismus auf Nierenzellen von Ratten in vivo untersucht. Mittels real time quantitative PCR wurden die relative Expressionsveränderungen der mRNA von validierten Nierenschädigungsmarkern im Hyperaldosteronismusmodell kontrolliert beobachtet und statistisch ausgewertet. Anders als im analog durchgeführten Vorversuch mit DOCA an der Stelle von Aldosteron, ließ sich größtenteils kein über der natürlichen Streuung der Daten liegender, signifikanter Effekt der Nierenschädigung durch überhöhte Aldosteronspiegel nachweisen. Hierfür kommen vielfältige Gründe in Frage. Neben der technischen Variabilität, der Beschaffenheit der internen Kontrolle, potentiell vorhandenen Inhibitoren und der Qualität der mRNA, konnten eine Reihe von weiteren Gründen als Ursache für die Diskrepanz zu den Ergebnissen der mit DOCA behandelten Tiere ausgeschlossen werden. Neben der theoretischen Möglichkeit inter-methodischer Differenzen und sich daraus ergebender Variationen, sowie der noch weiter zu untersuchenden Rolle des Glukokortikoidrezeptors durch dessen variable gleichzeitige Aktivierung, ist die Interpretation im Sinne eines zu gering ausgeprägten Schädigungseffektes durch den Hyperaldosteronismus für den gewählten Stichprobenumfang naheliegend. Hiermit stimmt auch die Tatsache überein, dass der Effekt der Behandlung mit Aldosteron im Vergleich zur Behandlung mit DOCA von vorne herein deutlich geringer ausfallend erwartet wurde.
In the heart the β\(_1\)-adrenergic receptor (AR) and the β\(_2\)-AR, two prototypical G protein-coupled receptors (GPCRs), are both activated by the same hormones, namely adrenaline and noradrenaline. Both receptors couple to stimulatory G\(_s\) proteins, mediate an increase in cyclic adenosine monophosphate (cAMP) and influence the contractility and frequency of the heart upon stimulation. However, activation of the β\(_1\)-AR, not the β\(_2\)-AR, lead to other additional effects, such as changes in gene transcription resulting in cardiac hypertrophy, leading to speculations on how distinct effects can arise from receptors coupled to the same downstream signaling pathway.
In this thesis the question of whether this distinct behavior may originate from a differential localization of these two receptors in adult cardiomyocytes is addressed. Therefore, fluorescence spectroscopy tools are developed and implemented in order to elucidate the presence and dynamics of these endogenous receptors at the outer plasma membrane as well as on the T-tubular network of intact adult cardiomyocytes. This allows the visualization of confined localization and diffusion of the β\(_2\)-AR to the T-tubular network at endogenous expression. In contrast, the β\(_1\)-AR is found diffusing at both the outer plasma membrane and the T-tubules. Upon overexpression of the β\(_2\)-AR in adult transgenic cardiomyocytes, the receptors experience a loss of this compartmentalization and are also found at the cell surface. These data suggest that distinct signaling and functional effects can be controlled by specific cell surface targeting of the receptor subtypes.
The tools at the basis of this thesis work are a fluorescent adrenergic antagonist in combination of fluorescence fluctuation spectroscopy to monitor the localization and dynamics of the lowly expressed adrenergic receptors. Along the way to optimizing these approaches, I worked on combining widefield and confocal imaging in one setup, as well as implementing a stable autofocus mechanism using electrically tunable lenses.
Prerequisite to any biological laboratory assay employing living animals is consideration about its necessity, feasibility, ethics and the potential harm caused during an experiment. The imperative of these thoughts has led to the formulation of the 3R-principle, which today is a pivotal scientific standard of animal experimentation worldwide. The rising amount of laboratory investigations utilizing living animals throughout the last decades, either for regulatory concerns or for basic science, demands the development of alternative methods in accordance with 3R to help reduce experiments in mammals. This demand has resulted in investigation of additional vertebrate species displaying favourable biological properties. One prominent species among these is the zebrafish (Danio rerio), as these small laboratory ray-finned fish are well established in science today and feature outstanding biological characteristics. In this review, we highlight the advantages and general prerequisites of zebrafish embryos and larvae before free-feeding stages for toxicological testing, with a particular focus on cardio-, neuro, hepato- and nephrotoxicity. Furthermore, we discuss toxicokinetics, current advances in utilizing zebrafish for organ toxicity testing and highlight how advanced laboratory methods (such as automation, advanced imaging and genetic techniques) can refine future toxicological studies in this species.
