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The hypothesis that oxidative stress plays a role in the pathogenesis of Alzheimer’s disease (AD) was tested by studying oxidative damage, acitvities of antioxidant enzymes and levels of reactive oxygen species (ROS) in several models. To this end, mouse models transgenic for mutant presenilin (PS1M146L) as well as mutant amyloid precursor protein (APP) and human post mortem brain tissue from sporadic AD patients and age-matched controls were studied. Aging leads to an upregulation of antioxidant enzyme activities of Cu/Zn-superoxide dismutase (Cu/Zn-SOD), glutathione peroxidase (GPx) and glutathione reductase (GR) in brains from C57BL/6J mice. Simultaneously, levels of lipid peroxidation products malondialdehyde MDA and 4-hydroxynonenal HNE were reduced. Additionally, pronounced gender effects were observed, as female mice display better protection against oxidative damage due to higher activity of GPx. Hence, antioxidant enzymes provide an important contribution to the protection against oxidative damage. In PS1M146L transgenic mice oxidative damage was only detectable in 19-22 months old mice, arguing for an additive effect of aging and the PS1 mutation. Both HNE levels in brain tissue as well as mitochondrial and cytosolic levels of ROS in splenic lymphocytes were increased in PS1M146L mice. Antioxidant defences were unaltered. In PDGF-APP and PDGF-APP/PS1 trangenic mice no changes in any of the parameters studied were observed in any age group. In contrast, Thy1-APP transgenic mice display oxidative damage as assessed by increased HNE levels. Reduced activity of Cu/Zn-SOD may explain this observation. Additionally, gender modified this effect, as female APP transgenic mice display higher b-secretase cleavage of APP and simultaneously increased HNE levels and reduced Cu/Zn-SOD activity earlier than male mice, i.e. from an age of 3 months and before the formation of Ab plaques. Reduced Cu/Zn-SOD activity was also found in another APP transgenic mouse model, in APP23 mice. In post mortem brain tissue from sporadic AD patients activities of Cu/Zn-SOD and GPx were however increased, and changes were most pronounced in temporal cortex. Simultaneously, levels of HNE but not MDA were elevated. Additionally, in vitro stimulation of lipid peroxidation led to increased MDA formation in samples from AD patients, indicating that increased activity of Cu/Zn-SOD and GPx are insufficient to protect against oxidative damage. Furthermore, the observed changes were subject to a gender effect, as samples from female AD patients showed increased activities of Cu/Zn-SOD and GPx as well as increased HNE levels, indicating that brain tissue from females is more sensitive towards oxidative damage. Levels of soluble Ab1-40 were positively correlated with with MDA levels and activities of Cu/Zn-SOD and GPx. Additionally, levels of lipid peroxidation products MDA and HNE are gene-dose-dependently modulated by the Apolipoprotein E4 allele, the most important genetic risk factor for AD known so far. While MDA levels were negatively correlated with MMSE scores, a measure for cognitive function, HNE levels were highest in AD patients with moderate cognitive impairment. Hence, increased HNE levels may play an important role in neurodegenerative events at an early disease stage. In summary, oxidative damage, as assessed by increased HNE levels, could be detected in sporadic AD patients and in different transgenic mouse models. The results of this thesis therefore support the further research of pharmacological targets aiming at augmentation of antioxidant defences for therapy or prophylaxis of Alzheimer’s disease.
In large models of neuronal cell death, there is a tight correlation between Cdk5 deregulation and cell-cycle dysfunction. However, pathways that link Cdk5 to the cell cycle during neuronal death are still unclear. We have investigated the molecular events that precede p25/Cdk5-triggered neuronal death using a neuronal cell line that allows inducible p25 expression. In this system, no sign of apoptosis was seen before 24 hours of p25 induction. Thus, at that time, cell-cycle-regulatory proteins were analysed by immunoblotting and some of them showed a significant deregulation. Interestingly, after time-course experiments, the earliest feature correlated with p25 expression was the phosphorylation of the retinoblastoma protein (Rb). Indeed, this phosphorylation was observed 6 hours after p25 induction and was abolished in the presence of a Cdk5 inhibitor, roscovitine, which does not inhibit the usual Rb cyclin-D kinases Cdk4 and Cdk6. Furthermore, analyses of levels and subcellular localization of Cdk-related cyclins did not reveal any change following Cdk5 activation, arguing for a direct effect of Cdk5 activity on Rb protein. This latter result was clearly demonstrated by in vitro kinase assays showing that the p25-Cdk5 complex in our cell system phosphorylates Rb directly without the need for any intermediary kinase activity. Hence, Rb might be an appropriate candidate that connects Cdk5 to cell-cycle deregulation during neuronal cell death.
