879 resultados para fossorial rodents
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Prenatal immune challenge (PIC) in pregnant rodents produces offspring with abnormalities in behavior, histology, and gene expression that are reminiscent of schizophrenia and autism. Based on this, the goal of this article was to review the main contributions of PIC models, especially the one using the viral-mimetic particle polyriboinosinic-polyribocytidylic acid (poly-I:C), to the understanding of the etiology, biological basis and treatment of schizophrenia. This systematic review consisted of a search of available web databases (PubMed, SciELO, LILACS, PsycINFO, and ISI Web of Knowledge) for original studies published in the last 10 years (May 2001 to October 2011) concerning animal models of PIC, focusing on those using poly-I:C. The results showed that the PIC model with poly-I:C is able to mimic the prodrome and both the positive and negative/cognitive dimensions of schizophrenia, depending on the specific gestation time window of the immune challenge. The model resembles the neurobiology and etiology of schizophrenia and has good predictive value. In conclusion, this model is a robust tool for the identification of novel molecular targets during prenatal life, adolescence and adulthood that might contribute to the development of preventive and/or treatment strategies (targeting specific symptoms, i.e., positive or negative/cognitive) for this devastating mental disorder, also presenting biosafety as compared to viral infection models. One limitation of this model is the incapacity to model the full spectrum of immune responses normally induced by viral exposure.
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INTRODUÇÃO: O fígado é uma estrutura de elevada complexidade e é fundamental entender como determinadas substâncias podem afetar sua estrutura e suas funções. OBJETIVO: Analisar a influência da tibolona no metabolismo hepático por meio da avaliação de enzimas e metabólitos comumente utilizados em provas de função hepática. MÉTODOS: Foram utilizadas dez ratas Wistar, divididas em dois grupos: controle (n = 4) e tibolona (n = 6), em status de menopausa cirúrgica. A tibolona (1 mg) foi administrada diariamente por gavagem durante 20 semanas, com avaliação periódica do peso corporal. Após sedação, efetuou-se coleta de sangue para avaliação bioquímica de albumina (Alb) sérica, fosfatase alcalina (FA), transaminases (aspartato aminotransferase e alanina aminotransferase [AST/ALT]), gama-glutamiltranspeptidase (GGT) e glicose, mediante espectrofotometria. O músculo esquelético da coxa foi avaliado por histomorfometria em cortes histológicos corados com hematoxilina e eosina (HE). RESULTADOS: Os animais do grupo tibolona mostraram menor peso corporal, alterações musculares esqueléticas e discretas alterações bioquímicas. Além disso, AST e FA estavam diminuídas e GGT estava mais elevada, porém sem significância estatística. A histomorfometria do músculo revelou uma tendência de menor volume celular nesse grupo. CONCLUSÃO: A tibolona, administrada em alta dose e por tempo prolongado, não interfere de forma significativa nas funções metabólicas e de síntese hepáticas, bem como na permeabilidade da membrana celular, entretanto parece modular a expressão genômica da GGT. A tibolona apresenta influência sistêmica associada a menor peso e diminuição da massa muscular e aumento significativo no peso relativo do fígado, além de alteração da glicogenólise hepática e muscular, da gliconeogênese hepática e dos níveis de glicose circulante.
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Fluoxetine (FLX) is commonly used to treat anxiety and depressive disorders in pregnant women. Since FLX crosses the placenta and is excreted in milk, maternal treatment with this antidepressant may expose the fetus and neonate to increased levels of serotonin (5-HT). Long-term behavioral abnormalities have been reported in rodents exposed to higher levels of 5-HT during neurodevelopment. In this study we evaluated if maternal exposure to FLX during pregnancy and lactation would result in behavioral and/or stress response disruption in adolescent and adult rats. Our results indicate that exposure to FLX influenced restraint stress-induced Fos expression in the amygdala in a gender and age-specific manner. In male animals, a decreased expression was observed in the basolateral amygdala at adolescence and adulthood; whereas at adulthood, a decrease was also observed in the medial amygdala. A lack of FLX exposure effect was observed in females and also in the paraventricular nucleus of both genders. Regarding the behavioral evaluation, FLX exposure did not induce anhedonia in the sucrose preference test but decreased the latency to feed of both male and female adolescent rats evaluated in the novelty-suppressed feeding test. In conclusion, FLX exposure during pregnancy and lactation decreases acute amygdalar stress response to a psychological stressor in males (adolescents and adults) as well as influences the behavior of adolescents (males and females) in a model that evaluates anxiety and/or depressive-like behavior. Even though FLX seems to be a developmental neurotoxicant, the translation of these findings to human safe assessment remains to be determined since it is recognized that not treating a pregnant or lactating woman may also impact negatively the development of the descendants.