Kaffee, die in der westlichen Welt am häufigsten verwendete psychoaktive Substanz, erwies sich im Mikrokern-Testes an Maus-Lymphomzellen L 5178Y als modulierend auf bekannte mutagene Agentien. In dieser Arbeit wurde meist Instantkaffee verwendet, der gegen N-Methyl-N-Nitro-N-Nitrosoguanidin (MNNG), Mitomycin C (MMC), Genistein, und Methylmethansulfonat getestet wurde. Bei MMC und Genistein erwies sich Kaffee als antimutagen. Bei MNNG hatte Kaffee keinen klaren Einfluss auf die Gentoxizität, ebenso blieb die Kaffee-Wirkung bezüglich MMS unklar. Kaffee minderte dosisabhängig das Wachstum und die Überlebensrate von L 5178Y - Zellen. Es wurde die Frage nach den Ursachen der modulierenden Effekte diskutiert. Insbesondere wurde die Hypothese erörtert, dass für die Richtung der Modulation nicht so sehr die Konzentration des Kaffees, sondern die mutagene Potenz der koinkubierten Substanz eine entscheidende Rolle spielen könnte. Ggf. wirkt Kaffee - im Sinne eines "abhärtenden" Effektes - bei schwach mutagenen Substanzen anitmutagen, bei stark mutagenen Substanzen hingegen synergistisch mutagen.
The biotransformation of 1,1,1,3,3-pentafluoropropane was investigated in rats and in in vitro systems. First, the metabolites were identified in vivo using GC/MS and 19F NMR analysis. The main metabolite was identified as trifluoroacetic acid, the minor metabolite as 3,3,3-trifluoropropionic acid and as a cleavage product, inorganic fluoride was found. As the in vitro system, liver microsomes from rat and human samples and rat liver homogenates were used. Trifluoroacetic acid and 3,3,3 trifluoropropionic acid were confirmed in vitro as metabolic intermediates, following biotransformation of 1,1,1,3,3-pentafluoropropane by the cytochrome P-450-system. Studies, designed for clarifying the cardiotoxicity of 1,1,1,3,3-pentafluoropropane were driven by the hypothesis that 3,3,3-trifluoropropionic acid is the toxic agent. This was based on the lethal toxicity, which was observed in previous in vivo experiments. In addition, the point of its structural similarity to toxic agents as for example monofluoroacetic acid or of possible metabolic intermediates like difluoroacrylic acid with known toxicity were considered to support this assumption. However, trifluoroacetic acid was neglected as the sought-after toxic agent because of its different toxic effects, known from literature. Investigations on the biotransformation of 3,3,3-trifluoropropionic acid were performed and resulted in no metabolic activity and in poor elimination of 3,3,3-trifluoropropionic acid in vivo. The histopathological effects on the heart, which were observed in the 90-day oral toxicity study of 1,1,1,3,3-pentafluoropropane in rats, namely mononuclear inflammatory cell infiltrations and degenerated myocardial fibers, were not observed after a 28 day repeated exposure of up to 10 mg/kg b.w. of 3,3,3-trifluoropropionic acid. However, a single high dose of 3,3,3-trifluoropropionic acid lead to severe toxicological effects. The difference in the observed toxic effects after a single and repeated administration may be due to adaptive mechanisms in rats. The toxicological effects included clinical signs like ataxia, coma and cramps. The conditions of the rats suggested possible inhibition of the energy supply to the organism. Furthermore, the interference of 3,3,3-trifluoropropionic acid in the functionality of the organism was investigated. Experiments were performed in vitro in rat liver and heart mitochondria to investigate effects on the mitochondrial ß-oxidation. However, the transformation of the substrate [U14C] palmitic acid in the ß oxidation pathway was not inhibited by 3,3,3-trifluoropropionic acid. In addition, no cytotoxicity of 3,3,3 trifluoropropionic acid was observed in the cell culture systems. The main effect after a single dose of 3,3,3-trifluoropropionic acid was seen in clinical pathology and metabonomic analysis. The decrease in blood glucose is considered to have the most far-reaching consequences for the toxicity of 3,3,3-trifluoropropionic acid. If considering this change as the primary effect after a single dose, secondary effects, for example, the above-mentioned