The transcription factor Tal1 is a critical activator or repressor of gene expression in hematopoiesis and leukaemia. The mechanism by which Tal1 differentially influences transcription of distinct genes is not fully understood. Here we show that Tal1 interacts with the peptidylarginine deiminase IV (PADI4). We demonstrate that PADI4 can act as an epigenetic coactivator through influencing H3R2me2a. At the Tal1/PADI4 target gene IL6ST the repressive H3R2me2a mark triggered by PRMT6 is counteracted by PADI4, which augments the active H3K4me3 mark and thus increases IL6ST expression. In contrast, at the CTCF promoter PADI4 acts as a repressor. We propose that the influence of PADI4 on IL6ST transcription plays a role in the control of IL6ST expression during lineage differentiation of hematopoietic stem/progenitor cells. These results open the possibility to pharmacologically influence Tal1 in leukaemia.
"Protein Associated with Myc" (PAM) hat aufgrund seiner enormen Größe von 510 kD und der Vielzahl an Proteinbindungsstellen das Potential viele regulatorische und physiologische Prozesse zu regulieren. Mit der Funktion als E3-Ubiquitinligase und davon unabhängigen Proteininteraktionen reguliert es beispielsweise Prozesse der Synaptogenese und der spinalen Schmerzverarbeitung, wie auch die Regulation des Pteridin Stoffwechsels und des cAMP-Signalweges. Im Gegensatz zur spinalen Schmerzverarbeitung war eine Beteiligung von PAM an der peripheren Nozizeption bisher unbekannt und sollte im Rahmen dieser Arbeit untersucht werden. Dazu wurden konditionale PAM-Knockout Mäuse generiert und charakterisiert. Zum einen wurde PAM in Vorläuferzellen von Neuronen und Gliazellen und zum anderen in allen nozizeptiven und thermorezeptiven Neuronen der Dorsalganglia und der Ganglia trigeminale deletiert. Der Knockout in Neuronen und Gliazellen führte zu einer pränatalen Letalität und unterstreicht so die Bedeutung von PAM während der Neuronenentwicklung. Mit Hilfe des spezifischen Knockouts in nozizeptiven Neuronen konnte eine Rolle von PAM bei der Regulation der thermischen Hyperalgesie gezeigt werden. Keinen Einfluss hatte die Deletion von PAM auf basale thermische und mechanische Schmerzschwellen, sowie auf Formalin-induzierte akute Schmerzen. Als potentieller Mechanismus wurde der mTOR- und der p38 MAPK-Signalweg untersucht. Dabei konnte eine Vermittlung der S1P-induzierten mTOR-Aktivierung durch PAM nachgewiesen werden und Rheb als eine Komponente dieser Aktivierung ermittelt werden. Der p38 MAPK Signalweg war in Abwesenheit von PAM konstitutiv aktiviert und einige Proteine des Rezeptortraffickings waren verstärkt exprimiert. Als ursächlich für die beobachtete verlängerte Hyperalgesie in PAM-defizienten Mäusen konnte die Unterbindung der Internalisierung des TRPV1-Rezeptors nachgewiesen werden. Dieser Effekt ist spezifisch für TRPV1, da der verwandte Ionenkanal TRPA1 durch die PAM-Deletion nicht beeinträchtigt wurde. In der vorliegenden Arbeit konnte so zum ersten Mal gezeigt werden, dass PAM in peripheren nozizeptiven Neuronen über die p38 MAPK-vermittelte Internalisierung von TRPV1 die Dauer der thermischen Hyperalgesie reguliert.
Purpose: The Action Plan for Medication Safety by the German Federal Ministry of Health introduced a standardized medication plan (MP), a printable document for the patient. The practical handling needs to be tested before the nationwide implementation in Germany. Therefore, the aims of our study were 1) to develop an instrument to evaluate the usage of the standardized MP, 2) to assess if patients can locate, and 3) understand important information. Moreover, we explored patients’ opinion and suggestions regarding the standardized MP template.
Patients and methods: We conducted a cross-sectional study to evaluate the practical handling of the standardized MP. We interviewed 40 adult patients in seven community pharmacies in Germany, who took at least five medicines regularly and gave their written informed consent. The interview consisted of questions regarding finding and understanding information provided on a mock-up MP, patients’ opinion and the execution of the information on the MP by filling pill boxes. We eventually developed a new evaluation method to quantify the practical handling of the MP by rating the pill boxes filled by the patients.
Results: Overall, the participants rated the MP positively. Thirty-nine (98%) participants found important information on a mock-up standardized MP. Patients were questioned to identify if they understood information on medical intake as it relates to meals. In particular, they were questioned about medicine intake "1 hour before a meal", which 98% (n=39) interpreted correctly, and "during a meal", which 100% (n=40) interpreted correctly. The less precise advice of "before a meal" was interpreted correctly by 73% (n=29), and only 15% (n=6) correctly interpreted the term "after the meal". The evaluation of the filled pill boxes resulted in the "Evaluation Tool to test the handling of the Medication Plan" (ET-MP) – a weighted scoring system.
