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Institute
- Institut für Pharmakologie und Toxikologie (406) (remove)
Sonstige beteiligte Institutionen
- Institut für Biopsychologie, Universität Dresden (1)
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Phosducin-like Protein existiert in zwei Splicevarianten: PhLPLONG (PhLPL) und PhLPSHORT (PhLPS). Sie unterscheiden sich in der Länge ihres N-Terminus und in ihrem Expressionsmusters: Die lange Form (PhLPL) wird ubiquitär exprimiert und bindet G-Protein-betagamma-Untereinheiten (Gbetagama), was zur Hemmung von Gbetagamma-abhängigen Funktionen führt. Der um 83 Aminosäuren verlängerte N-Terminus besitzt ein hoch konserviertes Motiv, welches für die Gbetagamma-Bindung und Regulation von entscheidender Bedeutung ist. Im Gegensatz hierzu besitzt die kurzen Spliceform PhLPS, deren Expression in verschiedenen Gewebetypen deutlich geringer ist, diese hoch konservierte Region nicht. In der vorliegenden Arbeit wurde nun erstmals die Rolle von PhLPL und PhLPS bei der Gbetagamma-Regulation in intakten Zellen untersucht. Hierbei konnte überraschenderweise gefunden werden, dass PhLPS der potentere und effizientere Regulator für Gbetagamma-abhängige Signale war. PhLPL hingegen schien in seiner Gbetagamma-regulierenden Fähigkeit limitiert zu werden. Die Ursache dieser Limitierung von PhLPL in intakten Zellen wurde auf eine konstitutive Phosphorylierung seines verlängerten N-Terminus durch die ubiquitäre Casein Kinase 2 (CK2) zurückgeführt. Die verantwortlichen Phosphorylierungsstellen (S18, T19, S20) wurde identifiziert und die Mutation der CK2-Phosphorylierungsstellen (PhLPLA18-20) führte zu einer Verbesserung der hemmenden Funktion von PhLPL in Zellen. In vitro-Assays zur Bindungsfähigkeit von rekombinantem PhLPL (vor und nach CK2-Phosphorylierung) zeigten allerdings: die Phosphorylierung beeinflusste die Affinität nicht. Eine genaue Analyse der N-terminalen Strukuren von PhLPL zeigte indes, dass die Regulationsfähigkeit von PhLPL in intakten Zellen vor allem in dem konservierten Gbetagamma-Bindungsmotiv zu suchen war. Die Mutation einer einzigen Aminosäure (W66V) war ausreichend, um sowohl die Gbetagamma-Bindungsfähigkeit, als auch die Fähigkeit zur funktionellen Hemmung in intakten Zellen zu verlieren. Was war also der Mechanismus der Hemmung von Gbetagamma durch PhLPS und die phophorylierungsdefiziente Mutante von PhLPL? Ein erster Hinweis hierauf kam von der Beobachtung, dass die Gbeta- und Ggamma-Untereinheiten in Anwesenheit von PhLPS in ihrem Proteingehalt deutlich reduziert vorlagen (wie in Western Blots gezeigt). Dieser Mechanismus schien von proteasomalen Abbauwegen abzuhängen (gezeigt durch Effekte des spezifischen Proteasominhibitors Lactazystin). Allerdings schien eine Stabilisierung der Gbeta- und Ggamma-Untereinheiten (durch N-terminale Fusion mit einem Protein zur vitalen Proteinfärbung) nicht die Funktionsfähigkeit von Gbetagamma in Anwesenheit von PhLPS bewahren zu können. Ganz im Gegenteil, es wurde gezeigt, dass Gbeta und Ggamma hierbei nicht mehr zu einem funktionellen Dimer assoziierten. Dies war ein Hinweis darauf, dass möglicherweise Proteinfaltungsmechanismen bei der Regulation essentiell sein könnten. Eine postulierte Rolle bei der Faltung von WD40-Repeatproteinen wie der Gbeta-Untereinheit wurde dem Chaperonin-Komplex CCT (chaperonin containing TCP) zugedacht. Folgerichtig konnte PhLPS mit seinen funktionell aktiven Domänen an endogenes TCP-1alpha (einer Untereinheit von CCT) binden. Ferner konnte gezeigt werden, dass die Hemmung des CCT-Komplexes durch RNA-Interferenz mit TCP-1alpha ebenso wie PhLPS zur spezifischen Reduktion von Gbetagamma führte. In dieser Arbeit wurde also ein neuartiger Mechanismus der G-Protein-Regulation durch Hemmung der Proteinfaltung von Gbetagamma beschrieben. Ein Schaltmechanismus zwischen direkter Gbetagamma-Bindung (induziert durch CK2-Phosphorylierung von PhLPL) und Hemmung der Proteinfaltung von Gbetagamma (induziert durch alternatives Splicen oder durch Dephosphorylierung von PhLP) wird postuliert.
Streptococcus pneumoniae is one of the major causes of bacterial meningitis, which mainly affects young infants in the developing countries of Africa, Asia (esp. India) and South America, and which has case fatality rates up to 50% in those regions. Bacterial meningitis comprises an infection of the meninges and the sub-meningeal cortex tissue of the brain, whereat the presence of pneumolysin (PLY), a major virulence factor of the pneumococcus, is prerequisite for the development of a severe outcome of the infection and associated tissue damage (e. g. apoptosis, brain edema, and ischemia). Pneumolysin belongs to the family of pore forming, cholesterol-dependent cytolysins (CDCs), bacterial protein toxins, which basically use membrane-cholesterol as receptor and oligomerize to big aggregates, which induce cell lysis and cell death by disturbance of membrane integrity. Multiple recent studies, including this work, have revealed a new picture of pneumolysin, whose cell-related properties go far beyond membrane binding, pore formation and the induction of cell death and inflammatory responses. For a long time, it has been known that bacteria harm the tissues of their hosts in order to promote their own survival and proliferation. Many bacterial toxins aim to rather hijack cells than to kill them, by interacting with cellular components, such as the cytoskeleton or other endogenous proteins. This study was able to uncover a novel capacity of pneumolysin to interact with components of the actin machinery and to promote rapid, actin-dependent cell shape changes in primary astrocytes. The toxin was applied in disease-relevant concentrations, which were verified to be sub-lytic. These amounts of toxin induced a rapid actin cortex collapse in horizontal direction towards the cell core, whereat membrane integrity was preserved, indicating an actin severing function of pneumolysin, and being consistent with cell shrinkage, displacement, and blebbing observed in live cell imaging experiments. In contrast to neuroblastoma cells, in which pneumolysin led to cytoskeleton remodeling and simultaneously to activation of Rac1 and RhoA, in primary astrocytes the cell shape changes were seen to be primarily independent of small GTPases. The level of activated Rac1 and RhoA did not increase at the early time points after toxin application, when the initial shape changes have been observed, but at later time points when the actin-dependent displacement of cells was slower and less severe, probably presenting the cell’s attempt to re-establish proper cytoskeleton function. A GUV (giant unilamellar vesicle) approach provided insight into the effects of pneumolysin in a biomimetic system, an environment, which is strictly biochemical, but still comprises cellular components, limited to the factors of interest (actin, Arp2/3, ATP, and Mg2+ on one side, and PLY on the other side). This approach was able to show that the wildtype-toxin, but not the Δ6 mutant (mutated in the unfolding domain, and thus non-porous), had the capacity to exhibit its functions through a membrane bilayer, meaning it was able to aggregate actin, which was located on the other side of the membrane, either via direct interaction with actin or in an Arp2/3 activating manner. Taking a closer look at these two factors with the help of several different imaging and biochemical approaches, this work unveiled the capacity of pneumolysin to bind and interact both with actin and Arp2 of the Arp2/3 complex. Pneumolysin was capable to slightly stabilize actin in an actin-pyrene polymerization assay. The same experimental setup was applied to show that the toxin had the capacity to lead to actin polymerization through activation of the Arp2/3 complex. This effect was additionally confirmed with the help of fluorescent microscopy of rhodamine (TRITC)-tagged actin. Strongest Arp2/3 activation, and actin nucleation/polymerization is achieved by the VCA domain of the WASP family proteins. However, addition of PLY to the Arp2/3–VCA system led to an enhanced actin nucleation, suggesting a synergistic activation function of pneumolysin. Hence, two different effects of pneumolysin on the actin cytoskeleton were observed. On the one hand an actin severing property, and on the other hand an actin stabilization property, both of which do not necessarily exclude each other. Actin remodeling is a common feature of bacterial virulence strategies. This is the first time, however, that these properties were assigned to a toxin of the CDC family. Cytoskeletal dysfunction in astrocytes leads to dysfunction and unregulated movement of these cells, which, in context of bacterial meningitis, can favor bacterial penetration and spreading in the brain tissue, and thus comprises an additional role of pneumolysin as a virulence factor of Streptococcus pneumonia in the context of brain infection.
The eukaryotic actin cytoskeleton is an evolutionarily well-established pathogen target, as a large number of bacterial factors disturb its dynamics to alter the function of the host cells. These pathogenic factors modulate or mimic actin effector proteins or they modify actin directly, leading to an imbalance of the precisely regulated actin turnover. Here, we show that the pore-forming, cholesterol-dependent cytolysin pneumolysin (PLY), a major neurotoxin of Streptococcus pneumoniae, has the capacity to bind actin directly and to enhance actin polymerisation in vitro. In cells, the toxin co-localised with F-actin shortly after exposure, and this direct interaction was verified by Förster resonance energy transfer. PLY was capable of exerting its effect on actin through the lipid bilayer of giant unilamellar vesicles, but only when its pore competence was preserved. The dissociation constant of G-actin binding to PLY in a biochemical environment was 170–190 nM, which is indicative of a high-affinity interaction, comparable to the affinity of other intracellular actin-binding factors. Our results demonstrate the first example of a direct interaction of a pore-forming toxin with cytoskeletal components, suggesting that the cross talk between pore-forming cytolysins and cells is more complex than previously thought.
Die Raf-MEK-ERK1/2-Kaskade spielt eine wichtige Rolle in der Vermittlung von kardialer Hypertrophie und Zellüberleben. Durch unsere Arbeitsgruppe konnte im Vorfeld gezeigt werden, dass die Dimerisierung von ERK2 eine Voraussetzung für dessen Autophosphorylierung an Thr188 darstellt, welche wiederum für die Übermittlung der hypertrophen Effekten von ERK1/2 erforderlich ist. Im Rahmen dieser Arbeit wurde daraus abgeleitet die Fragestellung untersucht, ob mit Verhinderung der ERK2-Dimerisierung eine nützliche Strategie zur Inhibition von Hypertrophie vorliegt und welchen Einfluss diese auf das Zellüberleben hat.
Die Auswirkungen der Dimerisierungsdefizienz von ERK2 wurden in neonatalen Kardiomyozyten der Ratte und in transgenen Mäusen mithilfe einer ERK2-Mutante untersucht, der einige Aminosäuren in der ERK-ERK-Interaktionsfläche fehlen und daher keine Dimere bilden kann (ERK2Δ174-177). Eine Überexpression von ERK2Δ174-177 in neonatalen Kardiomyozyten verringerte signifikant die Antwort auf hypertrophe Stimuli (Phenylephrin, Endothelin 1). Im Anschluss daran wurden die Effekte der Dimerisierungsdefizienz von ERK2 in vivo an transgenen Mäusen mit kardialer Überexpression von ERK2Δ174-177 erforscht. Diese Mäuse zeigten unter basalen Bedingungen keine Unterschiede gegenüber Wildtyp-Mäusen hinsichtlich Kardiomyozytengröße, Ventrikelwanddicke und kardialer Funktion. Unter chronischer Druckbelastung mittels TAC ließ sich hingegen ein signifikant vermindertes Ausmaß an Hypertrophie im Vergleich zu Wildtyp quantifizieren. Da der ERK1/2-Signalweg auch am Überleben von Kardiomyozyten beteiligt ist, wurde die Apoptose an histologischen Schnitten von Mausherzen analysiert. Interessanterweise fand sich bei Herzen, die das dimerisierungsdefiziente ERK2-Protein überexprimierten, eine mit Wildtyp vergleichbare Anzahl TUNEL-positiver Zellen. Ein ähnliches Ergebnis konnte bei der Messung des Fibrosegrades an Sirius-Rot gefärbten histologischen Schnitten beobachtet werden. Zuletzt wurden die Folgen der ERK2-Dimerisierungsdefizienz auf physiologische Hypertrophie mit einem Laufrad-Versuchsaufbau evaluiert. Transgene ERK2Δ174-177- und Wildtyp-Mäuse zeigten unter diesem physiologischen Stimulus keine Unterschiede im Hinblick auf die Zunahme an kardialer Hypertrophie.