clinical signs could be explained. In addition, the observed high level of ketone bodies might have been responsible for life-threatening possible ketoacidosis. In general, ketoacidosis occurs after an imbalance between glycolysis, lipolysis, TCA cycle activity and respiratory function. Based on the results, ß-oxidation of fatty acids was not affected, and due to the decrease in glucose levels and the high levels of acetyl CoA, glycolysis was considered not to be impaired. Increased amounts of acetyl CoA might be a result of insufficient activity of the TCA cycle. However, the inhibition of the TCA cycle can be based on the impairment of specific enzymes and/or on the involvement of messenger substrates like insulin. Supporting the first mentioned aspect are decreased levels of TCA cycle intermediates, like α-ketoglutarate or citrate, as seen in 1H-NMR spectra of urine. However, the second aspect would explain the drop in blood glucose with the impairment of glucose transporters or the impairment of the insulin balance. If a single dose of 3,3,3-trifluoropropionic acid had stimulated the insulin release, glycolysis would be activated, and high amounts of acetyl CoA would be produced. In case of impaired use by the TCA cycle, levels of ketone bodies would be increased. Experiments were designed to characterize the direct effect of 3,3,3-trifluoropropionic acid on rat insulinoma-derived INS-1 cells as possible increase in insulin release. Further investigations are necessary to answer in which step of the metabolic pathway 3,3,3-trifluoropropionic acid interferes or finally which specific enzyme is inhibited or activated by 3,3,3-trifluoropropionic acid, leading to the drop in blood glucose and finally in lethal toxicity.
Eine durch Aktivierung eines G-Protein gekoppelten Rezeptors induzierte Konfirmationsänderung resultiert in einer Signaltransduktion durch das G-Protein zu einem Effektorenzym wie der Adenylylcyclase. In dieser Arbeit konnten Aminosäuren in dem zur G-Protein gekoppelten Rezeptorfamilie zugehörigen beta1-adrenergen Rezeptor identifiziert werden, welche für dessen Aktivierung von Bedeutung sind. Der Analyse von beta1-adrenergen Rezeptormutanten lag die Erkenntnis zu Grunde, dass therapeutisch genutzte Liganden wie Terbutalin, oder das experimentell eingesetzte Broxaterol Agonisten am beta2- und beta3-adrenergen Rezeptor, jedoch Antagonisten am beta1-adrenergen Rezeptor sind. Dieses Verhalten wurde zum Anlass genommen spezifische Aminosäuren zu identifizieren, welche eine bedeutende Funktion in der Aktivierung von beta -Rezeptorsubtypen haben könnten. Nach einem Aminosäurevergleich innerhalb der Familie der beta-adrenergen Rezeptoren konnten Aminosäurepositionen identifiziert werden, die identisch im beta2- bzw. beta3-Rezeptor sind und sich von denen des beta1- Rezeptors unterscheiden und damit das Aktivierungsprofil von Broxaterol und Terbutalin widerspiegeln. Mit zielgerichteten Punktmutationen wurden nun insbesondere im Bereich der Transmembranregionen solche Aminosäuren im beta1-adrenergen Rezeptor durch die entsprechende des beta2- (beta3-) Rezeptors ersetzt. Obwohl keine der getesteten Mutanten Unterschiede im pharmakologischen Bindungsprofil zeigten, konnten vier Mutanten gefunden werden, welche partiell oder vollständig durch Broxaterol oder Terbutalin aktiviert wurden. Die beiden Mutanten I185L sowie D212N konnten mit Broxaterol und Terbutalin aktiviert werden, zwei Liganden, die Antagonisten am beta1- Wildtyprezeptor sind. Außerdem konnten zwei weitere Mutanten, V120L und K253R, durch Terbutalin aktiviert werden. Betrachtet man die Struktur von Terbutalin, so ist dieser Ligand den endogenen Katecholaminen ähnlicher als Broxaterol. Ein Rezeptormodell zeigt, dass die vier relevanten Aminosäuren außerhalb der Ligandenbindungsregion liegen und somit eine direkte Interaktion mit dem Liganden unwahrscheinlich erscheint. Diese These wird durch das im Vergleich zum Wildtyp nicht veränderte Bindungsprofil der beta1-Rezeptormutanten unterstützt. Diese Ergebnisse legen nahe, dass die Aminosäuren V120, I185, D212 und K253 in der ligandeninduzierten Konfirmationsänderung des beta1-Rezeptors von Bedeutung sind.