Conclusion: The standardized MP is clearly arranged, and patients are able to find important information. The findings of this study resulted in minor but important revisions of the standardized MP template. The developed evaluation tool ET-MP may serve as an objective instrument to assess patients’ ability to transfer written information on the MP into practical handling of medicines.
Boswellia serrata gum resin extracts (frankincense) have been used for centuries in folk medicine in Asia and Africa. They have shown beneficial therapeutic effects, particularly in the treatment of chronic inflammatory diseases. Clinical studies on humans confirmed an anti-inflammatory and anti-cancer potential of Frankincense preparations. Boswellic acids (BAs) are the major ingredients, responsible for the pharmacological action of the extracts. Molecular and cellular studies with BAs revealed a number of targets including 5-lipoxygenase (LO), topoisomerases and the NF-κB pathway. Since there is little information on the modulation of cellular physiology by BAs, this work was designed to provide a detailed investigation of the cellular and molecular effects of BAs in several cell types related to inflammation. We report that 11-keto-BAs are potent activators of functional responses in human neutrophils, a type of leukocytes mediating acute inflammatory processes. Neutrophil activation by 11-keto-BAs is reflected by enhanced generation of oxygen radicals, release of arachidonic acid (AA) and the subsequent transformation of AA to pro-inflammatory eicosanoids. Investigation of the participating signalling pathways identified Ca2+, phosphoinositide-3 kinase, and members of the MAP kinase family (ERKs) as mediators. Second, we present a detailed study of the modulation of human platelet physiology and intracellular signalling events by BAs. Intriguingly, we discovered an inverse structure-activity relationship of BAs regarding platelet activation, with 11-methylene-BAs being superior over 11-keto-BAs. Thus, 11-methylene-BAs stimulated platelet Ca2+ mobilisation, MAP kinase and Akt activation, AA release, 12-LO and cyclooxygenase product formation, and thrombin generation. Novel Ca2+-independent activation pathways of platelet lipid metabolism were discovered. In contrast, 11-keto-BAs were inactive but found to inhibit platelet (p)12-LO directly. Interaction with p12-LO was confirmed in a pulldown assay using immobilised BAs as bait. Finally, BAs were shown to attenuate the activation of monocytes, a cell type responsible for the maintenance of chronic inflammatory states. Impairment of Ca2+ homeostasis is likely conferred by inhibition of Ca2+ influx channels. Taken together, our results shed light on the modulation of intracellular physiology of inflammatory cells by BAs, contributing to a better understanding of the anti-inflammatory effects exerted by frankincense preparations.
More than 70 years ago, the effects of extracellular adenosine 5'-triphosphate (ATP), a newly identified and purified biomolecule at that time (Fiske and Subbarow, 1925; Lohmann, 1929) were observed by Drury and Szent-Györgyi (1929). Since then, many pharmacological studies were carried out with extracellular adenine nucleotides in various intact organ systems, isolated tissues, and purified cell preparations. Yet it was not until 1972 that Burnstock introduced the concept of "purinergic nerves" and suggested that ATP might fulfil the criteria generally regarded as necessary for establishing a substance as a neurotransmitter, summarised by Eccles (1964):
• synthesis and storage of transmitter in nerve terminals
Strips of guinea-pig taenia coli (GPTC) were shown to take up large amounts of tritium-labelled adenosine when incubated with tritium-labelled adenosine, adenosine 5'-monophosphate (AMP), adenosine 5'-diphosphate (ADP) and ATP. The nucleoside was rapidly converted into and retained largely as [ 3 H]-ATP (Su et al., 1971).
• release of transmitter during nerve stimulation
Spontaneous relaxation of GPTC as well as relaxations induced by nerve stimulation or nicotine, respectively, in the presence of compounds which block adrenergic and cholinergic responses were accompanied by a remarkable increase in release of tritium-labelled material from taenia coli incubated in [ 3 H]-adenosine (Su et al., 1971).
• postjunctional responses to exogenous transmitters that mimic responses to nerve stimulation
Burnstock et al. (1966) characterised ATP and ADP as the most potent inhibitory purine compounds in the gut and observed that the effects of ATP mimic more closely the inhibitory response of the taenia to non-adrenergic nerve-stimulation than to adrenergic nerve stimulation (Burnstock et al., 1970).
enzymes that inactivate the transmitter and/or uptake systems for the transmitter or its breakdown products
When ATP was added to a perfusion fluid recycled through the vasculature of the stomach, very little ATP remained, but the perfusate contained substantially increased amounts of adenosine and inosine, as well as some ADP and AMP (Burnstock et al., 1970).