Da die Dimerisierungsdefizienz von ERK2 zu einer reduzierten pathologischen Hypertrophie, ohne negative Auswirkungen auf ERK1/2-vermittelte anti-apoptotische Effekte noch auf kardiale Funktion oder physiologische Hypertrophieprozesse führt, stellt die Hemmung der ERK-Dimerisierung ein attraktives Ziel zur Therapie pathologischer Hypertrophie sowie potentiell auch anderer auf den ERK1/2-Signalweg basierenden Krankheiten dar.
Purpose:
The purpose of this study was to determine possible genotoxic effects of a new very promising antibacterial/ antiviral drug FS-1.
Methods:
The drug was tested in TA98, TA100, TA102, TA 1535 and TA1537 strains of Salmonella (Ames test) with and without metabolic activation, and also in mouse lymphoma L5178Y cells by means of micronucleus and comet assays. In microbes the drug was tested at concentrations up to 500 \(\mu\)g/plate and in mouse lymphoma cells up to 2,000 \(\mu\)g/ml.
Results:
In both test-systems in all experiments completely negative results were obtained although FS-1 was tested at maximum tolerated doses.
Conclusions:
The drug is not genotoxic. This is advantageous because many antibacterial/antiviral drugs possess such activity.
G protein-coupled receptors (GPCRs) constitute the largest class of membrane proteins, and are the master components that translate extracellular stimulus into intracellular signaling, which in turn modulates key physiological and pathophysiological processes. Research within the last three decades suggests that many GPCRs can form complexes with each other via mechanisms that are yet unexplored. Despite a number of functional evidence in favor of GPCR dimers and oligomers, the existence of such complexes remains controversial, as different methods suggest diverse quaternary organizations for individual receptors. Among various methods, high resolution fluorescence microscopy and imagebased fluorescence spectroscopy are state-of-the-art tools to quantify membrane protein oligomerization with high precision. This thesis work describes the use of single molecule fluorescence microscopy and implementation of two confocal microscopy based fluorescence fluctuation spectroscopy based methods for characterizing the quaternary organization of two class A GPCRs that are important clinical targets: the C-X-C type chemokine receptor 4 (CXCR4) and 7 (CXCR7), or recently named as the atypical chemokine receptor 3 (ACKR3). The first part of the results describe that CXCR4 protomers are mainly organized as monomeric entities that can form transient dimers at very low expression levels allowing single molecule resolution. The second part describes the establishment and use of spatial and temporal brightness methods that are based on fluorescence fluctuation spectroscopy. Results from this part suggests that ACKR3 forms clusters and surface localized monomers, while CXCR4 forms increasing amount of dimers as a function of receptor density in cells. Moreover, CXCR4 dimerization can be modulated by its ligands as well as receptor conformations in distinct manners. Further results suggest that antagonists of CXCR4 display distinct binding modes, and the binding mode influences the oligomerization and the basal activity of the receptor: While the ligands that bind to a “minor” subpocket suppress both dimerization and constitutive activity, ligands that bind to a distinct, “major” subpocket only act as neutral antagonists on the receptor, and do not modulate neither the quaternary organization nor the basal signaling of CXCR4. Together, these results link CXCR4 dimerization to its density and to its activity, which may represent a new strategy to target CXCR4.
In vivo covalent binding of aflatoxin metabolites isolated from animal tissue to rat-liver DNA
(1980)
Ring-labelled [\(^{14}\)C)aflatoxin B\(_1\) (AFB\(_1\)), prepared by biosynthesis. or generally labelled [\(^3\)H]AFB\(_1\) was administered by oral gavage to young adult male rats. After 6 hr. the liver was removed and two fractions were isolated, namely macromolecules, which contamed about 3 % of the initial dose of AFB\(_1\) radioactivity. and water-soluble, low-molecular aftatoxin conjugates containing about0·2% of the administered radioactivity. These two fractions were administered orally to other rats in order to determine the potential of radioactive aftatoxin residues for covalent binding to DNA. Such binding can be used as an indicator for carcinogenic potency. Liver DNA was isolated 9-12 hr after admmistration of the aflatoxin derivatives and in no case was any radioactivity detected on the DNA. It can be deduced on the basis of the limit of detection of radioactivity on the DNA, that macromolecule bound AFB\(_1\) derivatives are at least 4000 times less active than AFB\(_1\) with respect to covalent binding to rat-liver DNA. and that the water-soluble conjugates are at least 100 times less potent than AFB, itself. It is concluded that the carcinogenic risk for humans who consume liver or meat. containing such aflatoxin residues is negligible when compared with the risk from intake of aftatoxins in other food items.
The covalent binding of tritiated benzo(a)pyrene (BP) to DNA has been determined in rat liver in vivo, in rat liver perfused in situ, after incubation of BP with liver single cells, with liver homogenate, with liver microsomes and DNA, with fibroblasts from a rat granulorna pouch, and with · 2 cell lines. Li ver single cells were found to be a valuable compromise between the rnost sensitive system (microsomal incubation of BP with DNA) and the biologically most relevant system (in vivo ).
Thecovalent bindingof [6,7-\(^3\)H]ethinylestradiol (EE)and [6,7-\(^3\)H]estrone (E) to liver DNA of 200 g female ratswas measured 8 h after the administration of 80 \(\mu\)g (9.2 mCi) estrogen by gavage. The binding is 1.5 for EE and 1.1 for E, expressedas binding to DNA/dose, in units of \(\mu\)mol hormonefmol DNA phosphate/mmole honnone/kg body wt. It is in the same order of magnitude as for benzene and about 10 000 tim es below the binding of typical liver carcinogens, such as aflatoxin B\(_1\) or N,N-dimethylnitrosamine.
Diethylstilbestrol alters the morphology and calcium levels of growth cones of PC12 cells in vitro
(1993)
Diethylstilbestrol (DES) is a synthetic estrogen with carcinogenic properties. DES is known to alter cytoskeletal components, including the organization of actin stress fibres in C6 rat glioma cells. ln a test of the hypothesis that DES disrupts actin Filaments of growth cones in neuron-like cells, DES-induced changes in filopodial lengths were quantified in rat pheochromocytoma (PC12) cells in vitro. DES significantly altered growth cone morphology, with collapse of growth cone filopodia and neurite retraction invariably occurring at a concentration of 10 MikroM. At 5 MikroM DES, transient reductions in total filopodiallengths occurred. At DES concentrations of 0.1 nM and 1 nM, reductions in total filopodiallengths occurred in a fraction of growth cones. Evidence exists which shows that growth cone activity and morphology are intimately linked to Ieveis of intracellular, free calcium and that DES increases such levels. Measurements of free intracellular calcium levels by fluorescence microscopy, at times concurrent with the DES-induced reduction in total filopodial lengths, showed that calcium levels were indeed significantly increased by 10 MirkoM DES. Labelling of filamentaus actin (f-actin) with FITC-phalloidin showed that the f-actin distribution in growth cones exposed to DES could not be differentiated from the distribution found in spontaneously retracting growth cones. Tagether with evidence which showed that growth cone motility was not affected, the results are taken to indicate that DES, rather than acting directly on the cytoskeleton, exerts its effects indirectly, by a calcium-induced destabilization of actin filaments in the growth cone.
Highlights
• Loss of DNAJC19's DnaJ domain disrupts cardiac mitochondrial structure, leading to abnormal cristae formation in iPSC-CMs.
• Impaired mitochondrial structures lead to an increased mitochondrial respiration, ROS and an elevated membrane potential.
• Mutant iPSC-CMs show sarcomere dysfunction and a trend to more arrhythmias, resembling DCMA-associated cardiomyopathy.
Background
Dilated cardiomyopathy with ataxia (DCMA) is an autosomal recessive disorder arising from truncating mutations in DNAJC19, which encodes an inner mitochondrial membrane protein. Clinical features include an early onset, often life-threatening, cardiomyopathy associated with other metabolic features. Here, we aim to understand the metabolic and pathophysiological mechanisms of mutant DNAJC19 for the development of cardiomyopathy.
Methods
We generated induced pluripotent stem cell-derived cardiomyocytes (iPSC-CMs) of two affected siblings with DCMA and a gene-edited truncation variant (tv) of DNAJC19 which all lack the conserved DnaJ interaction domain. The mutant iPSC-CMs and their respective control cells were subjected to various analyses, including assessments of morphology, metabolic function, and physiological consequences such as Ca\(^{2+}\) kinetics, contractility, and arrhythmic potential. Validation of respiration analysis was done in a gene-edited HeLa cell line (DNAJC19tv\(_{HeLa}\)).
Results
Structural analyses revealed mitochondrial fragmentation and abnormal cristae formation associated with an overall reduced mitochondrial protein expression in mutant iPSC-CMs. Morphological alterations were associated with higher oxygen consumption rates (OCRs) in all three mutant iPSC-CMs, indicating higher electron transport chain activity to meet cellular ATP demands. Additionally, increased extracellular acidification rates suggested an increase in overall metabolic flux, while radioactive tracer uptake studies revealed decreased fatty acid uptake and utilization of glucose. Mutant iPSC-CMs also showed increased reactive oxygen species (ROS) and an elevated mitochondrial membrane potential. Increased mitochondrial respiration with pyruvate and malate as substrates was observed in mutant DNAJC19tv HeLa cells in addition to an upregulation of respiratory chain complexes, while cellular ATP-levels remain the same. Moreover, mitochondrial alterations were associated with increased beating frequencies, elevated diastolic Ca\(^{2+}\) concentrations, reduced sarcomere shortening and an increased beat-to-beat rate variability in mutant cell lines in response to β-adrenergic stimulation.
Conclusions
Loss of the DnaJ domain disturbs cardiac mitochondrial structure with abnormal cristae formation and leads to mitochondrial dysfunction, suggesting that DNAJC19 plays an essential role in mitochondrial morphogenesis and biogenesis. Moreover, increased mitochondrial respiration, altered substrate utilization, increased ROS production and abnormal Ca\(^{2+}\) kinetics provide insights into the pathogenesis of DCMA-related cardiomyopathy.
Application of adverse outcome pathways (AOP) and integration of quantitative in vitro to in vivo extrapolation (QIVIVE) may support the paradigm shift in toxicity testing to move from apical endpoints in test animals to more mechanism-based in vitro assays. Here, we developed an AOP of proximal tubule injury linking a molecular initiating event (MIE) to a cascade of key events (KEs) leading to lysosomal overload and ultimately to cell death. This AOP was used as a case study to adopt the AOP concept for systemic toxicity testing and risk assessment based on in vitro data. In this AOP, nephrotoxicity is thought to result from receptor-mediated endocytosis (MIE) of the chemical stressor, disturbance of lysosomal function (KE1), and lysosomal disruption (KE2) associated with release of reactive oxygen species and cytotoxic lysosomal enzymes that induce cell death (KE3). Based on this mechanistic framework, in vitro readouts reflecting each KE were identified. Utilizing polymyxin antibiotics as chemical stressors for this AOP, the dose-response for each in vitro endpoint was recorded in proximal tubule cells from rat (NRK-52E) and human (RPTEC/TERT1) in order to (1) experimentally support the sequence of key events (KEs), to (2) establish quantitative relationships between KEs as a basis for prediction of downstream KEs based on in vitro data reflecting early KEs and to (3) derive suitable in vitro points of departure for human risk assessment. Time-resolved analysis was used to support the temporal sequence of events within this AOP. Quantitative response-response relationships between KEs established from in vitro data on polymyxin B were successfully used to predict in vitro toxicity of other polymyxin derivatives. Finally, a physiologically based kinetic (PBK) model was utilized to transform in vitro effect concentrations to a human equivalent dose for polymyxin B. The predicted in vivo effective doses were in the range of therapeutic doses known to be associated with a risk for nephrotoxicity. Taken together, these data provide proof-of-concept for the feasibility of in vitro based risk assessment through integration of mechanistic endpoints and reverse toxicokinetic modelling.