Kinetic assessment by in vitro approaches - A contribution to reduce animals in toxicity testing
(2015)
The adoption of directives and regulations by the EU requires the development of alternative testing strategies as opposed to animal testing for risk assessment of xenobiotics. Additionally, high attrition rates of drugs late in the discovery phase demand improvement of current test batteries applied in the preclinical phase within the pharmaceutical area. These issues were taken up by the EU founded 7th Framework Program “Predict-IV”; with the overall goal to improve the predictability of safety of an investigational product, after repeated exposure, by integration of “omics” technologies applied on well established in vitro approaches. Three major target organs for drug-induced toxicity were in focus: liver, kidney and central nervous system. To relate obtained dynamic data with the in vivo situation, kinetics of the test compounds have to be evaluated and extrapolated by physiologically based pharmacokinetic modeling.
This thesis assessed in vitro kinetics of the selected test compounds (cyclosporine A, adefovir dipivoxil and cisplatinum) regarding their reliability and relevance to respective in vivo pharmacokinetics. Cells were exposed daily or every other day to the test compounds at two concentration levels (toxic and non-toxic) for up to 14 days. Concentrations of the test compounds or their major biotransformation products were determined by LC-MS/MS or ICP-MS in vehicle, media, cells and plastic adsorption samples generated at five different time-points on the first and the last treatment day.
Cyclosporine A bioaccumulation was evident in primary rat hepatocytes (PRH) at the high concentration, while efficient biotransformation mediated by CYP3A4 and CYP3A5 was determined in primary human hepatocytes (PHH) and HepaRG cells. The lower biotransformation in PRH is in accordance with observation made in vivo with the rat being a poor model for CYP3A biotransformation. Further, inter-assay variability was noticed in PHH caused by biological variability in CYP3A4 and CYP3A5 activity in human donors. The inter-assay variability observed for PRH and HepaRG cells was a result of differences between vehicles regarding their cyclosporine A content. Cyclosporine A biotransformation was more prominent in HepaRG cells due to stable and high CYP3A4 and CYP3A5 activity. In addition, in vitro clearances were calculated and scaled to in vivo. All scaled in vitro clearances were overestimated (PRH: 10-fold, PHH: 2-fold, HepaRG cells: 2-fold). These results should be proven by physiologically-based pharmacokinetic modeling and additional experiments, in order to verify that these overestimations are constant for each system and subsequently can be diminished by implementation of further scaling factors.
Brain cell cultures, primary neuronal culture of mouse cortex cells and primary aggregating rat brain cells, revealed fast achieved steady state levels of cyclosporine A. This indicates a chemical distribution of cyclosporine A between the aqueous and organic phases and only minor involvement of biological processes such as active transport and biotransformation. Hence, cyclosporine A uptake into cells is presumably transport mediated, supported by findings of transporter experiments performed on a parallel artificial membrane and Caco-2 cells. Plastic adsorption of cyclosporine A was significant, but different for each model, and should be considered by physiologically based pharmacokinetic modeling.