• drugs that can produce parallel blocking of potentiating effects on the responses of both exogenous transmitter and nerve stimulation
Tachyphylaxis to ATP produced in the rabbit ileum resulted in a consistent depression of responses to non-adrenergic inhibitory nerve stimulation, whereas responses to adrenergic nerve stimulation remained unaffected (Burnstock et al., 1970). Lower concentrations of quinidine reduced and finally abolished relaxation of GPTC induced by noradrenaline (NA) and by adrenergic nerve stimulation. Using higher concentrations of the compound, relaxant responses of GPTC to ATP as well as to non-adrenergic inhibitory nerve stimulation were abolished (Burnstock et al., 1970). ...
Die Beschäftigung mit Muskarinrezeptoren reicht bis in das vergangene Jahrhundert zurück als, in Folge der verschiedenen Wirkungen des Neurotransmitters Acetylcholin, einerseits Nikotin- und andererseits Muskarinrezeptoren sowie deren Subtypen entdeckt und charakterisiert werden konnten. Aufgrund der weiten Verbreitung von Muskarinrezeptoren innerhalb des zentralen und peripheren Nervensystems sowie in entsprechend innervierten Organen sind diese nach wie vor als Target für bestimmte klinische Indikationen von großem Interesse. Besonders im Bereich der chronisch obstruktiven Atemwegserkrankungen (COPD) sind Bronchodilatoren Mittel der Wahl. Obwohl die derzeitige Behandlungsstrategie im wesentlichen auf dem Einsatz des unselektiven muskarinischen Antagonisten Ipratropiumbromid, allein oder in Kombination mit einem kurzwirksamen b2-Sympathomimetikum, beruht, ist ihr Einsatz aufgrund der dabei auftretenden unerwünschten Nebenwirkungen limitiert. Neben M3- Rezeptoren findet man in der menschlichen Lunge auch präsynaptische M2- Rezeptoren, deren Blockade zu einem Anstieg der Acetylcholinfreisetzung führt. Demzufolge würde die Entwicklung eines hochselektiven und/oder langwirksamen muskarinischen M3-Rezeptorantagonisten einen großen Fortschritt für die Behandlung von Patienten mit COPD und auch Asthma bedeuten. Untersuchung der Stereoisomere des Glycopyrroniumbromids und der entsprechenden tertiären Analoga: Im Rahmen der vorliegenden Arbeit wurden sowohl die vier reinen Stereoisomere des Glycopyrroniumbromids als auch die entsprechenden vier tertiären Analoga untersucht. Bislang wird das Diastereomerengemisch (RS/SR), das als RobinulÒ im Handel ist, vorwiegend als Antisialagogum in der Prämedikation der Narkose oder als Spasmolytikum therapeutisch eingesetzt. Die molekulare Struktur des Glycopyrroniumbromids weist zwei Chiralitätszentren auf, woraus sich vier stereoisomere Verbindungen ergeben. Die pharmakologische Untersuchung sowohl der quartären als auch der korrespondierenden tertiären Isomere in den funktionellen Standardmodellen, Kaninchen-Vas-deferens für M1-Rezeptoren, linker Vorhof des Meerschweinchenherzens für M2-Rezeptoren und die Längsmuskulatur des Meerschweinchenileum für M3-Rezeptoren, ergab, dass sich alle Verbindungen an den untersuchten Muskarinrezeptorsubtypen als potente Antagonisten verhielten. Ihre Rezeptorselektivität war jedoch relativ gering, wobei im Allgemeinen die niedrigste Affinität zum M2-Rezeptor beobachtet wurde. Innerhalb der Stereoisomeren zeigten die (R/R')- und (S/R')-konfigurierten Verbindungen den stärksten, die (S/S')-konfigurierten Isomere hingegen den geringsten antagonistischen Effekt. Diese Ergebnisse konnten durch Radioligand- Bindungsstudien bestätigt werden. Bemerkenswert war jedoch, dass insbesondere am M3-Rezeptor eine extrem langsame Dissoziation der Substanzen vom Rezeptor festgestellt wurde. Verbunden mit der hohen Affinität und der in Bindungsstudien ermittelten Dissoziationshalbwertszeit von 120 min könnte das quartäre (R/R')-konfigurierte