The US National Research Council (NRC) report "Toxicity Testing in the 21st Century: A Vision and a strategy (Tox21)", published in 2007, calls for a complete paradigm shift in tox-icity testing. A central aspect of the proposed strategy includes the transition from apical end-points in in vivo studies to more mechanistically based in vitro tests. To support and facilitate the transition and paradigm shift in toxicity testing, the Adverse Outcome Pathway (AOP) concept is widely recognized as a pragmatic tool. As case studies, the AOP concept was ap-plied in this work to develop AOPs for proximal tubule injuries initiated by Receptor-mediated endocytosis and lysosomal overload and Inhibition of mtDNA polymerase-. These AOPs were used as a mechanistic basis for the development of in vitro assays for each key event (KE). To experimentally support the developed in vitro assays, proximal tubule cells from rat (NRK-52E) and human (RPTEC/TERT1) were treated with model compounds. To measure the dis-turbance of lysosomal function in the AOP – Receptor-mediated endocytosis and lysosomal overload, polymyxin antibiotics (polymyxin B, colistin, polymyxin B nonapeptide) were used as model compounds. Altered expression of lysosomal associated membrane protein 1/2 (LAMP-1/2) (KE1) and cathepsin D release from lysosomes (KE2) were determined by im-munofluorescence, while cytotoxicity (KE3) was measured using the CellTiter-Glo® cell via-bility assay. Importantly, significant differences in polymyxin uptake and susceptibility be-tween cell lines were observed, underlining the importance of in vitro biokinetics to determine an appropriate in vitro point of departure (PoD) for risk assessment. Compared to the in vivo situation, distinct expression of relevant transporters such as megalin and cubilin on mRNA and protein level in the used cell lines (RPTEC/TERT1 and NRK-52E) could not be con-firmed, making integration of quantitative in vitro to in vivo extrapolations (QIVIVE) neces-sary. Integration of QIVIVE by project partners of the University of Utrecht showed an im-provement in the modelled biokinetic data for polymyxin B. To assess the first key event, (KE1) Depletion of mitochondrial DNA, in the AOP – Inhibition of mtDNA polymerase-, a RT-qPCR method was used to determine the mtDNA copy number in cells treated with mod-el compounds (adefovir, cidofovir, tenofovir, adefovir dipivoxil, tenofovir disoproxil fumarate). Mitochondrial toxicity (KE2) was measured by project partners using the high-content imaging technique and MitoTracker® whereas cytotoxicity (KE3) was determined by CellTiter-Glo® cell viability assay. In contrast to the mechanistic hypothesis underlying the AOP – Inhibition of mtDNA polymerase-, treatment with model compounds for 24 h resulted in an increase rather than a decrease in mtDNA copy number (KE1). Only minor effects on mitochondrial toxicity (KE2) and cytotoxicity (KE3) were observed. Treatment of RPT-EC/TERT1 cells for 14 days showed only a slight decrease in mtDNA copy number after treatment with adefovir dipivoxil and tenofovir disoproxil fumarate, underscoring some of the limitations of short-term in vitro systems. To obtain a first estimation for risk assessment based on in vitro data, potential points of departure (PoD) for each KE were calculated from the obtained in vitro data. The most common PoDs were calculated such as the effect concentra-tion at which 10 % or 20_% effect was measured (EC10, EC20), the highest no observed effect concentration (NOEC), the lowest observed effect concentration (LOEC), the benchmark 10 % (lower / upper) concentrations (BMC10, BMCL10, BMCU10) and a modelled non-toxic con-centration (NtC). These PoDs were then compared with serum and tissue concentrations de-termined from in vivo studies after treatment with therapeutic / supratherapeutic doses of the respective drugs in order to obtain a first estimate of risk based on in vitro data. In addition, AOPs were used to test whether the quantitative key event relationships between key events allow prediction of downstream effects and effects on the adverse outcome (AO) based on measurements of an early key event. Predictions of cytotoxicity from the mathematical rela-tionships showed good concordance with measured cytotoxicity after treatment with colistin and polymyxin b nonapeptide. The work also revealed uncertainties and limitations of the ap-plied strategy, which have a significant impact on the prediction and on a risk assessment based on in vitro results.
The trypsin fragments of rat liver microsomal cytochron1e b\(_5\) (Tb\(_5\)) lack both methionine (met) and cysteine (cys), i.e., the sulphur-containing antino acids. Tb\(_5\) should therefore contain no 358-radioactivity after isolation from animals treated wHh [\(^{35}\)S]met or [\(^{36}\)S]cys. If, however, the nucleic acids coding for this polypeptide have been damaged by a genotoxic carcinogen, a miscoding could result in an incorporation of met or cys into the polypeptide so that Tb\(_8\) could now be \(^{36}\)S-radiolabelled. Two experiments are descrihed. the first one where a toxic regimen of N -nitrosomorpholine (NNM) to rats resulted in a significant increase of \(^{35}\)S-radioactivity in the Tbs of liver microsomes, and a second experiment with a non-toxic regimen of N,N diethylnitrosamine (DENA), where no increase was observable.
Metallothionein (MT) is a protein which contains 20 cysteine residues but no aromatic amino acids. It was tested whether treatment of male rats with the hepatocarcinogen diethylnitrosamine (DENA) could ethylate nucleic acids in such a way that protein variants containing measurable amounts of aromatic amino acid residues could be isolated from the livers of treated animals. To give a low Iimit of detection, the "wrong" amino acid precursors were administered in radiolabelled form at high Ievels of activity (7 mCi/kg each of [\(^3\)H]tyrosine and [\(^3\)H]phenylalanine). 11 \(\mu\)Ci/kg [\(^{14}\)C]cysteine was given as an intemal marker for MT biosynthesis. 6 h after amino acid administration, metallothionein (MT) was isolated from the liver and extensively purified. Afteracid hydrolysis and collection of Cys, Tyr, and Phe from an HPLC analysis of the amino acids, the \(^3\)H/\(^{14}\)C ratio was determined. The carcinogen-treated rats exhibited a significantly higher ratio than the vehicle-treated animals. This type of in vivo assay might find interesting applications in the investigation of nucleic acid alkylations as promutagenic lesions.
Pyridoxal 5′‐phosphate (PLP) is an essential cofactor for neurotransmitter metabolism. Pyridoxal phosphatase (PDXP) deficiency in mice increases PLP and γ‐aminobutyric acid levels in the brain, yet how PDXP is regulated is unclear. Here, we identify the Ca\(^{2+}\)‐ and integrin‐binding protein 1 (CIB1) as a PDXP interactor by yeast two‐hybrid screening and find a calmodulin (CaM)‐binding motif that overlaps with the PDXP‐CIB1 interaction site. Pulldown and crosslinking assays with purified proteins demonstrate that PDXP directly binds to CIB1 or CaM. CIB1 or CaM does not alter PDXP phosphatase activity. However, elevated Ca\(^{2+}\) concentrations promote CaM binding and, thereby, diminish CIB1 binding to PDXP, as both interactors bind in a mutually exclusive way. Hence, the PDXP‐CIB1 complex may functionally differ from the PDXP‐Ca\(^{2+}\)‐CaM complex.
Targeting the intrinsic metabolism of immune or tumor cells is a therapeutic strategy in autoimmunity, chronic inflammation or cancer. Metabolite repair enzymes may represent an alternative target class for selective metabolic inhibition, but pharmacological tools to test this concept are needed. Here, we demonstrate that phosphoglycolate phosphatase (PGP), a prototypical metabolite repair enzyme in glycolysis, is a pharmacologically actionable target. Using a combination of small molecule screening, protein crystallography, molecular dynamics simulations and NMR metabolomics, we discover and analyze a compound (CP1) that inhibits PGP with high selectivity and submicromolar potency. CP1 locks the phosphatase in a catalytically inactive conformation, dampens glycolytic flux, and phenocopies effects of cellular PGP-deficiency. This study provides key insights into effective and precise PGP targeting, at the same time validating an allosteric approach to control glycolysis that could advance discoveries of innovative therapeutic candidates.
When human neutrophils become desensitized to formyl peptide chemoattractants, the receptors (FPR) for these peptides are converted to a high affinity, GTP-insensitive form that is associated with the Triton X-1 00- insoluble membrane skeleton from surface membrane domains. These domains are actin and fodrin-rich, but G protein-depfeted suggesting that FPR shuttling between G protein-enriched and depleted domains may control signal transduction. Todetermine the molecular basis for FPR interaction with the membrane skeleton, neutrophil subcellular fractions were screened for molecules that could bind photoaffinity-radioiodinated FPR solubilized in Triton X-1 00. These receptors showed a propensity to bind to a 41- to43-kDa proteinband on nitrocelluloseoverlays of SOS-PAGE-separated cytosol and plasma membrane fractions of neutrophils. This binding, as weil as FPR binding to purified neutrophil actin, was inhibited 50% by 0.6 \(\mu\)M free neutrophil cytosolic actin. Addition of greater than 1 \(\mu\)M G-actin to crude or lectin-purified Triton X-1 00 extracts of FPR from neutrophil membranes increased the sedimentationrate of a significant fraction of FPR two to three fold as measured by velocity sedimentation in Triton X-1 00-containing linear sucrose density gradients. Addition of anti-actin antibodies to FPR extracts caused a concentration-dependent immunoprecipitation of at least 65% of the FPR. More than 40% of the immunoprecipitated FPR was specifically retained on protein A affinity matrices. Membrane actin was stabilized to alkaline washing when membranes were photoaffinity labeled. Conversely, when purified neutrophil cytosolic actinwas added to membranes or their digitonin extracts, after prior depletion of actin by an alkaline membrane wash, photoaffinity labeling of FPR was increased two- to fourfold with an EC\(_{50}\) of approximately 0.1 \(\mu\)M actin. We conclude that FPR from human neutrophils may interact with actin in membranes to form Triton X-1 00-stable physical complexes. These complexes can accept additional G-actin monomers to form higher order molecular complexes. Formation of FPR-actin complexes in the neutrophil may play a role in the regulation of chemoattractantinduced activation or actin polymerization.
Signal transduction via receptors for N-formylmethionyl peptide chemoattractants (FPR) on human neutrophils is a highly regulated process. It involves direct interaction of receptors with heterotrimeric G-proteins and may be under thc control of cytoskeletal clemcnts. Evidencc exists suggesting that thc cytoskeleton and/or the membrane ske1eton determines the distribution of FPR in the plane of the plasma membrane, thus controlling FPR accessibility to different protcins in functionally distinct membrane domains. In desensitized cells, FPR are restricted to domains which are depleted of G proteins but enriched in cytoskeletal proteins such as actin and fodrin. Thus, the G protein signal transduction partners of FPR become inacccssible to the agonist-occupied receptor, preventing cell activation. We are investigating the molecular basis for the interaction of FPR with the membrane skeleton, and our results suggest that FPR, and possibly other receptors, may directly bind to cytoskeletal proteins such as actin.
Aims
Volume overload (VO) and pressure overload (PO) induce differential cardiac remodelling responses including distinct signalling pathways. Extracellular signal‐regulated kinases 1 and 2 (ERK1/2), key signalling components in the mitogen‐activated protein kinase (MAPK) pathways, modulate cardiac remodelling during pressure overload (PO). This study aimed to assess their role in VO‐induced cardiac remodelling as this was unknown.