Kinetics of adefovir dipivoxil highlights the limits of in vitro approaches. Active transporters are required for adefovir uptake, but were not functional in RPTECT/TERT1. Therefore, adefovir uptake was limited to passive diffusion of adefovir dipivoxil, which itself degrades time-dependently under culture conditions.
Cisplatinum kinetics, studied in RPTEC/TERT1 cells, indicated intracellular enrichment of platinum, while significant bioaccumulation was not noted. This could be due to cisplatinum not reaching steady state levels within 14 days repeated exposure. As shown in vivo, active transport occurred from the basolateral to apical side, but with lower velocity. Hence, obtained data need to be modeled to estimate cellular processes, which can be scaled and compared to in vivo.
Repeated daily exposure to two different drug concentrations makes it possible to account for bioaccumulation at toxic concentrations or biotransformation/extrusion at non-toxic concentrations. Potential errors leading to misinterpretation of data were reduced by analyses of the vehicles as the applied drug concentrations do not necessarily correspond to the nominal concentrations. Finally, analyses of separate compartments (medium, cells, plastic) give insights into a compound’s distribution, reduce misprediction of cellular processes, e.g. biotransformation, and help to interpret kinetic data. On the other hand, the limits of in vitro approaches have also been pointed out. For correct extrapolation to in vivo, it is essential that the studied in vitro system exhibits the functionality of proteins, which play a key role in the specific drug induced toxicity. Considering the benefits and limitations, it is worth to validate this long-term treatment experimental set-up and expand it on co-culture systems and on organs-on-chips with regard to alternative toxicity testing strategies for repeated dose toxicity studies.
Diabetes mellitus ist die häufigste Stoffwechselerkrankung in Deutschland. Sulfonylharnstoffe (SH) stellen die älteste und eine sehr prominente Gruppe in der oralen Therapie des Diabetes mellitus Typ II dar, die eine verstärkte Insulinfreisetzung vorrangig durch die Hemmung eines ATP-sensitiven Kaliumkanals (K+ATPKanal) erreichen. Daneben konnten weitere Proteine identifiziert werden, die mit SH interagieren und zu deren Effekten beitragen. Während bereits in frühen Arbeiten gezeigt werden konnte, dass SH Vertreter der Phosphodiesterasen (PDE)Familie in ihrer Funktion behindern können, wurde kürzlich Epac2 (exchange protein directly activated by cAMP 2) als weiteres Zielprotein für SH angeführt. Insbesondere die Fähigkeit von SH, direkt an Epac2 zu binden, wird in der Literatur kontrovers diskutiert und eine indirekte Aktivierung durch eine PDE-Hemmung und einen erhöhten cAMP-Spiegel als Mechanismus vermutet. Zur weiteren Untersuchung wurden in dieser Arbeit FRET-basierte Biosensoren verwendet, um die Wirkung von SH auf Epac und PDEs näher zu untersuchen.
Dabei konnte sowohl in einem photometrischen Ansatz als auch in lebenden Zellen, die einen Epac2-basierten Sensor enthalten, gezeigt werden, dass eine Aktivierung durch SH stattfindet. Da sowohl Epac2-camps, der von allen hier verwendeten Sensoren mit der höchsten Sensitivität für cAMP, als auch CFP-Epac1δDEPYFP nicht auf SH reagieren, ist diese Aktivierung selektiv für die Isoform Epac2 und wird vorrangig nicht durch eine PDE-Hemmung verursacht. Die Verwendung weiterer Sensoren mit verschiedenen Varianten von Epac2 (verlängerte Version von Epac2-camps) zeigen mit zunehmender Länge über die cAMP-Bindedomäne hinaus eine beginnende Reaktion im Sinne einer instabilen FRET-Kurve (Epac2camps long) bzw. eine deutliche Aktivierung durch den SH (Epac2-camps superlong), wodurch eine direkte Aktivierung bestätigt wird, und suggerieren eine Bindestelle für SH, die sich von denen von cAMP unterschiedet und weiter eingeengt werden konnte (im näheren Bereich von Q454 bzw. E460).