Stereoisomer des Glycopyrroniumbromids eine geeignete Alternative zur Behandlung der COPD darstellen: Die lange Halbwertszeit sollte eine Einmalgabe pro Tag erlauben und somit die Patientencompliance erhöhen, die hohe Affinität eine geringe Dosierung ermöglichen und die kinetische Selektivität' sowie die quartäre Struktur könnten zur Minimierung unerwünschter Nebenwirkungen führen. Aufgrund dieser Vorteile wurde die Substanz patentiert und der pharmazeutischen Industrie für weiterführende Untersuchungen zur Verfügung gestellt. Untersuchungen an der Längsmuskulatur des Meerschweinchenileum in Hinblick auf die Verteilung von P2-Rezeptoren: Aufgrund der Pionierarbeit, die Ende der 70er Jahre von Burnstock und seinen Mitarbeitern geleistet wurde, wandelte sich das Bild von ATP als einer Energiequelle der Zelle zu einem Neurotransmitter ubiquitären Vorkommens mit entsprechenden Zielstrukturen, den P2-Rezeptoren. Inzwischen ist allgemein anerkannt, dass zwischen metabotropen P2Y-Rezeptoren und ionotropen P2X- Rezeptoren unterschieden werden kann. Mit Hilfe von Klonierungstechniken konnte diese Klassifizierung validiert und außerdem eine Vielzahl unterschiedlicher Subtypen identifiziert werden. Bis heute wurden sieben P2X- (P2X1-7) und sechs P2Y- Rezeptorsubtypen (P2Y1, P2Y2, P2Y4, P2Y6, P2Y11, P2Y12) kloniert und pharmakologisch charakterisiert. Sie gelten unumstritten als Vertreter der P2-Rezeptorfamilie. Heute besteht eine der größten Herausforderungen auf diesem sich explosionsartig expandierendem Gebiet darin, die geklonten P2-Rezeptoren mit den verschiedenen physiologischen Antworten, die durch native P2-Rezeptoren vermittelt werden, in Einklang zu bringen. Da die Längsmuskulatur des Meerschweinchenileum ein bekanntes Modell, z.B. für Untersuchungen an Muskarinrezeptoren, darstellt, war das Ziel der vorliegenden Arbeit, dieses Modell in Bezug auf die Verteilung von P2-Rezeptoren hin zu untersuchen. Neben Agonisten, die eine Präferenz für entweder ionotrope (a,b-meATP) oder metabotrope (ADPbS) P2-Rezeptoren aufweisen, wurden im wesentlichen eine Reihe gut untersuchter Antagonisten mit zum Teil hoher Affinität für einen Rezeptorsubtyp für die funktionellen Untersuchungen verwendet. Die neuronale Lokalisation des P2X-Rezeptors konnte durch die komplette Aufhebung der durch a,b-meATP-vermittelten Kontraktionen nach Zugabe von TTX charakterisiert werden. Die ebenfalls fast vollständige Hemmung der Kontraktion nach Einsatz von Atropin wies auf einen indirekten, durch Acetylcholin vermittelten Effekt hin. Aufgrund dieser Beobachtungen wurden sämtliche Versuche mit P2-Antagonisten unter Zusatz von 70 µM Physostigmin in der Nährlösung durchgeführt. Die eingesetzten Antagonisten Suramin, NF023 und NF279 erwiesen sich als kompetitive Antagonisten, während PPADS neben der Rechtsverschiebung einen Maximumabfall der Agonistenkurven bewirkte. Ein Vergleich der funktionell ermittelten pA2-Werte mit den Wirkstärken an rekombinanten P2-Rezeptoren von Ratte und Mensch lässt vermuten, dass es sich hierbei um einen P2X3- Rezeptorsubtyp handelt, der über die Freisetzung von Acetylcholin eine Kontraktion der glatten Muskulatur über einen indirekten Mechanismus auslöst. Da sich P2X-Rezeptoruntereinheiten neben homomeren auch zu heteromeren, funktionell aktiven Kanälen vereinen können, könnte es sich bei dem vorliegenden soma-dendritischen P2X-Rezeptor aber auch um ein Heteromer handeln, bei dem der P2X3-Rezeptor den Phänotyp bestimmt. Solange noch keine eindeutige Identifizierung dieses Rezeptors speziesspezifisch auf molekularer Ebene erfolgt ist, sollte man deshalb die Bezeichnung P2X3(-ähnlicher)-Rezeptor verwenden. Es konnte gezeigt werden, dass eine Stimulation des präsynaptischen P2X3(- ähnlichen)-Rezeptors