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High systolic blood pressure caused by endothelial dysfunction is a comorbidity of metabolic syndrome that is mediated by local inflammatory signals. Insulin-induced vasorelaxation due to endothelial nitric oxide synthase (eNOS) activation is highly dependent on the activation of the upstream insulin-stimulated serine/threonine kinase (AKT) and is severely impaired in obese, hypertensive rodents and humans. Neutralisation of circulating tumor necrosis factor-α (TNFα) with infliximab improves glucose homeostasis, but the consequences of this pharmacological strategy on systolic blood pressure and eNOS activation are unknown. To address this issue, we assessed the temporal changes in the systolic pressure of spontaneously hypertensive rats (SHR) treated with infliximab. We also assessed the activation of critical proteins that mediate insulin activity and TNFα-mediated insulin resistance in the aorta and cardiac left ventricle. Our data demonstrate that infliximab prevents the upregulation of both systolic pressure and left ventricle hypertrophy in SHR. These effects paralleled an increase in AKT/eNOS phosphorylation and a reduction in the phosphorylation of inhibitor of nuclear factor-κB (Iκβ) and c-Jun N-terminal kinase (JNK) in the aorta. Overall, our study revealed the cardiovascular benefits of infliximab in SHR. In addition, the present findings further suggested that the reduction of systolic pressure and left ventricle hypertrophy by infliximab are secondary effects to the reduction of endothelial inflammation and the recovery of AKT/eNOS pathway activation.
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The suprachiasmatic nucleus (SCN), which is the main circadian biological clock in mammals, is composed of multiple cells that function individually as independent oscillators to express the self-sustained mRNA and protein rhythms of the so-called clock genes. Knowledge regarding the presence and localization of the proteins and neuroactive substances of the SCN are essential for understanding this nucleus and for its successful manipulation. Although there have been advances in the investigation of the intrinsic organization of the SCN in rodents, little information is available in diurnal species, especially in primates. This study, which explores the pattern of expression and localization of PER2 protein in the SCN of capuchin monkey, evaluates aspects of the circadian system that are common to both primates and rodents. Here, we showed that PER2 protein immunoreactivity is higher during the light phase. Additionally, the complex organization of cells that express vasopressin, vasoactive intestinal polypeptide, neuron-specific nuclear protein, calbindin and calretinin in the SCN, as demonstrated by their immunoreactivity, reveals an intricate network that may be related to the similarities and differences reported between rodents and primates in the literature.
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The spotted paca is the second largest rodent in Brazil, where it is of great economic interestin impoverished regions in view of its prominence as a low-cost source of protein. Littleis known about the morphology of the accessory genital glands of this species. Thus, westudied the position and morphology of the genitals in ten adult male spotted pacas. Theanimals were divided into two groups, five animals were used for fixing of samples in 10%aqueous formaldehyde for macroscopic studies and the other five animals were designatedfor microscopic analysis. These were arranged in pairs and had the vesicular, prostate,coagulating and bulbourethral glands identified, being structured as mucous glands, whichlead into the pelvic urethra. It was concluded that the accessory genital glands found in thepaca are the same as those found in most rodents, showing similar histological aspects
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Oxidative stress is considered to be of major relevance for a variety of pathological processes. Thus, it is valuable to identify compounds, which might act as antioxidants, i.e. compounds that antagonize the deleterious action of reactive oxygen species (ROS) on biomolecules. The mode of action of these compounds could be either to scavenge ROS directly or to trigger protective mechanisms inside the cell, thereby resulting in improved defense against ROS. Sulforaphane (SF) (1-isothiocyanato-(4R)-(methylsulfinyl)butane) is a naturally occurring cancer chemopreventive agent found as a precursor glucosinolate in Cruciferous vegetables like broccoli. Although SF is not a direct-acting antioxidant, there is substantial evidence that SF acts indirectly to increase the antioxidant capacity of animal cells and their abilities to cope with oxidative stress. Induction of phase 2 enzymes is one means by which SF enhances the cellular antioxidant capacity. Enzymes induced by SF include Glutathione S-transferases (GST) and NAD[P]H:quinone oxidoreductase (NQO1) which can function as protectors against oxidative stress. To protect themselves from oxidative stress, cells are equipped with reducing buffer systems including the GSH and thioredoxin (Trx) reductase. GSH is an important tripeptide thiol which in addition to being the substrate for GSTs maintains the cellular oxidation– reduction balance and protects cells against free radical species. Aim of the first part of this thesis was to investigate the ability of SF to induce the expression and the activity of different phase 2 and antioxidant enzymes (such as GST, GR, GPx, NQO1, TR, SOD, CAT) in an in vitro model of rat cardiomyocytes, and also to define if SF treatment supprts cells in counteracting oxidative stress induced by H2O2 It is well known that acute exhaustive exercise causes significant reactive oxygen species generation that results in oxidative stress, which can induce negative effects on health and well being. In fact, increased oxidative stress and biomarkers (e.g., protein carbonyls, MDA, and 8- hydroxyguanosine) as well as muscle damage biomarkers (e.g. plasmatic Creatine cinase and Lactate dehydrogenase) have been observed after supramaximal sprint exercises, exhaustive longdistance cycling or running as well as resistance-type exercises, both in trained and untrained humans. Markers of oxidative stress also increase in rodents following exhaustive exercise. Moreover, antioxidant enzyme activities and expressions of antioxidant enzymes are known to increase in response to exhaustive exercise in both animal and human tissues. Aim of this project was to evaluate the effect of SF supplementation in counteracting oxidative stress induced by physical activity through its ability to induce phase 2, and antioxidant enzymes in rat muscle. The results show that SF is a nutraceutical compound able to induce the activity of different phase 2 and antioxidant enzymes in both cardiac muscle and skeletal muscle. Thanks to its actions SF is becoming a promising molecule able to prevent cardiovascular damages induced by oxidative stress and muscle damages induced by acute exhaustive exercise.