Obwohl hierdurch eine direkte Aktivierung gezeigt werden konnte, ist die grundsätzliche Fähigkeit der SH, PDE zu beeinflussen, keineswegs geklärt. Daher wurden weitere Sensoren konstruiert bzw. verwendet, die basierend auf Epac1-camps und Epac2-camps verschiedene PDEs enthalten. Dabei konnte durch die Zugabe von SH eine deutliche Aktivierung des jeweiligen Sensors und somit eine PDEHemmung nachgewiesen werden. Dies konnte sowohl für PDE4A als auch für die in Inselzellen überwiegend vorkommende PDE3B gezeigt werden.
Dadurch ergeben sich einige (klinisch relevante) Implikationen. Zum einen stellt neben der direkten Epac-Aktivierung auch die direkte Hemmung der PDE einen wichtigen Mechanismus für die Sekretion von Insulin dar. Außerdem sind bei PDEHemmung und direkter Epac-Aktivierung außerhalb der Inselzellen auch Nebenwirkungen in anderen Organen zu erwarten wie z.B. die Entstehung lebensgefährlicher Rhythmusstörungen in Herzmuskelzellen.
Die Herzinsuffizienz, eine der häufigsten chronischen Krankheiten in der westlichen Welt, ist als Folge einer Myokardschädigung durch eine verschlechterte Pumpfunktion des Herzens charakterisiert, die der Körper durch verschiedene Kompensationsmechanismen zur Kontraktilitätssteigerung auszugleichen versucht.
Wichtiger Mechanismus hierfür ist die Kontraktilitäts- und Frequenzsteigerung über ß-adrenerge Rezeptorsignale, welche bei langfristiger Stimulation allerdings zu einer Abnahme der Funktionalität und Minderexpression eben dieses Rezeptorsystems, sowie der gleichzeitigen Verschlechterung der Herzinsuffizienz führt. Interessanterweise wird parallel zur verminderten Rezeptorexpression bei Herzinsuffizienzpatienten eine Zunahme der GRK-Aktivität beobachtet. Diese Kinase ist in der Lage, ß-adrenerge GPCR-Signale durch Phosphorylierung des membranständigen Rezeptors herunterzuregulieren.
Durch einen PKC-abhängigen switch von Raf1 zu GRK2 konnte mit RKIP ein kardialer, endogener Inhibitor der GRK2 identifiziert werden. Es wurde in vitro und in vivo in Mäusen mit myokardialer Überexpression von RKIP gezeigt, dass RKIP fähig ist, die kontraktile Funktion von Herzmuskelzellen zu verbessern, negative kardiale Langzeitfolgen wie eine Verschlechterung der Insuffizienz, Remodeling-Prozesse wie Zunahme der Fibrosierung und eine gesteigerte Apoptoserate, sowie kardiale Rhythmusstörungen protektiv zu beeinflussen.
Um die endogene Rolle von RKIP weiter zu erörtern, wurde in dieser Arbeit der Knockout von RKIP unter basalen Bedingungen, als auch nach transverser Aortenkonstriktion (TAC) untersucht. Zur Untersuchung physiologischer Parameter wie der Verkürzungsfraktion, oder dem linksventrikulärem diastolischen Durchmesser wurden echokardiographische Verfahren herangezogen. In diesen Untersuchungen zeigte sich nach dreiwöchiger TAC eine Verschlechterung der Pumpfunktion, sowie eine verstärkte Dilatation des linken Ventrikels in RKIP-/--Mäusen. Gestützt wurden diese Ergebnisse durch einen erhöhten pulmonalen Blutrückstau in RKIP-/--Mäusen nach chronischer Druckbelastung.
Zudem wurde an isolierten Kardiomyozyten die Kinetik von Kalzium als für die Kontraktion verantwortlichen Botenstoff durch intrazelluläre Fluoreszenz-Echtzeit-Messungen, sowie die Kontraktion und Relaxation auf Zell- und Sarkomerebene durch ein optisches Kamerasystem untersucht. Hier zeigte sich ohne den Einfluss β-adrenerger Stimulantien äquivalent zum basalen Phänotyp dieser Tiere in RKIP-/--Kardiomyozyten keine Veränderung der Kalzium-Kinetik, sowie der Kontraktion und Relaxation auf Zell- und Sarkomerebene.