zur Ausschüttung von Acetylcholin führt, das wiederum postsynaptisch einen kontraktionsvermittelnden Muskarinrezeptor aktiviert. Um zu beweisen, dass es sich dabei um denselben Muskarinrezeptorsubtyp handelt, der bereits auf direktem Weg durch APE oder mittels EFS als M3-Rezeptor charakterisiert werden konnte, wurden die Affinitäten muskarinischer Antagonisten als Kriterien herangezogen. Die erhaltenen Korrelationen wiesen eindeutig darauf hin, dass dieser postsynaptisch im GPI lokalisierte Muskarinrezeptor dem nativen und rekombinanten, kontraktionsvermittelnden M3-Rezeptorsubtyp entspricht. Durch Zugabe von ADPbS konnten im GPI Kontraktionen ausgelöst werden, die allerdings mit TTX und Atropin nur zum Teil gehemmt wurden. Diese Beobachtungen führten zu der Erkenntnis, dass postsynaptisch P2Y-Rezeptoren lokalisiert sind. Ihre Subtypcharakterisierung erfolgte unter Zusatz von 0.3 µM Atropin in der Nährlösung, um den Einfluss der neuronalen P2X3-Rezeptoren zu unterbinden. Suramin, NF023 und NF279 zeigten wiederum einen kompetitiven Antagonismus gegen ADPbS, während PPADS auch hier eine Rechtsverschiebung mit Maximumdepression der Agonistenkurve hervorrief. Ein erneuter Vergleich mit beschriebenen Affinitätswerten von rekombinanten P2- Rezeptoren ließ den Schluss zu, dass der im GPI postsynaptisch gefundene P2Y- Rezeptor Eigenschaften des P2Y1-Rezeptorsubtyps aufweist. Eine Bestätigung dafür gaben außerdem die P2Y1-selektiven Bisphosphate A3P5P und MRS2179, obgleich sie geringere pIC50-Werte aufzeigten als in der Literatur beschrieben. Mit der Charakterisierung des neuronalen P2X3-Rezeptors und des postsynaptischen P2Y1-Rezeptors ist das GPI ein bisher einzigartiges funktionelles pharmakologisches Modell, in dem beide P2-Rezeptorsubtypen durch Einsatz des jeweiligen Agonisten, a,b-meATP oder ADPbS, pharmakologisch isoliert werden können. Charakterisierung von P2-Rezeptoren in der Längsmuskulatur des Rattenileum: Eine im Vergleich zum GPI gänzlich andere Situation zeigte sich im RI. Die getesteten P2-Agonisten ADPbS, a,b-meATP, a,b-meADP und ATPgS erzeugten Kontraktionen im untersuchten Gewebe, wobei sich a,b-meATP als effektivster Agonist erwies. Im Unterschied zum GPI führte eine wiederholte Gabe von a,b- meATP allerdings nicht zu einer Desensibilisierung des Rezeptors. Die durch Zugabe von TTX und Atropin erreichte Kontraktionshemmung lässt auf das Vorhandensein von sowohl prä- als auch postsynaptischen P2X-Rezeptoren schließen. Eine Trennung der durch diese Rezeptoren hervorgerufenen Effekte war im funktionellen Experiment jedoch nicht durchführbar. Keinerlei Effekt zeigte allerdings der Zusatz von TTX und Atropin auf die durch ADPbS ausgelösten Kontraktionen. Suramin, NF023 und PPADS erwiesen sich als sehr schwache Antagonisten an diesem Präparat. Auffällig war hingegen, dass die durch den Antagonisten verschobenen Kurven jeweils steiler und im Maximum höher waren als die Kontroll-Agonistenkurve. Man kann also hier nur spekulieren, dass durch die Antagonisten zunächst ein relaxationsvermittelnder Rezeptor geblockt wurde und in Folge nur noch der Effekt des kontraktionsvermittelnden Rezeptors sichtbar war. Obwohl Gewebe der Ratte häufig als funktionelle Modelle in der experimentellen Pharmakologie eingesetzt werden, konnten auf Grund fehlender subtypselektiver Agonisten und Antagonisten die kontraktionsvermittelnden P2-Rezeptorsubtypen im RI nicht identifiziert werden. Des weiteren zeigt ein Vergleich mit dem GPI, dass bedeutende Unterschiede bei der Verwendung gleichen Gewebes zweier verschiedener Spezies existieren können, die bei der vergleichenden Betrachtung von Affinitätswerten von Agonisten und Antagonisten zur Charakterisierung von Rezeptorsubtypen beachtet werden müssen.