Methods and results
Aortocaval fistula (Shunt) surgery was performed in mice to induce cardiac VO. Two weeks of Shunt caused a significant reduction of cardiac ERK1/2 activation in wild type (WT) mice as indicated by decreased phosphorylation of the TEY (Thr‐Glu‐Tyr) motif (−28% as compared with Sham controls, P < 0.05). Phosphorylation of other MAPKs was unaffected. For further assessment, transgenic mice with cardiomyocyte‐specific ERK2 overexpression (ERK2tg) were studied. At baseline, cardiac ERK1/2 phosphorylation in ERK2tg mice remained unchanged compared with WT littermates, and no overt cardiac phenotype was observed; however, cardiac expression of the atrial natriuretic peptide was increased on messenger RNA (3.6‐fold, P < 0.05) and protein level (3.1‐fold, P < 0.05). Following Shunt, left ventricular dilation and hypertrophy were similar in ERK2tg mice and WT littermates. Left ventricular function was maintained, and changes in gene expression indicated reactivation of the foetal gene program in both genotypes. No differences in cardiac fibrosis and kinase activation was found amongst all experimental groups, whereas apoptosis was similarly increased through Shunt in ERK2tg and WT mice.
Conclusions
VO‐induced eccentric hypertrophy is associated with reduced cardiac ERK1/2 activation in vivo. Cardiomyocyte‐specific overexpression of ERK2, however, does not alter cardiac remodelling during VO. Future studies need to define the pathophysiological relevance of decreased ERK1/2 signalling during VO.
Phytohormone, insbesondere solche mit östrogenem Potential werden heute vermehrt in der postklimakterischen Hormonersatztherapie als natürliche Alternative zu Designeröstrogenen eingesetzt, da sie vermutlich ein besseres Wirkungs-Nebenwirkungsprofil besitzten. Mengenmäßig am bedeutensten sind die Phytoöstrogene aus den Stoffgruppen der Isoflavone, Cumestane und Indol-3-carbinole. Weit über 100 Pflanzen produzieren Phytohormone. Die bekanntesten sind die Sojabohne, Weintrauben, Leinsamen, Haferflocken, Spargel, Traubensilberkerze und roter Klee. Phytohormone können täglich in großer Menge aufgenommen werden (1mg pro kg Körpergewicht), wobei durchaus Plasmaspiegel von über 1µM erreicht werden. Gerade deshalb darf nicht davon ausgegangen werden, daß natürliche Produkte per se gut für die Gesundheit wären. Phytohormone und insbesondere deren Metaboliten, die während der intestinalen Passage entstehen, wurden vielfach nicht den gleichen Prüfbedingungen unterzogen wie sie für andere in Lebensmitteln vorkommenden Substanzen, wie z.B. Konservierungs-, Farb- oder Aromastoffen, heute selbstverständlich ist. Diese Arbeit soll deshalb anhand von in-vitro Tests an Mauslymphomzellen L5178Y für eine Auswahl an Phytohormonen und deren Metaboliten mögliche toxische oder gentoxische Effekte detektieren und die bestehende Datenlage ergänzen. Aus der Gruppe der Isoflavone wurden die Daidzeinmetaboloiten Equol und O-desmethylangolensin und die Glyceteinmetaboliten 3,4,7- und 4,6,7-Trihyroxyisoflavon untersucht. Aus der Gruppe der Flavone wurde Fisetin und aus der Gruppe der Stilbene Resveratrol untersucht. Weiterhin wurden Daten zu den Anthocyanen Delphinidin-, Pelargonidin- und Cyanidin-Chlorid erhoben. Toxische Effekte wurden anhand von Proliferatiosexperimenten, durch die Bestimmung der Zellvitalität (Ethidiumbromid-Flouresceinmethode) und durch die Analyse der Teilungsaktivität nach Behandlung mit Cytocalasin B und anschließender Bestimmung des Anteils mehrkerniger Zellen detektiert. Zur Bestimmung von gentoxischen Effekte wurde auf den Mikrokerntest zurückgegriffen. Ergänzend sollte eine Immunfloureszenzfärbung der Kinetochorproteine in Mikrokernen Aufschluß über aneugene oder klastogene Wirksamkeit der untersuchten Substanzen geben. Die in dieser Arbeit gewonnenen Daten weisen darauf hin, daß erste adverse Effekte der Phytohormone oder deren Metaboliten im Bereich der erreichbaren Plasmakonzentration liegen, so daß eine übertriebene Aufnahme hochdosierter Phytohormonen derzeit als kritisch erachtet und weiterer Forschungsbedarf festgestellt werden muß.
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.
Histone H3 serine 28 (H3S28) phosphorylation and de-repression of polycomb repressive complex (PRC)-mediated gene regulation is linked to stress conditions in mitotic and post-mitotic cells. To better understand the role of H3S28 phosphorylation in vivo, we studied a Drosophila strain with ectopic expression of constitutively-activated H3S28A, which prevents PRC2 binding at H3S28, thus mimicking H3S28 phosphorylation. H3S28A mutants showed prolonged life span and improved resistance against starvation and paraquat-induced oxidative stress. Morphological and functional analysis of heart tubes revealed smaller luminal areas and thicker walls accompanied by moderately improved cardiac function after acute stress induction. Whole-exome deep gene-sequencing from isolated heart tubes revealed phenotype-corresponding changes in longevity-promoting and myotropic genes. We also found changes in genes controlling mitochondrial biogenesis and respiration. Analysis of mitochondrial respiration from whole flies revealed improved efficacy of ATP production with reduced electron transport-chain activity. Finally, we analyzed posttranslational modification of H3S28 in an experimental heart failure model and observed increased H3S28 phosphorylation levels in HF hearts. Our data establish a critical role of H3S28 phosphorylation in vivo for life span, stress resistance, cardiac and mitochondrial function in Drosophila. These findings may pave the way for H3S28 phosphorylation as a putative target to treat stress-related disorders such as heart failure.
In dieser Arbeit geht es um die Phosphoglykolatphosphatase (PGP), die als Phosphatase vom Haloazid Dehalogenase-Typ (HAD-Phosphatase) zu der ubiquitär vorkommenden Superfamilie der HAD-Hydrolasen gehört. In der Literatur ist eine in vitro Phosphatase-Aktivität gegenüber 2-Phospho-L-Laktat (2PL), 4-Phospho-D-Erythronat (4PE), Phosphoglykolat (PG) und Glycerol-3-Phosphat (G3P) beschrieben. 2PL und 4PE entstehen in Nebenreaktionen während der Glykolyse und hemmen bei Akkumulation die Glykolyse bzw. den Pentosephosphatweg. PG kann auch in einer Nebenreaktion während der Glykolyse oder im Rahmen der Reparatur von oxidativen DNA-Schäden entstehen. G3P entsteht aus Dihydroxyacetonphosphat und bildet das Kohlenhydratgerüst der Triacylglyceride (TAG). Zelluläre Studien konnten Hinweise auf die Regulierung des epidermalen wachstumsfaktor-(EGF-)induzierten Zytoskelettumbaus durch die PGP liefern und die Untersuchung von Mäusen mit PGP-Inaktivierung zeigte einen Einfluss auf die Zellproliferation und embryonale Entwicklung. Die Regulation der PGP-Expression führte zu Veränderungen im Kohlenhydrat- und Fettstoffwechsel.
Die Untersuchung der PGP-Funktionen erfolgte bislang ausschließlich mit genetischen Ansätzen. Aufgrund von möglichen Kompensationsmechanismen und Off-Target-Effekten müssen genetische und pharmakologische Methoden als sich ergänzende Ansätze verstanden werden. Um die Funktionen der PGP besser zu verstehen, fokussiert sich die vorliegende Arbeit auf die gezielte pharmakologische PGP-Inhibition. In Vorarbeiten wurden 41.000 Moleküle gescreent und fünf potentielle Inhibitoren identifiziert. Ziele dieser Arbeit waren zum einen die Implementierung der Inhibitor # 1-Behandlung in der Zellkultur, zum anderen die Charakterisierung der PGP-Hemmung durch Inhibitor # 48 und die Durchführung erster Selektivitätstestungen mit Inhibitor # 48.
Zusammenfassend kann festgehalten werden, dass Inhibitor # 1 in der Lage ist, die endogene PGP in Zelllysaten der murinen spermatogonialen Zelllinie (GC1) zu hemmen. Unter bestimmten Bedingungen führte die Inhibitor # 1-Behandlung der GC1-Zellen zur Hemmung der PGP. Erste Analysen zellulärer Inhibitoreffekte konnten eine Steigerung der TAG-Konzentration in behandelten GC1-Zellen nachweisen. Die PGP-Hemmung durch Inhibitor # 48 wurde als unkompetitive Inhibition charakterisiert und es zeigten sich keine relevanten Inhibitoreffekte auf die HAD-Phosphatasen Magnesium-abhängige Phosphatase 1 (MDP1), Lysin-Histidin-Pyrophosphat-Phosphatase (LHPP) und Polynukleotidase 5'-Kinase/3'-Phosphatase (PnkP). Dagegen konnte eine Aktivitätssteigerung von Phospho 2 beobachtet werden. Die vorliegende Arbeit liefert somit erste Erkenntnisse über die Anwendung des PGP-Inhibitors # 1 in der Zellkultur und schafft die Grundlage für nachfolgende Untersuchungen mit Inhibitor # 48. Weitere Experimente sind notwendig, die die Inhibitorbehandlung in der Zellkultur optimieren und die Selektivität weiter charakterisieren, um mithilfe der Inhibitoren neue Erkenntnisse über die physiologische und pathophysiologische Rolle der PGP gewinnen zu können.
GRK2 vermittelt über die Phosphorylierung und Inaktivierung kardialer β1-Rezeptoren eine verminderte kardiale Kontraktilität. RKIP als GRK2-Inhibitor spielt eine Rolle in der GPCR-Signalgebung. Die Überexpression des Proteins führt zu einer verbesserten Herzfunktion. Dieser Effekt wird möglicherweise über die GRK2-Inhibition vermittelt und eröffnet die Diskussion über weitere durch RKIP vermittelte protektive Effekte im Herzen.
In dieser Arbeit konnte ich zeigen, dass die kardiale RKIP-Expression in Mäusen und humanem Herzgewebe bei Herzinsuffizienz gesteigert ist. Zudem beschrieb ich den protektiven Effekt einer gesteigerten Expression von RKIP in murinen Herzen im Hinblick auf die Ausprägung typischer struktureller und morphologischer Zeichen von Herzinsuffizienz.
Echokardiographische Untersuchungen zeigten, dass RKIP die Herzfunktion positiv beeinflusst. RKIP-tg-Mäuse wiesen eine gesteigerte Verkürzungsfraktion und einen dauerhaft hyperkontraktilen Phänotyp auf. Trotz fehlenden Einflusses auf die kardiale Hypertrophie bewirkte die chronische linksventrikuläre Druckbelastung durch TAC in RKIP-tg-Mäusen eine geringere kardiale Dilatation und den Erhalt einer stärkeren Kontraktilität als in Wildtyp-Mäusen.
Die Ligation der Aorta transversa bewirkte bei Wildtyp-Mäusen zudem strukturelle und molekulare Veränderungen, die typisch für einen herzinsuffizienten Phänotyp sind. Der Anteil fibrotischen Gewebes und die Apoptose im Herzen nahmen zu. Strukturelle Veränderungen des Herzgewebes sind ein Korrelat für ein herzinsuffizientes Herz. RKIP-tg-Mäuse zeigten diese Veränderungen in einem deutlich geringeren Ausmaß und weisen auf eine protektive Wirkung einer kardialen RKIP-Überexpression hin. Interessanterweise war die mRNA-Expression der Fibrosemarker CTGF und TGFß nach chronischer linksventrikulärer Druckbelastung sowohl bei Wildtyp-Mäusen als auch bei RKIP-transgenen Mäusen erhöht. Die Ursache für das Fehlen eines signifikanten Unterschiedes könnte sein, dass diese Marker nicht spezifisch für die kardiale Fibrosierung sind, sondern deren Expression auch mit der kardialen Hypertrophie zusammenhängt.