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„ÜBEREXPRESSION UND CHARAKTERISIERUNG DES EXTRAZELLULÄREN TEILS DER HUMANEN alpha-SEKRETASE ADAM10“ ALEXANDRA LEPTICH Im Rahmen dieser Arbeit wurden zwei enzymatisch aktive lösliche Proteinvarianten der humanen alpha-Sekretase ADAM10 in Insektenzellen exprimiert, gereinigt und charakterisiert. Dabei entsprach eine der löslichen ADAM10-Varianten dem extrazellulären Bereich des Typ-I-Membranproteins, d.h. ihr fehlte die Transmembran- und cytoplasmatische Domäne. Die zweite Variante stimmt mit einer im menschlichen Gehirn auf mRNA-Ebene nachgewiesenen Splicevariante überein, die zusätzlich noch durch das Fehlen der Cystein-reichen Domäne gekennzeichnet ist. Die alpha-Sekretase ADAM10 spielt eine wichtige Rolle bei der nicht-amyloidogenen Prozessierung des Amyloid-Vorläufer-Proteins (APP). Dabei erfolgt dessen Spaltung innerhalb der beta-Amyloidsequenz, so dass die Produktion von Abeta-Peptiden und damit die Bildung von Amyloid-Plaques während der Alzheimer’schen Erkrankung verhindert wird. Nach der Expression der beiden löslichen ADAM10-Proteine in Insektenzellen erfolgte die Reinigung der prozessierten und damit reifen Enzymform der jeweiligen ADAM10-Proteinvariante mittels Lektin-Affinitätschromatographie. Die anschließende Charakterisierung der beiden löslichen ADAM10-Proteine erfolgte durch einen auf HPLC-Analyse basierenden Enzymtest. Dabei wurden verschiedene sich von der beta-Amyloid-Sequenz ableitenden Peptidsubstrate in vitro eingesetzt, die zum einen den Aminosäuren 11-28 der Abeta-Sequenz, zum anderen dem kompletten Abeta40-Peptid entsprachen und damit die charakteristische alpha-Sekretasespaltstelle des Amyloid-Vorläufer-Proteins enthielten. Des Weiteren kamen jeweils entsprechende Peptidsubstrate zum Einsatz, die an den Positionen 21 und 22 der Abeta- Peptidsequenz vorkommenden Mutationen trugen. Die gewählten Abeta-Substrate konnten durch die löslichen Varianten der alpha-Sekretase ADAM10 an der alpha-Sekretasestelle gespalten werden. Dabei konnte bei den Abeta11-28-Peptiden deutlich die in der Literatur beschriebene Abhängigkeit der Spaltung von der a-helicalen Struktur des Substrats beobachtet werden, während bei den längeren Abeta40-Peptide diesbezüglich kein Zusammenhang hergestellt werden konnte. Diese Ergebnisse deuten darauf hin, dass ADAM10 hauptsächlich als alpha-Sekretase wirkt, weniger als ein Abeta-degradierendes Enzym. Ferner konnte unter Verwendung entsprechender muriner und humaner Abeta-Peptide eine verstärkte Spaltung der murinen Substrate Abeta1-28 und Abeta1-40 durch den extrazellulären Teil von ADAM10 in vitro gezeigt werden. Dieser Versuch bestätigt die Annahme, dass es bei Nagetieren durch die Bevorzugung der nichtamyloidogenen Prozessierung von APP durch die alpha-Sekretase ADAM10 zu keiner Bildung von Amyloid-Plaques kommt. Ein Einfluss auf die Spaltung von membrangebundenem APP und damit der Bildung von neuroprotektivem sAPPalpha durch die löslichen ADAM10-Proteine konnte im Zellsystem nicht beobachtet werden. Vielmehr scheint hier die Membranverankerung von Enzym und Substrat eine wichtige Voraussetzung zu bilden. Des Weiteren konnten die löslichen ADAM10-Proteine durch ein für die Inhibierung von ADAM10 spezifische Hydroxamat-Derivat in ihrer enzymatischen Aktivität gehemmt werden. Die exprimierten ADAM10-Proteine weisen die charakteristischen Eigenschaften der alpha-Sekretase ADAM10 auf, wobei deutlich wurde, dass das Fehlen der Cystein-reichen Domäne keinen Einfluss auf die Fähigkeit der katalytischen Domäne zur Substrat- und Inhibitorbindung hatte. Auch die Stabilität des Enzyms wurde durch das Fehlen der Domäne nicht negativ beeinträchtigt. Eine wichtige Aufgabe stellt nun der Nachweis der löslichen ADAM10-Proteine sowie die Identifizierung ihrer potentiellen Substrate und deren Lokalisation in vivo dar.