Des Weiteren wurden mittels realtime PCR die Expressionslevels von Insuffizienzmarkern wie BNP und ANP, sowie von Kollagen 3 bestimmt. Der Grad der Fibrosierung wurde zusätzlich durch Quantifizierung der fibrosierten Areale in histologischen Querschnitten untersucht. Apoptotische Veränderungen wurden mittels TUNEL-Assay auf histologischer Ebene bestimmt. In all diesen Untersuchungen zeigte sich ein fortgeschrittenes kardiales Remodeling in RKIP-/--Mäusen nach TAC im Vergleich zu Wildtyptieren. Hand in Hand mit dem Bild einer fortgeschrittenen Herzinsuffizienz in RKIP-/--Mäusen nach TAC konnte zudem in diesen Tieren eine gesteigerte Mortalität nach chronischer Hochdruckbelastung festgestellt werden.
In Kombination mit den protektiven Eigenschaften einer kardialen RKIP-Überexpression, sowie dem positiven Effekt einer retroviralen RKIP-Transfektion sprechen diese Ergebnisse für RKIP als einen interessanten körpereigenen Angriffspunkt für die kontraktilitätssteigernde Therapie der Herzinsuffizienz, den es in weiteren klinischen Studien zu untersuchen gilt.
Phosducin-like protein (PhLP) gehört zur Phosducinfamilie der G-Protein-betagamma-Regulatoren und kommt in zwei Spleißvarianten vor. Die lange Isoform PhLPlong und die kurze Isoform PhLPshort unterscheiden sich allein durch das Vorhandensein des 81 Aminosäuren langen N-Terminus von PhLPlong. In Versuchen mit gereinigten Proteinen erwies sich PhLPlong als der stärkere Gbetagamma-Inhibitor, während die Bedeutung von PhLPshort nicht bekannt war. In dieser Arbeit wird gezeigt, daß in transfizierten HEK 293-Zellen PhLPshort die Gbetagamma-vermittelte Signalbildung 20mal stärker hemmt als PhLPlong. Da der zusätzliche N-Terminus von PhLPlong mehrere potentielle Phosphorylierungsstellen für die konstitutiv aktive Caseinkinase 2 besitzt, wurde angenommen, daß die lange Spleißvariante in Zellen einer solchen Regulation unterliegt, was sich auf seine Funktion als Gbetagamma-Inhibitor auswirkt. Durch schrittweise Trunkierungen bzw. Serin-/Threonin-Alaninmutationen wurden die potentiellen Phosphorylierungsstellen entfernt, was zur Verbesserung der Gbetagamma-Hemmfähigkeit führte. Der N-terminale Aminosäurenabschnitt Ser-18/Thr-19/Ser-20 wurde dabei als die verantwortliche Stelle identifiziert. In unserer Arbeitsgruppe wurde gezeigt, daß PhLPlong in HEK 293-Zellen im Gegensatz zu PhLPshort einer konstitutiven Phosphorylierung unterliegt und durch die Caseinkinase2 katalysiert wird. In dieser Arbeit werden die Phosphorylierung von PhLPlong durch die Caseinkinase2 anhand von rekombinanten Proteinen sowie ihre Kinetik dargestellt. Das Vorhandensein von mRNA der Caseinkinase2 in HEK 293-Zellen zeigt, daß sie in der Zelle exprimiert und somit aktiv ist, was ihre physiologische Bedeutung herausstellt. Eine direkte Gbetagamma-Bindung konnte durch Immunpräzipitation nur für PhLPlong nachgewiesen werden, weswegen für PhLPshort ein alternativer Mechanismus der Gbetagamma-Hemmung angenommen wurde, was in folgenden Arbeiten näher untersucht wurde.