Eine weitere Beobachtung war der Anstieg der mRNA-Expression der Herzinsuffizienz-Marker BNP und ANF nach chronischer Druckbelastung in Wildtyp- und RKIP-tg-Mäusen. Die Ergebnisse bestätigten, dass BNP spezifischer für die durch chronische linksventrikuläre Druckerhöhung verursachte Herzinsuffizienz zu sein scheint.
Ich beobachtete eine gesteigerte RKIP-Expression bei Herzinsuffizienz und kardialer Hypertrophie. Herzbiopsien herzinsuffizienter und an Aortenstenose erkrankter Patienten wiesen im Vergleich zu Kontrollen eine erhöhte RKIP-Proteinexpression auf. Auch C57BL/6J-Mäuse wiesen nach chronischer linksventrikulärer Druckbelastung eine gesteigerte kardiale RKIP-Expression im Vergleich zu Kontrollen auf. Die Hochregulation der RKIP-Expression könnte als protektiver feedback-Mechanismus interpretiert werden.
Resultat dieser Arbeit ist, dass RKIP eine protektive Wirkung bei der Progression von durch chronische linksventrikuläre Druckbelastung induzierte Herzinsuffizienz hat, am ehesten durch seine Funktion als GRK2-Inhibitor und seine Rolle bei der GPCR-Signalgebung.
Die Entwicklung und Zulassung von Arzneimitteln sowie die Bewertung von Xenobio-tika erfordern eine Reihe von Testsystemen zur Toxizitätsermittlung. Für die Überprüfung der Gentoxizität stehen eine Vielzahl etablierter Testsysteme zur Verfügung, die oft auf Krebszelllinien basieren. Krebszelllinien haben jedoch die Eigenschaft, neben den für die Testung notwendigen Veränderungen weitere Veränderungen zu tragen, die zu Reaktionen führen können, wie sie in den Primärzellen des Organismus nicht auftreten. Daher ist die Kenntnis des genetischen Hintergrunds der verwendeten Krebszelllinien wertvoll, um Testergebnisse bewerten und gentoxische Risikopotentiale abschätzen zu können. Die Mauslymphomzelllinie L5178Y nimmt unter den auf Krebszellen basierenden Testsystemen eine besondere Stellung ein, da sie die weltweit in der Gentoxizi-tätsprüfung am häufigsten eingesetzte Zelllinie ist. In der vorliegenden Arbeit wurde in dieser Zellllinie eine Veränderung nachgewiesen, die das Mismatch-Reparatur-System (MMR-System) betrifft. Bei der MMR handelt es sich um einen Mechanismus, der daran beteiligt ist, die Integrität des Genoms zu gewährleisten. In MMR-profizienten Zellen werden Fehler in der DNA, die bei der Replikation, der homologen Rekombination oder durch äußere gentoxische Einwirkungen entstehen, entweder erkannt und repariert, oder die geschädigten Zellen werden durch die Induktion von Apoptosen eliminiert. Im Gegensatz dazu überleben MMR-defiziente Zellen trotz gravierender DNA-Schäden und akkumulieren diese. In der vorliegenden Arbeit wurde die Akkumulierung von Genomschäden bei L5178Y-Zellen als Reaktion auf Behandlung mit alkylierenden Agenzien beobachtet, während andere Vergleichszelllinien Apoptosen induzierten. Dieses Verhalten der L5178Y-Zellen, das in der Literatur bei MMR-defizienten Zellen für alkylierende Agenzien beschrieben ist, führte zu der Vermutung, dass die L5178Y-Zellen einen MMR-defizienten Phänotyp aufweisen. Dieser MMR-defiziente Phänotyp wurde durch gezielte Behandlung von L5178Y-Zellen und Zellen mit bekanntem MMR-Status mit dem alkylierenden Agenz MNNG und dem anschließenden Vergleich der Reaktionen geprüft und bestätigt. Der Ver-gleich erfolgte durch den Nachweis gentoxischer Effekte im Mikrokern-Test und im Comet Assay. Auf Proteinebene konnte für den gezeigten MMR-defizienten Phänotyp bei den drei wichtigsten, in die MMR involvierten Proteine, MLH1, MSH2 und MSH6 keine Ursa-che gefunden werden: Alle untersuchten Proteine zeigten eine Expression, die mit denen der MMR-profizienten Kontrollzelllinien vergleichbar war. Auf DNA-Ebene wurde durch die Analyse aller bekannter, in die MMR involvierter Gene durch die Sequenzierung der kodierenden Bereiche als wichtigste Verände-rung eine Insertions-Mutation (964(insC)) in pms2 gefunden. Diese führt nach 260 Aminosäuren zu einer Leserasterverschiebung und nach 313 Aminosäuren zu einem Abbruch der Aminosäuresequenz aufgrund eines Stop-Codons. Zwar ist somit die Information für den N-terminalen Bereich von PMS2, der die DNA-Bindedomäne und die ATP-ase aktiven Stellen beinhaltet, vorhanden, die für den C-Terminus hingegen, der für die Dimerisierung mit dem MMR-Protein MLH1 und damit für die Funktion essentiell ist, fehlt. Insgesamt wurde in dieser Arbeit gezeigt, dass die L5178Y-Zelllinie MMR-defizient ist. Mit der Insertions-Mutation (964(insC)) in pms2 wurde eine molekulare Ursache gefunden, die diese Defizienz erklären kann. Daraus folgt für den Einsatz der L5178Y-Zelllinie in Gentoxizitätstests, dass die Berücksichtigung ihrer MMR-Defizienz die Möglichkeit der Bewertung von Testergebnissen erheblich erweitern kann.
Introduction: Colon cancer is one of the major human malignancies worldwide, and much effort has been applied to understand the process of colon carcinogenesis, as well as the role of potential treatments and co-therapeutical agents against it. A growing body of evidence suggests that the use of fluoxetine (FLX), an antidepressant belonging to the selective serotonin reuptake inhibitors (SSRIs), may be associated with a reduced colon cancer risk. However, controversial opinions have been published and an identification of the mechanisms of the activity of FLX on colon cells would help in the clarification of this controversy. Objectives: Using several in vitro and in vivo-based methods and analyses, we aimed to verify whether FLX has antioxidant, pro-oxidant or DNA-damaging potential in standard toxicological assays; to check whether and how FLX could prevent and reduce colon preneoplastic lesions; to ascertain whether FLX has any oncostatic potential against colon tumors; and, to investigate whether FLX activity could be comparable with a known and current applied chemotherapeutic agent against colon cancer. Results: FLX did not have any antioxidant potential in our experiments. Although it did not induce reactive oxygen species (ROS) generation or DNA-damage in fibroblast and colon tumor cell lines, FLX reduced dysplasia and proliferation in two different carcinogen models. Further, a significant decrease in colon stromal reactivity and angiogenesis was found in both carcinogen-induced preneoplasia models. In a xenograft model of colon cancer, FLX shrank tumors, reduced tumor proliferation, arrested cancer cells at the G0/G1 cell-cycle phase, and took ROS generation under control. Such effects were detected together with an intracellular acidification and loss of mitochondrial membrane potential in FLX-treated cells. Modulating mitochondrial respiratory chain, HIF-1 expression and Akt/mTOR signaling pathway, FLX was found to reduce colon tumors similar to the widely used chemotherapeutic agent 5-Fluoracil activity. Conclusion: Our collective data suggest that FLX is a remarkable chemopreventive and oncostatic agent against colon preneoplastic lesions and tumors, acting without DNA-damage or ROS generation.
The antidepressant fluoxetine has been under discussion because of its potential influence on cancer risk. It was found to inhibit the development of carcinogen-induced preneoplastic lesions in colon tissue, but the mechanisms of action are not well understood. Therefore, we investigated anti-proliferative effects, and used HT29 colon tumor cells in vitro, as well as C57BL/6 mice exposed to intra-rectal treatment with the carcinogen N-methyl-N’-nitro-N-nitrosoguanidine (MNNG) as models. Fluoxetine increased the percentage of HT29 cells in the G0/G1 phase of cell-cycle, and the expression of p27 protein. This was not related to an induction of apoptosis, reactive oxygen species or DNA damage. In vivo, fluoxetine reduced the development of MNNG-induced dysplasia and vascularization-related dysplasia in colon tissue, which was analyzed by histopathological techniques. An anti-proliferative potential of fluoxetine was observed in epithelial and stromal areas. It was accompanied by a reduction of VEGF expression and of the number of cells with angiogenic potential, such as CD133, CD34, and CD31-positive cell clusters. Taken together, our findings suggest that fluoxetine treatment targets steps of early colon carcinogenesis. This confirms its protective potential, explaining at least partially the lower colon cancer risk under antidepressant therapy.
G protein-coupled receptors (GPCRs) form the biggest receptor family that is encoded in the human genome and represent the most druggable target structure for modern therapeutics respectively future drug development. Belonging to aminergic class A GPCRs muscarinic Acetylcholine receptors (mAChRs) are already now of clinical relevance and are also seen as promising future drug targets for treating neurodegenerative diseases like Alzheimer or Parkinson. The mAChR family consist of five subtypes showing high sequence identity for the endogenous ligand binding region and thus it is challenging until now to selectively activate a single receptor subtype. A well accepted method to study ligand binding, dynamic receptor activation and downstream signaling is the fluorescence resonance energy transfer (FRET) application. Here, there relative distance between two fluorophores in close proximity (<10 nm) can be monitored in a dynamic manner. The perquisite for that is the spectral overlap of the emission spectrum of the first fluorophore with the excitation spectrum of the second fluorophore. By inserting two fluorophores into the molecular receptor structure receptor FRET sensors can serve as a powerful tool to study dynamic receptor pharmacology.
Dualsteric Ligands consist of two different pharmacophoric entities and are regarded as a promising ligand design for future drug development. The orthosteric part interacts with high affinity with the endogenous ligand binding region whereas the allosteric part binds to a different receptor region mostly located in the extracellular vestibule. Both moieties are covalently linked. Dualsteric ligands exhibit a dynamic ligand binding. The dualsteric binding position is characterized by a simultaneous binding of the orthosteric and allosteric moiety to the receptor and thus by receptor activation. In the purely allosteric binding position no receptor activation can be monitored.
In the present work the first receptor FRET sensor for the muscarinic subtype 1 (M1) was generated and characterized. The M1-I3N-CFP sensor showed an unaltered physiological behavior as well as ligand and concentration dependent responses. The sensor was used to characterize different sets of dualsteric ligands concerning their pharmacological properties like receptor activation. It was shown that the hybrids consisting of the synthetic full agonist iperoxo and the positive allosteric modulator of BQCA type is very promising. Furthermore, it was shown for orthosteric as well as dualsteric ligands that the degree of receptor activation is highly dependent on the length of and the chemical properties of the linker moiety. For dualsteric ligands a bell-shaped activation characteristic was reported for the first time, suggesting that there is an optimal linker length for dualsteric ligands. The gained knowledge about hybrid design was then used to generate and characterize the first photo-switchable dualsteric ligand. The resulting hybrids were characterized with the M1-I3N-CFP sensor and were described as photo-inactivatable and dimmable. In addition to the ligand characterization the ligand application methodology was further developed and improved. Thus, a fragment-based screening approach for dualsteric ligands was reported in this study for the first time. With this approach it is possible to investigate dualsteric ligands in greater detail by applying either single ligand fragments alone or in a mixture of building blocks. These studies revealed the insights that the effect of dualsteric ligands on a GPCR can be rebuild by applying the single building blocks simultaneously. The fragment-based screening provides high potential for the molecular understanding of dualsteric ligands and for future screening approaches. Next, a further development of the standard procedure for measuring FRET by sensitized emission was performed. Under normal conditions single cell FRET is measured on glass coverslips. After coating the coverslips surface with a 20 nm thick gold layer an increased FRET efficiency up to 60 % could be reported. This finding was validated in different approaches und in different configurations. This FRET enhancement by plasmonic surfaces was until yet unreported in the literature for physiological systems and make FRET for future projects even more powerful.