To understand neurodegenerative diseases is one of the major challenges of the 21st century. This also includes Alzheimer´s disease (AD), which represents a chronic neurodegenerative disorder, with long preclinical and prodromal phases (approx. 20 years) and an average clinical duration of 8–10 years. In the early phase of this disease, patients show deterioration of memory, difficulties in finding the right words for everyday objects or mood swings. The risk of AD grows exponentially with age, doubling approximately every 5 to 6 years. AD may contribute to 60–70% of all dementia cases, being the most common cause of this disease. Dementia is one of the major causes of disability and dependency among older people worldwide. The causes of the sporadic form of AD with late onset (LOAD) are not yet known, but it seems to be a result of multiple factors. Neuropathological features are extracellular senile plaques, containing beta-amyloid peptides (Aβ) and intracellular neurofibrillary tangles, containing paired helical tau proteins, which have been associated with neuronal loss and atrophy of the cerebral cortex. Thus, misfolded proteins seem to contribute to the pathogenesis, but are not the only players in the disease process. Developing feasible therapies is difficult due to the multifactorial pathology of AD. Currently approved drugs only attenuate symptoms, but do not cure the disease. Research into AD also has had several failures in terms of developing disease-modifying therapies. Thus, new therapeutic targets in order to develop a causal therapy are desperately needed. Since AD starts many years far before the first symptoms occur, new scientific approaches focus on the early stage, which are discussed to be important in aging and the onset of AD. Today, the hypothesis of the advanced mitochondrial cascade becomes more and more the leading model for LOAD, integrating physiological aging as the main risk factor. Thus, new interventions targeting mitochondrial dysfunction are of substantial interest. Accordingly, the efficacy of Dimebon and TRO19622 to ameliorate mitochondrial dysfunction in cellular and murine models of AD were investigated. Dimebon (Latrepirdine) was, originally developed in Russia as an H1-antiallergic drug. It might specifically interfere with mechanisms relevant for the cognitive decline, especially by improving impaired mitochondrial function and/or dynamics in AD. TRO19622 (Olesoxim) has been identified in a phenotypic screening approach to promote the survival of primary motor neurons. Olesoxim is easily absorbed by cells and accumulates in mitochondria. Olesoxim’s mode of action is not fully understood, however it has been shown to modulate mitochondrial membranes and interact with the voltage-dependent anion channel (VDAC) and the translocator protein (TSPO; also known as PBR). Thereby it inhibits mitochondrial permeability transition. In this study, the effects of Aβ overproduction on mitochondrial function were investigated. The effects of Dimebon and Olesoxim were examined, using a HEK cell line stably transfected with the Swedish APP double mutation (HEKsw) and un-transfected control cells (HEKut). Mitochondrial membrane potential, ATP concentrations, and respirometry were measured. Western Blot analysis of marker proteins for fission & fusion, autophagy, mitogenesis and mPTP formation were performed. Confocal laser scanning microscopy was introduced as a novel method to visualize mitochondrial dynamics. Olesoxim was also tested in Thy-1-C57BJ/6-APPSL mice representing a murine model of AD. For the in vivo model mitochondria from brain tissue were isolated and dissociated brain cells were prepared to determine respiration, lipid peroxidation, MMP, and ATP-levels. Both, the in vitro and in vivo models were compared and discussed in relation to human post-mortem data. The research was conducted in frame of the EU-project entitled „MITOTARGET“ (Mitochondrial dysfunction in neurodegenerative diseases: towards new therapeutics) funded under FP7-Health (http://cordis.europa.eu/result/rcn/54471_en.html). HEKsw cells showed an overall reduction in the mitochondrial respiration, a significant lower MMP, and significantly reduced ATP levels compared to HEKut cells. Mitochondrial mass was equal in both cell lines. In addition most mitochondria in HEKsw cells showed truncated morphology, followed by punctuated mitochondria. Levels of the fission related protein Drp were significantly elevated in HEKsw cells whereas protein levels of fusion related OPA were strongly reduced, leading to a shift in the distribution pattern towards shorter mitochondria. Moreover, HEKsw cells showed reduced mitochondrial density. Protein levels of the translocase of the inner mitochondrial membrane (TIMM50) were strongly diminished in HEKsw cells. The OXPHOS machinery is located in the inner membrane, where the MMP is build up and ATP is generated. Reduced TIMM50 levels in HEKsw indicated a reduction of the inner mitochondrial membrane, which could explain the described deficits in OXPHOS, MMP, ATP and mitochondrial morphology and density. Concentration of both mPTP markers, the voltage-depended anion channel (VDAC) and the peripheral benzodiazepine receptor (PBR), were broadly increased in HEKsw cells. Thy1-APPSL transgenic mice were characterized as in vivo model of AD. Those mice are modified to express the human form of APP, containing both, the Swedish (KM670/671NL) and the London (V717L) double mutations under the murine Thy1 promotor. Beginning at the age of 3 months, Thy1-APPSL mice develop elevated Aβ levels and mitochondrial dysfunction. Mitochondria isolated from brains of Thy-1-C57BJ/6-APPSL mice showed significant impaired respiration, resulting in a reduced MMP. However, ATP levels in dissociated brain cells did not differ compared to controls. Protein levels of FIS were unchanged, whereas Drp levels were significantly increased. Levels