Analysis of the Frequency of Kidney Toxicity in Preclinical Safety Studies using the eTOX Database
(2022)
This research aimed to obtain reliable data on the frequency of different
types of renal toxicity findings in 28-day oral gavage studies in Wistar rats, their
consistency across species and study duration, as well as the correlation between histopathological endpoints and routinely used clinical chemistry parameters indicative of kidney injury. Analysis of renal histopathological findings was
carried out through extraction of information from the IMI eTOX database.
Spontaneous renal histopathological findings in 28-day oral gavage studies in control Wistar rats and beagle dogs confirmed tubular basophilia and renal
dilation as the most frequent incidental findings in controls, whereas necrosis
and glomerulosclerosis were not identified at all or only rarely as a background
lesion.
Histopathological evidence of necrosis and glomerulosclerosis was associated with changes in clinical chemistry parameters in 28-day oral gavage
Wistar rat studies. Necrosis was frequently accompanied by a statistically significant rise in serum creatinine and serum urea, whereas serum albumin was
frequently found to decrease statistically significantly in treatment groups in
which necrosis was recorded. In contrast to necrosis, glomerulosclerosis was
not associated with statistically significant changes in serum creatinine and urea
in any of the 28-day oral gavage Wistar rat treatment groups, but appears to be
best reflected by a pattern of statistically significantly lowered serum albumin
and serum protein together with a statistically significant increase in serum cholesterol. As might have been expected based on the high background incidences
of tubular basophilia and dilation, no consistent changes in any of the clinical
chemistry parameters were evident in animals in which renal lesions were confined to renal tubular basophilia or dilation. In summary, the routinely provided
clinical chemistry parameters are rather insensitive - novel kidney biomarkers
such as Cystatin C, β-trace protein and Kidney injury molecule 1 should further
be evaluated and integrated into routine preclinical and clinical practice. However, evaluation of clinical chemistry data was limited by the lack of individual
animal data. Even though an extensive amount of preclinical studies is accessible
through the eTOX database, comparison of consistency across time was limited
by the limited number of shorter- and longer term studies conducted with the
compounds identified as causing renal histopathological changes within a 28-
day study in rats. A high consistency across time for both treatment-related tubular basophilia and treatment-related dilation cannot be confirmed for either of
the two effects as these two findings were both induced only rarely in studies
over a different treatment-duration other than 28 days after administration of the
compounds which provoked the respective effect in a 28-day study. For the
finding of necrosis consistency across time was low with the exception of
“AZ_GGA_200002321”, in which renal papillary necrosis was identified consistently throughout different treatment durations (2, 4, 26, 104 weeks). No shorter and longer-term studies were available for the compounds identified as causing
glomerulosclerosis within a 28-day study in rats.
No consistent findings of the selected histopathological endpoints were
identified in any of the corresponding 28-day oral gavage beagle dog studies
after treatment with the identical compounds, which caused the respective effect after 28-day treatment in rats. However, in the overwhelming majority of
cases, beagle dogs were administered lower doses in these studies in comparison to the corresponding 28-day Wistar rat studies.
Searching the eTOX database yielded no 28-day oral gavage studies in
Wistar and Wistar Han rats in which accumulation of hyaline droplets, tubular
atrophy or hyperplasia was recorded. Only one 28-day oral gavage Wistar rat
study was identified with the histopathological result of neutrophilic inflammation. Consequently, evaluation of these four renal findings in relation to clinical
chemistry parameters and consistency across time and species cannot be
made.
In summary, this work contributes knowledge through mining and evaluating the eTOX database on a variety of specific renal endpoints that frequently
occur after administration of trial substances in 28-day oral gavage studies in
Wistar rats in the field of preclinical toxicity with specific focus on their frequency relation to background findings, as well as consistency across time and species. Targeted statistical evaluation of in vivo data within joint research ventures
such as the eTOX project, presents an enormous opportunity for an innovative
future way of aiding preclinical research towards a more efficient research in the
preclinical stage of drug development. This could be achieved through the augmentation of methodological strategies and possibly novel software tools in order to predict in vivo toxicology of new molecular entities by means of information that is already available before early stages of the drug development
pipeline begin.