Furan wird in einer Vielzahl von Speisen durch Hitzebehandlung gebildet und ist kanzerogen in der Leber von Ratte und Maus. Durch die hohe Flüchtigkeit von Furan ist eine Expositionsabschätzung auf Basis der Kontamination von Lebensmitteln nur bedingt möglich. Ein alternativer Ansatz dazu ist die Identifizierung von Furanmetaboliten als Expositionsbiomarker. Nach der Aufnahme wird Furan zunächst zum Dialdehyd cis-2-Buten-1,4-dial oxidiert. cis-2-Buten-1,4-dial besitzt mehrere elektrophile Strukturelemente, welche eine Reaktion mit Protein und DNS wahrscheinlich machen und damit zur bekannten Toxizität von Furan beitragen können. Es stellt sich in diesem Zusammenhang die Frage, ob eine Reaktion mit Protein die Reaktion mit der DNS verhindern kann und somit keine direkt gentoxischen Effekte auftreten. Für ein kanzerogenes Agens ohne direkte gentoxische Wirkung kann eine Schwellendosis unterhalb derer kein DNS-Schaden auftritt diskutiert werden. Für eine fundierte Risikobewertung bezüglich der Aufnahme von Furan über die Nahrung ist dies unabdingbar. In der vorliegenden Arbeit wurde nach der oralen Gabe von Furan im Urin von Fischer 344 Ratten nach Metaboliten gesucht. Eine Kontrollgruppe erhielt nur die Trägersubstanz Öl. Das vor und nach Exposition über jeweils zwei 24 Stunden Perioden gesammelte Urin wurde mittels einer Tandemmassenspektrometrie-Methode analysiert. Die Methode bestand aus einem Full-Scan und einer darüber gesteuerten Aufzeichnung eines Fragmentionenspektrums. Die Full-Scan-Daten wurden mit Hilfe der Hauptkomponentenanalyse untersucht. In der ersten Sammelperiode nach der Behandlung konnten durch die erste Hauptkomponente die behandelten von den unbehandelten Tieren getrennt werden. Aus den für die Trennung relevanten Verbindungen konnten fünf Biomarker strukturell aufgeklärt werden. In einer weiteren Tierstudie an Ratten und Mäusen wurde die Kinetik und die Dosis-Wirkungs-Beziehung der identifizierten Biomarker untersucht. Die gezielte LC-MS/MS-Analyse der Urine auf die identifizierten Biomarker hin zeigte, dass in der Ratte alle und in der Maus alle bis auf einen dosisabhängig anstiegen. Die Kinetik der Ausscheidung lieferte wertvolle Hinweise auf die Entstehung der Biomarker. Die Ausscheidung der Biomarker mit Lysinstruktur erfolgte über mehr als 72 Stunden. Dies war ein Hinweis auf eine Freisetzung aus Protein. Die Ausscheidung der restlichen Verbindungen erfolgte ausschließlich in den ersten 24 Stunden. Die in der Literatur vorhandenen Daten zur Gentoxizität von Furan und cis-Buten-1,4-dial sind unschlüssig und unvollständig. In der vorliegenden Arbeit wurde cis-2-Buten-1,4-dial im Ames Stamm TA104 und in L5178Y Mauslymphomzellen auf Mutagenität und Gentoxizität untersucht. Durch starke Zytotoxizität war der Konzentrationsbereich auf 4.5 µmol/Platte limitiert. Innerhalb dieses Bereich konnte mit der Vorinkubationsvariante des Ames-Tests keine Mutagenität beobachtet werden. Die L5178Y Mauslymphomzellen wurden mit Standardprotokollen für den Mikrokern-Test, Kometen-Test und den Thymidinkinase-Test untersucht. Der Konzentrationsbereich von cis-2-Buten-1,4-dial erstreckte sich bis 100 µM, konnte aber auf Grund der starken Zytotoxizität nur bis 25 µM ausgewertet werden. Dennoch konnte bereits in diesem Bereich ein 1.7- bzw. 2.2-facher Anstieg im Kometen- bzw. Thymidinkinase-Test beobachtet werden. Verglichen mit der Positivkontrolle Methylmethansulfonat hatte cis-2-Buten-1,4-dial bei einer deutlich höheren Zytotoxizität eine ähnliche Potenz bezüglich der Mutagenität und Gentoxizität. Um das DNS-vernetzende Potential von cis-2-Buten-1,4-dial zu bestimmen wurde eine Variante des Kometen-Tests verwendet. Es wurde dabei untersucht, ob die Vorbehandlung von Zellen mit cis-2-Buten-1,4-dial die durch γ-Strahlung induzierbaren Kometen reduzieren kann. Während die Positivkontrolle Glutaraldehyd die Kometen tatsächlich verringerte, blieb dieser Effekt bei cis-2-Buten-1,4-dial aus. Im Gegenteil, bei einer Konzentration von ≥100 mM konnte durch die Zunahme von Zellen mit beginnender Apoptose ein Anstieg der Kometen beobachtet werden. Obwohl cis-2-Buten-1,4-dial sehr deutliche gentoxische und mutagene Effekte zeigte, beschränkte die hohe Zytotoxizität den auswertbaren Bereich. Möglicherweise kann diese Problematik einen Teil der unschlüssigen Ergebnisse erklären, sicher ist jedoch, dass für die Untersuchung der Mechanismen der Toxizität und Kanzerogenität ein Beitrag von nicht gentoxischen Effekten diskutiert werden muss.
Phosphatasen der HAD (haloacid dehalogenase)-Familie sind weit verbreitet in allen Domänen des Lebens und erfüllen die verschiedensten zellulären Aufgaben, beispielsweise in Metabolismus und Zellregulation. Die HAD-Phosphatase Chronophin zeigt Phosphataseaktivität unter anderem gegenüber Pyridoxal-5‘-Phosphat (PLP), einem essentiellen Kofaktor vieler biochemischer Prozesse, und Phosphocofilin, einem Regulator des Aktinzytoskeletts. Chronophin dimerisiert über die Interaktion zweier identischer Untereinheiten zu einem Homodimer. Ziel dieser Arbeit war, die Rolle dieser Dimerisierung, eines bei HAD-Phosphatasen weit verbreiteten Oligomerisierungszustandes, näher zu untersuchen.
Hierzu wurde die Dimerisierung erfolgreich durch den Austausch der Aminosäuren Alanin 194 und 195 zu Lysinen (Mutation A194K/A195K) gestört. Der Nachweis einer konstitutiv monomeren Chronophin-Mutante mittels Größenausschlusschromatographie, Rasterkraftmikroskopie, analytischer Ultra¬zentrifugation und Zellexperimenten wurde schließlich über die Struktur¬auflösung mittels Röntgenstrukturanalyse bestätigt. Aktivitätsmessungen der monomeren Mutante gegenüber dem Substrat PLP zeigten eine deutliche Verminderung der Phosphataseaktivität. Die Röntgenstrukturanalyse von Chronophin A194K/A195K im Vergleich mit Wildtyp-Chronophin enthüllte einen Mechanismus, wie die sogenannte Substratspezifitätsschleife, die für die korrekte Positionierung des PLP sorgt, im Homodimer des Wildtyps durch Interaktionen mit dem zweiten Protomer stabilisiert wird. Diese Stabilisierung fehlt bei der monomeren Mutante und äußert sich in einer veränderten Stellung der Substratspezifitätsschliefe. Der Strukturvergleich von Chronophin mit weiteren HAD-Phosphatasen der selben strukturellen Untergruppe vom C2a-Typ lässt eine allgemeine Gültigkeit der hier beschriebenen allosterischen Kontrolle von Substratspezifität über Homodimerisierung bei HAD-Phosphatasen vermuten und könnte so neue Ansatzpunkte für möglicherweise auch therapeutisch nutzbare Aktivitätshemmungen liefern.
In den letzten Jahrzehnten ist die Akzeptanz stetig größer geworden, dass oxidativer Stress eine bedeutende Rolle bei der Entstehung von chronischen Erkrankungen, malignen Neoplasien sowie der Beschleunigung des Alterungsprozesses spielt. Als eine der häufigsten chronischen Erkrankungen ist Hypertonie oft mit einem fehlregulierten Renin-Angiotensin-Aldosteron-System assoziiert, welches chronisch oxidativen Stress verursacht. Bluthochdruck ist ein Risikofaktor für neurologische Erkrankungen wie der vaskulären Demenz (VaD) und viele neurologischen Störungen, einschließlich der VaD, haben eine ROS-assoziierte beziehungsweise inflammatorische Komponente in ihrer Entstehung.
Unsere Arbeitsgruppe konnte bereits eine AT-II-induzierte Genotoxizität in Nieren- und Myokardzellen bzw. -Gewebe nachweisen. Ziel dieser Dissertation war es, einen möglichen Zusammenhang zwischen AT-II und Neurodegeneration zu untersuchen, welche durch eine neuronale Genotoxizität von AT-II ausgelöst wird.
Zunächst zeigten wir in zwei neuronalen Zelllinien, dass AT-II eine Dosis-abhängige Genomschädigung verursacht. Nachfolgende Experimente konnten diese Toxizität auf NOX-produziertes Superoxid zurückführen, das nach Bindung von AT-II an den AT1R generiert wird. Zudem konnte ein AT-II-induzierter Verbrauch des wichtigsten intrazellulären Antioxidans – Glutathion - nachgewiesen werden.
In vivo konnten wir zeigen, dass AT1aR-Knockout-Mäuse nach AT-II-Behandlung signifikant mehr Genomschäden im Subfornikalorgan (SFO) aufwiesen als Wildtypmäuse. Das SFO hat als eine der wenigen Strukturen im Gehirn eine unterbrochene Blut-Hirn-Schranke, was es für zirkulierendes AT-II zugänglich und besonders empfindlich macht. Diese Genomschäden wurden in der neueren Literatur auch in Nieren- und Herzgewebe beschrieben und belegen eine zusätzliche, AT1aR- und damit Blutdruck-unabhängige Genotoxizität von AT-II.
Zusammenfassend zeigt diese Arbeit, dass erhöhte AT-II-Konzentrationen in Nervenzellen Genomschäden durch NOX-produziertes Superoxid verursachen. Die Hoffnung ist, dass diese Ergebnisse dabei helfen, eines Tages die vollständige Entstehung der VaD zu entschlüsseln.
Some chromosomes in transformed rat cells and somatic cell hybrids fail to display the presence of kinetochore proteins as detected by antikinetochore antibodies. Suchchromosomes (K- Chromosomes) may constitute a novel mechanism for the genesis of aneuploidy. Wehave analyzed primary~ immortalized and malignant marnmalian cells for the presence of kinetochore proteins and micronuclei. Our resuJts suggest a correlation of the K- chromosome and micronucleus frequency with the variability in chromosome number. Upon in situ hybridization with the minor satellite and alpha satellite sequences some Kchromosomes showed a signal. This indicates that the observed lack of kinetocbores is not necessarily due to a lack of centromeric DNA. We conclude that dislocated K- chromosomes may become incorporated into micronuclei which are prone to loss. Such events would be associated with the generation of aneuploidy.