of the mitochondrial fusion marker optic atrophie-1 (Opa) protein were significantly reduced. Peroxisome proliferation-activated receptor gamma coactivator 1-alpha (PGC1) is a transcription factor, which represents a master regulator of mitochondrial biogenesis. PGC1 expression was significantly elevated in brains of Thy-1-C57BJ/6-APPSL mice. However, mitochondrial mass seemed to be equal in both mouse lines. Both LC3-Isoforms, the cytosolic and the autophagosomal form, were not changed in brains of Thy-1-C57BJ/6-APPSL mice, which indicates equal mitophagic activity. In brain homogenates, isolated from Thy-1-C57BJ/6-APPSL mice, both mPTP marker, VDAC and PBR, were considerably increased, which is in accordance with the findings in HEKsw cells. In conclusion, both, the cellular (HEKsw) and the animal model of AD (Thy1-APPSL) broadly match pathophysiological features, which have been found in post-mortem samples from AD patients. Thus, HEKsw cells and Thy1-APPSL mice seem to be suitable models to study new treatments against AD. Incubation of HEKsw cells with Dimebon resulted in a remarkable increase in respiratory activity and restored the MMP after impairing the cells with rotenon. Dimebon had no effects on ATP levels in both cell lines, neither after challenging cells with rotenon, nor under basal conditions. By adding Dimebon, citrate synthase (CS) activity in HEKsw cells was increased and mitochondrial morphology was shifted to a tubular shape. Dimebon further enhanced protein levels of Drp and resulted in the compensation of reduced OPA levels. Moreover, Dimebon restored the increased expression levels of the mPTP markers VDAC and PBR. Aβ1-40 levels were significantly decreased in HEKsw cells. However, changes in Aβ1-40 levels seemed to be too small, to solely explain the much larger effects of Dimebon on impaired mitochondrial function. In conclusion, Dimebon treatment restored diverse defects in Aβ overexpressing cells: Aβ levels were reduced, autophagy marker were increased, mitophagy as repair and renewal mechanism was elevated, mitochondrial mass and density were increased, OXPHOS capacity was restored, mitochondrial dynamics were balanced, mitochondrial shape showed a normal distribution, expression levels of the mPTP constituents were reduced, TIMM50 levels augmented to control levels and stress induced MMP and ROS levels were reduced. All these effects were observed after incubation of cells with a rather low concentration of 100 nmol/L. Based on these findings and in addition to already existing literature, Dimebon presents a potential therapeutic option for diseases with accompanied mitochondrial dysfunction. Although, clinical findings published so far are inconsistent. Olesoxim induced a general increase in respiratory activity and enhanced the electron transport (ETS) capacity in HEKsw cells. In addition it normalized the OXPHOS activity almost to control levels. However, incubation using different Olesoxim concentrations led to a dose independent decline in the MMP and decreased ATP levels. Adding Olesoxim caused a dose-dependent change in the length of mitochondria strongly shifting the pattern towards longer mitochondria. In HEKsw cells a reduced mitochondrial density was observed which was reversed by Olesoxim dose-dependently. Olesoxim completely compensated the severely reduced expression levels of TIMM50, but had no effects on TOMM22 levels. An unexpected finding was that 10 µM Olesoxim significantly increased Aβ1-40 levels. Effects of Olesoxim were also tested in vivo. Treatment of Thy-1-C57BJ/6-APPSL mice with Olesoxim restored the impaired MMP in dissociated brain cells, but had no effects on ATP-levels. Olesoxim increased the respiratory activity in isolated brain mitochondria and restored impaired respiration complex activities almost to control levels, without having an effect on CS activity. However, treatment with Olesoxim caused an increase of PGC1 protein levels in brains of Thy-1-C57BJ/6-APPSL mice,beyond basal levels of littermate controls. The mPTP marker proteins voltage-depended anion channel (VDAC) and peripheral benzodiazepine receptor (PBR) were significantly reduced. As well as in the cell models, treatment of Thy-1-C57 BJ/6-APPSL mice with Olesoxim significantly enhanced total human, soluble human and soluble mouse Aβ1-40 levels. Further investigation needs the observation that Olesoxim caused partly negative effects in controls. For instance, Olesoxim reduced the OXPHOS capacity and enhanced protein levels of VADAC and PBR in brains of C57BJ/6 littermate control mice, which could limit the applicability of Olesoxim in further preclinical studies.
Pharmacology: the pharmacodynamics of nutrients and nutrient interactions in biological functions
(2015)
Epidemiological studies and randomized controlled trials (RCTs) have shown that nutrition and nutritional habits may play a critical role in the optimal functioning of biological systems from conception to old age. Epidemiological studies, due to their methodology, can only provide correlations between consumption of nutrient(s) and biological outcomes, whereas RCTs normally study just one dose of a certain nutrient. Both study types are therefore ill-suited to study the mechanisms by which nutrients exert their benefits. Moreover, the nutrients’ functions may depend on each other. For example, B-vitamins’ functions are known to be interdependent. While the exact mechanisms are unclear, the course and severity of conditions such as obesity, cellular aging, cancer, and neurological disorders can be affected by nutritional approaches. Thus, food and nutrition play an intimate and inextricable role in human health. Despite growing interest in adequate nutrition, the effects of nutrient interaction, the possible varying effects on different organs, and the dependency of such effects on age or health status are complicated topics that deserve careful examination. ...