Decamethylcyclopentasiloxane (D5) is a cyclic siloxane used in the production and formulation of consumer products with potential exposure to manufacturing workers, consumer, and the general public. Following a combined 2-year inhalation chronic bioassay performed in Fischer 344 (F344) rats, an increase in uterine endometrial adenocarcinomas was noted at the highest concentration to which animals were exposed. No other neoplasms were detected. In this study, a dose of 160 ppm produced an incidence of 8% endometrial adenocarcinomas. Based on a number of experimental studies with D5, the current manuscript examines the biological relevance and possible modes of action for the uterine endometrial adenocarcinomas observed in the rat following chronic exposure to D5. Variable rates of spontaneous uterine endometrial adenocarcinomas have been reported for untreated F344 CrIBr rats. As such, we concluded that the slight increase in uterine endometrial adenocarcinomas observed in the D5 chronic bioassay might not be the result of D5 exposure but may be related to variability of the spontaneous tumor incidence in this strain of rat. However, if the uterine endometrial adenocarcinomas are related to D5-exposure, alteration in the estrous cycle in the aging F344 rat is the most likely mode of action. D5 is not genotoxic or estrogenic. The alteration in the estrous cycle is caused by a decrease in progesterone with an increase in the estrogen:progesterone ratio most likely induced by a decrease in prolactin concentration. Available data support that exposure to D5 influences prolactin concentration. Although the effects on prolactin concentrations in a number of experiments were not always consistent, the available data support the conclusion that D5 is acting via a dopamine receptor agonist-like mechanism to alter the pituitary control of the estrous cycle. In further support of this mode of action, studies in F344 aged animals showed that the effects of D5 on estrous cyclicity produced a response consistent with a dopamine-like effect and further suggest that D5 is accelerating the aging of the reproductive endocrine system in the F344 rat utilized in this study. This mode of action for uterine endometrial adenocarcinoma tumorigenesis is not relevant for humans.
Proteolytic cleavage of the extracellular domain affects signaling of parathyroid hormone 1 receptor
(2022)
Parathyroid hormone 1 receptor (PTH1R) is a member of the class B family of G protein-coupled receptors, which are characterized by a large extracellular domain required for ligand binding. We have previously shown that the extracellular domain of PTH1R is subject to metalloproteinase cleavage in vivo that is regulated by ligand-induced receptor trafficking and leads to impaired stability of PTH1R. In this work, we localize the cleavage site in the first loop of the extracellular domain using amino-terminal protein sequencing of purified receptor and by mutagenesis studies. We further show, that a receptor mutant not susceptible to proteolytic cleavage exhibits reduced signaling to G\(_s\) and increased activation of G\(_q\) compared to wild-type PTH1R. These findings indicate that the extracellular domain modulates PTH1R signaling specificity, and that its cleavage affects receptor signaling.
Der Parathormonrezeptor Typ 1 (PTHR) ist ein G-Protein-gekoppelter Rezeptor der Gruppe 2 und wichtigster Regulator des Kalziumstoffwechsels. Im ersten Teil der Arbeit wurde eine neuartige posttranslationale Modifikation des PTHR in Form einer proteolytischen Spaltung der Ektodomäne identifiziert, charakterisiert und deren Regulation beschrieben. Nach langanhaltender Stimulation des Rezeptors mit Agonisten – aber nicht mit Antagonisten – wurde eine Massen- und Mengenzunahme des Rezeptorproteins beobachtet. Es konnte gezeigt werden, dass der Rezeptor unter basalen Bedingungen einer Spaltung unterliegt. Der Massenunterschied entsteht durch die proteolytische Spaltung der Ektodomäne des PTHR, was nachfolgend die Stabilität des Rezeptors beeinträchtigt. Die Spaltung erfolgte innerhalb einer unstrukturierten Schleife der Ektodomäne, welche die Bereiche für die Ligandenbindung miteinander verbindet. Hierbei handelt es sich um eine Region, die im Vergleich zu anderen Gruppe 2-Rezeptoren spezifisch für den PTHR ist. Das durch die Spaltung entstandene N-terminale Fragment bleibt durch eine Disulfidbrücke mit dem Transmembranteil des Rezeptors verbunden. Durch Versuche mit verschiedenen Proteaseinhibitoren konnte die verantwortliche Protease der Familie der zinkabhängigen extrazellulären Proteasen zugeordnet werden. Diese Ergebnisse beschreiben einen Mechanismus wie die Homoöstase des PTHR reguliert sein könnte. In einem zweiten Abschnitt wurde die Interaktion der Adapterproteine NHERF1 und beta-Arrestin2 mit dem PTHR untersucht. Beide Proteine interagierten unabhängig mit dem Rezeptor, wobei NHERF1 über eine PDZ-Domäne konstitutiv an den C-Terminus des Rezeptors bindet. beta-Arrestin2 hingegen bindet nach Aktivierung des Rezeptors und führt zur Desensitisierung des Rezeptors. Mittels biochemischer und mikroskopischer Methoden konnte gezeigt werden, dass beide Proteine gemeinsam einen ternären Komplex mit dem PTHR bilden, welcher durch die direkte Interaktion zwischen NHERF1 und beta-Arrestin2 vermittelt wird. Dies hat zur Folge, dass beta-Arrestin im basalen Zustand durch NHERF1 an den Rezeptor gekoppelt wird. Durch Analyse der Assoziationskinetik mittels Fluoreszenz-Resonanz-Energietransfer-Messungen zeigte sich, dass diese Kopplung zu einer zweifach erhöhten Rekrutierungsgeschwindigkeit von beta-Arrestin2 an den PTHR führt. Somit stellt unterstützt NHERF1 die beta-Arrestin2-vermittelte Desensitisierung des PTHR.
Posttranslationale Modifikation von Phosducin durch den small ubiquitin-related modifier "SUMO"
(2006)
Die Rezeptor vermittelte Aktivierung heterotrimerer G-Proteine ist einer der bedeutendsten Signaltransduktionsmechanismen in vielen Organismen. Die Vielzahl unterschiedlicher Rezeptoren und Agonisten macht eine effektive Kontrolle des einzelnen Signals unumgänglich. Das zytosolische Protein Phosducin bindet beta-gamma-Untereinheiten aktivierter G-Proteine und hemmt damit sowohl Gbeta-gamma-vermittelte Effekte als auch Galpha-vermittelte Effekte. In der vorliegenden Arbeit wurde neben der bekannten 33 kDa Form von Phosducin eine weitere 47 kDa große Form in der Retina und im Herz identifiziert. Hierbei handelte es sich um Phosducin, welches mit dem small ubiquitin-related modifier, SUMO, modifiziert war. Weiterhin wurde sowohl in vitro als auch in zellulären Sytemen gezeigt, dass Phosducin mit einem Molekül SUMO an Lysin 33 modifiziert wird. Durch punktgerichtete Mutation dieser Modifikationsstelle wurde eine SUMOylierungs-defiziente Phosducin-Mutante generiert. Diese Mutante unterliegt einem gesteigerten Turnover im Vergleich zu Wildtyp-Phosducin, welcher auf die verstärke Ubiquitinierung und dem damit verbundenen proteasomalen Abbau der Mutante zurückzuführen war. Dies demonstriert, dass SUMOylierung von Phosducin protektive Wirkung auf dieses Protein hat. Darüberhinaus behindert die SUMOylierung von Phosducin dessen Bindung an Gbeta-gamma-Untereinheiten heterotrimerer G-Proteine. Diese Beobachtungen erlauben den Schluss, dass SUMOylierung neben der Phosphorylierung ein neuer und wichtiger Mechanismus ist, über den die Verfügbarkeit von Phosducin als G-Protein-Regulator kontrolliert wird.
1,25-dihydroxyvitamin D3 (1,25D3) was reported to induce premature organismal aging in fibroblast growth factor-23 (Fgf23) and klotho deficient mice, which is of main interest as 1,25D3 supplementation of its precursor cholecalciferol is used in basic osteoporosis treatment. We wanted to know if 1,25D3 is able to modulate aging processes on a cellular level in human mesenchymal stem cells (hMSC). Effects of 100 nM 1,25D3 on hMSC were analyzed by cell proliferation and apoptosis assay, beta-galactosidase staining, VDR and surface marker immunocytochemistry, RT-PCR of 1,25D3-responsive, quiescence-and replicative senescence-associated genes. 1,25D3 treatment significantly inhibited hMSC proliferation and apoptosis after 72 h and delayed the development of replicative senescence in long-term cultures according to beta-galactosidase staining and P16 expression. Cell morphology changed from a fibroblast like appearance to broad and rounded shapes. Long term treatment did not induce lineage commitment in terms of osteogenic pathways but maintained their clonogenic capacity, their surface marker characteristics (expression of CD73, CD90, CD105) and their multipotency to develop towards the chondrogenic, adipogenic and osteogenic pathways. In conclusion, 1,25D3 delays replicative senescence in primary hMSC while the pro-aging effects seen in mouse models might mainly be due to elevated systemic phosphate levels, which propagate organismal aging.
The ligand-binding subunit of the A\(_1\)-adenosine receptor has been identified by photoaffinity labeling. A photolabile derivative of R- \(N^6\)-phenylisopropyladenosine, R-2-azido-\(N^6\)-p-hydroxyphenylisopropyladenosine (R-AHPIA), has been synthesized as a covalent specific Iigand for A\(_1\)-adenosine receptors. In adenylate cyclase studies with membranes of rat fat cells and human platelets, R·AHPIA has adenosine receptor agonist activity with a more than 60-fold selectivity for the A\(_1\)-subtype. It competes for [\(^3\)H].\(N^6\)- phenylisopropyladenosine binding to Arreceptors of rat brain membranes with a Ki value of 1.6 nM. After UV irradiation, R-AHPIA binds irreversibly to the receptor, as indicated by a loss of [\(^3\)H)\(N^6\)-phenylisopropyladenosine binding afterextensive washing; the K; value for this photoinactivation is 1.3 nM. The p-hydroxyphenyl substituent of R-AHPIA can be directly radioiodinated to give a photoaffinity Iabel of high specific radioactivity (\(^{125}\)I-AHPIA). This compound has a KD value of about 1.5 nM as assessed from saturation and kinetic experiments. Adenosine analogues compete for \(^{125}\)I-AHPIA binding to rat brain membranes with an order of potency characteristic for A\(_1\)-adenosine receptors. Dissociation curves following UV irradiation at equilibrium demonstrate 30-40% irreversible specific binding. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis indicates that the probe is photoincorporated into a single peptide of M\(_r\) = 35,000. Labeling of this peptide can be blocked specifically and stereoselectively by adenosine receptor agonists and antagonists in a manner which is typical for the A\(_1\)-subtype. The results indicate that \(^{125}\)I-AHPIA identifies the ligand-binding subunit of the A\(_1\)-adenosine receptor, which is a peptide with M\(_r\) = 35,000.
Signal transduction via receptors for N-formylmethionyl peptide chemoattractants (FPR) on human neutrophils is a highly regulated process which involves participation of cytoskeletal elements. Evidence exists suggesting that the cytoskeleton and/or the membrane skeleton controls the distributJon of FPR in the plane of the plasma membrane, thus controlling the accessibility of FPR to different proteins in functionally distinct domains. In desensitized cells, FPR are restricted todomains which are depleted of G proteins but enriched in cytoskeletal proteins such as actin and fodrin. Thus, the G protein signal transduction partners of FPR become inaccessible to the agonist-occupied receptor, preventing cell activation. The mechanism of interaction of FPR with the membrane skeleton is poorly understood but evidence is accumulating that suggests a direct binding of FPR (and other receptors) to cytoskeletal proteins such as actin.
Desensitization of N-formyl peptide chemoattractant receptors (FPR) in human neutrophils results in association of these receptors to the membrane skeleton. This is thought to be the critical event in the lateral segregation of receptors and guanyl nucleotide-binding proteins (G proteins) within the plane of the plasma membrane resulting in an interruption of the signaling cascade. In this study we probed the interaction of FPR with G protein in human neutrophils that were desensitized to various degrees. Human neutrophils were desensitized using the photoreactive agonist N-formyl-met-leu-phelys- N\(^\epsilon\)-[\(^{125}\)I]2(p-azidosalicylamido )ethyl-1 ,3 '-dithiopropionate (/MLFK-[\(^{125}\)I]ASD). The interaction if FPR with G protein was studied via a reconstitution assay and subsequent analysis of FPR-G protein complexes in sucrose density gradients. FPR-G protein complexes were reconstituted with solubilized FPR from partially and fully desensitized neutrophils with increasing concentrations of Gi purified from bovine brain. The respective EC\(_{50}\) values for reconstitution were similar to that determined for FPR from unstimulated neutrophils (Bommakanti RK et al., J Bio[ Chem 267: 757~7581, 1992). We conclude, therefore, that the affinity of the interaction of FPR with G protein is not affected by desensitization, consistent with the model of lateral segregation of FPR and G protein as a mechanism of desensitization.
Desensitization of N-fonnyl peptide chemoattractant receptors (FPR) in human neutrophils is thought to be achieved by lateral segregation of receptors and G proteins within the plane of the plasma membrane resulting in an interruption of the signalling cascade. Direct coupling of FPR to membrane skeletal actin appears to be the basis of this process~ however, the molecular mechanism is unknown. In this study we investigated the effect of energy depletion on formation of FPR-membrane skeleton complexes. In addition the effect of the protein kinase C inhibitor stauroporine and the phosphatase inhibitor okadaic acid on coupling of FPR to the membrane skeletonwas studied. Human neutrophils were desensitized using the photoreactive agonist N-formy1-met-leu-phe-1ys-N'[\(^{125}\)I]2(p-azidosalicylamido)ethyl-1,3'-dithiopropionate (fMLFK-[\(^{125}\)I]ASD) after ATP depletion with NaF or after incubation with the respective inhibitors. The interaction of FPR with the membrane skeleton was studied by Sedimentation of the membrane skeleton-associated receptors in sucrose density gradients. Energy depletion of the cells markedly inhibited the formation of FPR-membrane skeleton complexes. This does not appear tobe related to inhibition of protein phosphorylation due to ATP depletion because inhibition of protein kinases and phosphatases bad no significant effect on coupling of FPR to the membrane skeleton. We conclude, therefore, that coupling of FPR to the membrane skeleton is an energy,dependent process which does not appear to require modification of the receptor protein by phosphorylation.
The effects of guanine nucleotides on binding of 8-cyclopentyl-1,3-[\(^3\)H]dipropylxanthine [\(^3\)H]DPCPX), a highly selective A\(_1\) adenosine receptor antagonist, have been investigated in rat brain membranes and solubilized A\(_1\) receptors. GTP, which induces uncoupling of receptors from guanine nucleotide binding proteins, increased binding of [\(^3\)H]DPCPX in a concentration-dependent manner. The rank order of potency for different guanine nucleotides for increasing [\(^3\)H]DPCPX bindingwas the same as for guanine nuc1eotide-induced inhibition of agonist binding. Therefore, a role for a guanine nucleotide binding protein, e.g., G\(_i\), in the regulation of antagonist binding is suggested. This was confirmed by inactivation ofGi by N-ethylmaleimide (NEM) treatment of membranes, which resulted in an increase in [\(^3\)H]DPCPX binding similar to that seen with addition of GTP. Kinetic and equilibrium binding studies showed that the GTP- or NEM-induced increase in antagonist binding was not caused by an affinity change of A\(-1\) receptors for [\(^3\)H]DPCPX but by an increased Bmu value. Guanine nucleotides had similar effects on membrane-bound and solubilized receptors, with the effects in the solubilized system being more pronounced. In the absence of GTP, when rnost receptors are in a high-affinity state for agonists, only a few receptors are labeled by [\(^3\)H]DPCPX. It is suggested that [\(^3\)H]DPCPX binding is inhibited when receptors are coupled to G\(_i\). Therefore, uncoupling of A\(_1\) receptors from G\(_i\) by guanine nucleotides or by inactivation of G\(_i\) with NEM results in an increased antagonist binding.
Key Words: Adenosine receptors-8 -Cyclopentyl-1,3-eH]dipropylxanthine-Antagenist binding-Guanine nucleotide effects. Klotz K.-N. et al. Guanine nucleotide etfects on 8-cyclopentyl-1 ,3-eH]dipropylxanthine binding to membrane-bound and solubilized A1 adenosine receptors of rat brain. J. Neurochem. 54, 1988-1994 (1990).
The cytoskeleton and/or membrane skeleton has been implicated in the regulation of N-formyl peptide receptors. The coupling of these chemotactic receptors to the membrane skeleton was investigated in plasma membranes from unstimulated and desensitized human neutrophils using the photoreactive agonist N-formyl-met-leu-phelys-N\(^6\)-[\(^{125}\)I]2(p-azidosalicylamido)ethyl-1,3'-dithiopropionate (fMLFK-[\(^{125}\)I]ASD). When membranes of unstimulated cells were solubilized in Triton-X 100, a detergent that does not disrupt actin filaments, only 50% of the photoaffinity-labeled receptors were solubilized sedimenting in sucrose density gradients at a rate consistent with previous reports. The remainder were found in the pellet fraction along with the membrane skeletal actin. Solubilization of the membranes in the presence of p-chloromercuriphenylsulfonic acid, elevated concentrations of KCI, or deoxyribonuclease I released receptors in parallel with actin. When membranes from neutrophils, desensitized by incubation with fMLFK-e 251]ASD at 15°C, were solubilized, nearly all receptors were recovered in the pellet fraction. lncubation of cells with the Iigand at 4°C inhibited desensitization partially and prevented the conversion of a significant fraction of receptors to the form associated with the membrane skeletal pellet. ln these separations the photoaffinity-labeled receptors not sedimenting to the pellet cosedimented with actin. Approximately 25% of these receptors could be immunosedimented with antiactin antibodies suggesting that N-formyl peptide receptors may interact directly with actin. These results are consistent with a regulatory role for the interaction of chemotactic N-formyl peptide receptors with actin of the membrane skeleton.
A\(_1\) adenosine receptors from different tissues and species we~e photoaffinity labelled and then the carbohydrate content was examined by both enzymatic and chemical treatment. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis of the labelled membrane receptors shows that neuraminidase treatment alters the electrophoretic mobility of the receptor band indica ting the presence of terminal neurandnie acids. Neuraminidase digestion does not influence the binding characteristics of the receptor. The totally deglycosylated receptor protein obtained by chemical treatment has an apparent molecular weight Of 32,000.
Chemical modification of amino acid residues was used to probe the ligand recognition site of A\(_1\) adenosine receptors from rat brain membranes. The effect of treatment with group·specific reagents on agonist and antagonist radioligand binding was investigated. The histidine-specific reagent diethylpyrocarbonate (DEP) induced a loss of binding of the agonist R-N\(^6\)-[\(^3\)H]phenylisopropyladenosine ([\(^3\)H]PIA), which could be prevented in part by agonists, but not by antagonists. DEP treatment induced also a loss of binding of the antagonist [\(^3\)H]8- cyclopentyl-1 ,3-dipropylxanthine ([\(^3\)H]DPCPX). Antagonists protected A\(_1\) receptors from this inactivation while agonists did not. This result provided evidence for the existence of at least 2 different histidine residues involved in ligand binding. Consistent with a modification of the binding site, DEP did not alter the affinity of [\(^3\)H]DPCPX, but reduced receptor number. From the selective protection of [\(^3\)H] PIA and [\(^3\)H]DPCPX binding from inactivation, it is concluded that agonists and antagonists oocupy different domains at the binding site. Sulfhydryl modifying reagents did not influence antagonist binding, but inhibited agonist binding. This effect is explained by modification of tbe inhibitory guanine nucleotide binding protein. Pyridoxal 5-phosphate inactivated both [\(^3\)H]PIA and [\(^3\)H]DPCPX binding, but the receptors could not be protected from inactivation by ligands. Therefore, no amino group seems to be located at the Iigand binding site. In addition, it was shown that no further amino acids witb polar side chains are present. The absence of bydrophilic amino acids frout the recognition site of the receptor apart from histidine suggests an explanation for the lack of hydrophilic ligands with high affinity for A\(_1\) receptors.
A\(_1\) adenosine receptors from rat brain membranes were solubilized with the zwitterionic detergent 3-[3-( cholamidopropyl)dimethylammonio]-1-propanesulfonate. The solubilized receptors retained all the characteristics of membrane-bound A\(_1\) adenosine receptors. A high and a low agonist affinity state for the radiolabelled agonist (R)-\(N^6\)-[\(^3\)H]phenylisopropyladenosine([\(^3\)H]PJA) with K\(_D\) values of 0.3 and 12 nM, respectively, were detected. High-affinity agonist binding was regulated by guanine nucleotides. In addition agonist binding was still modulated by divalent cations. The solubilized A\(_1\) adenosine receptors could be labelled not only with the agonist [\(^3\)H]PIA but also with the antagonist I ,3-diethyi-8-[\(^3\)H]phenylxanthine. Guanine nucleotides did not affect antagonist binding as reported for membrane-bound receptors. These results suggest that the solubilized receptors are still coupled to the guanine nucleotide binding protein N; and that all regulatory functions are retained on solubilization. Key Words: A1 adenosine receptors - Solubilization- Rat brain membranes. Klotz K.-N. et al. Characterization of the solubilized A1 adenosine receptor from rat brain membranes. J. Neurochem. 46, 1528-1534 (1986).
The tritiated analogue of 2-chloro-N6-cyclopentyladenosine (CCPA), an adenosine derivative with subnanomolar affinity and a 10000-fold selectivity for A1 adenosine receptors, has been examined as a new agonist radioligand. [3H]CCP A was prepared with a specifi.c radioactivity of 1.58 TBqjmmol ( 43 Ci/mmol) and bound in a reversible manner to A1 receptors from rat brain membranes with a high affinity K0 -value of 0.2 nmol/1. In the presence of GTP a K0 -value of 13 nmol/1 was determined for the low affinity state for agonist binding. Competition of several adenosine receptor agonists and antagonists for [3H]CCPA binding to rat brain membranes confrrmed binding to an A1 receptor. Solubilized A1 receptors bound [3H]CCPA with similar affinity for the high affinity state. At solubilized receptors a reduced association rate was observed in the presence of MgC12, as has been shown for the agonist [ 3H]N6-phenylisopropyladenosine ([3H]PIA). [3H]CCPA was also used for detection of A1 receptors in rat cardio myocyte membranes, a tissue with a very low receptor density. A K0 -value of 0.4 nmol/1 and a Bmax-value of 16 fmol/ mg protein was determined in these membranes. In human platelet membranes no specific binding of [3H]CCPA was measured at concentrations up to 400 nmoljl, indicating that A2 receptors did not bind [3H]CCPA. Based on the subnanomolar affinity and the high selectivity for A1 receptors [ 3H]CCPA proved to be a useful agonist radioligand for characterization of A 1 adenosine receptors also in tissues with very low receptor density.
Radioligand binding to A\(_1\) adenosine receptors at brain membranes from seven species was investigated. The antagonist 8-cyclopentyl-1 ,3-[\(^3\)H]dipropylxanthine ([\(^3\)H]DPCPX) bound with affinities between 0.17 nM in sheep brain and 2.1 nM in guinea pig brain. Competition of several antagonists for [\(^3\)H]DPCPX binding showed that the most potent compounds were DPCPX with K\(_i\) values of 0.05 nM in bovine brain and 1.1 nM in guinea pig brain and xanthine amine congener (XAC) with K\(_i\) values of 0.03 nM in bovine brain and 5.5 nM in guinea pig brain. The differences in affinity of the agonist radio Iigand 2-chloro-N\(^6\) -[\(^3\)H]cyclopen tyladenosine ([\(^3\)H]CCP A) were less pronounced, rauging from a K\(_D\) value of 0.12 nM (hamster brain) to 0.42 nM (guinea pig brain). Agonist competition for [\(^3\)H]DPCPX binding of photoaffinity labelling, however, exhibited marked species differences. N-Ethylcarboxamidoadenosine (NECA) and S-N\(^6\)-phenylisopropyladenosine (S-PIA) showed 20 to 25-fold different K\(_D\) values in different species. NECA had a particularly high affinity in guinea pig brain and was only two-fold less potent than R-PIA. Thus, the difference from the "classical" A\(_1\) receptor profile (R-PIA > -NECA > S-PIA) is not sufficient to speculate that A\(_1\) receptor subtypes may exist that are coupled to different effector systems. Our data show that these difference can easily be explained by species differences.