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Drug addiction manifests clinically as compulsive drug seeking, and cravings that can persist and recur even after extended periods of abstinence. The fundamental principle that unites addictive drugs is that each one enhances synaptic DA by means that dissociate it from normal behavioral control, so that they act to reinforce their own acquisition. Our attention has focused on the study of phenomena associated with the consumption of alcohol and heroin. Alcohol has long been considered an unspecific pharmacological agent, recent molecular pharmacology studies have shown that acts on different primary targets. Through gene expression studies conducted recently it has been shown that the classical opioid receptors are differently involved in the consumption of ethanol and, furthermore, the system nociceptin / NOP, included in the family of endogenous opioid system, and both appear able to play a key role in the initiation of alcohol use in rodents. What emerges is that manipulation of the opioid system, nociceptin, may be useful in the treatment of addictions and there are several evidences that support the use of this strategy. The linkage between gene expression alterations and epigenetic modulation in PDYN and PNOC promoters following alcohol treatment confirm the possible chromatin remodeling mechanism already proposed for alcoholism. In the second part of present study, we also investigated alterations in signaling molecules directly associated with MAPK pathway in a unique collection of postmortem brains from heroin abusers. The interest was focused on understanding the effects that prolonged exposure of heroin can cause in an individual, over the entire MAPK cascade and consequently on the transcription factor ELK1, which is regulated by this pathway. We have shown that the activation of ERK1/2 resulting in Elk-1 phosphorylation in striatal neurons supporting the hypothesis that prolonged exposure to substance abuse causes a dysregulation of MAPK pathway.
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Therapeutisches Drug Monitoring (TDM) ist eine Maßnahme, bei der durch Messung der Medikamentenspiegel im Blut die Dosis ermittelt wird, bei der mit höchster Wahrscheinlichkeit mit Therapieansprechen gerechnet werden kann. Dabei wird angenommen, dass die Konzentrationen im Blut mit denen im Wirkkompartiment korrelieren. Für Antipsychotika wurde gezeigt, dass die Konzentrationen im Blut direkt mit denen im Gehirn korrelieren, die Verteilung zwischen den beiden Kompartimenten ist jedoch für die verschiedenen Antipsychotika sehr unterschiedlich. Die Distribution von Arzneistoffen zwischen Blut und Gehirn wird durch Effluxtransporter in der Blut-Hirn-Schranke kontrolliert. Welche Rolle dabei P-Glykoprotein (P-gp) für die Verteilung von atypischen Antipsychotika spielt und wie die Pharmakokinetik und –dynamik durch diesen Transporter beeinflusst werden, sollte in dieser Arbeit untersucht werden. Für die Messung des neu eingeführten Antipsychotikums Aripiprazol, sowie für seinen aktiven Metaboliten Dehydroaripiprazol, wurde eine hochleistungsflüssigchromatographische (HPLC) Methode mit Säulenschaltung und spektrophotometrischer Detektion etabliert. Die Methode wurde für die Messung von Serumproben schizophrener Patienten eingesetzt, um einen therapeutischen Bereich für Aripiprazol zu ermitteln. Aus der Analyse von 523 Patientenproben wurde herausgefunden, dass Aripiprazol-Serumkonzentrationen von 150 bis 300 ng/ml mit gutem klinischen Ansprechen und einem geringen Risiko für Nebenwirkungen einhergingen. Weiterhin wurde festgestellt, dass die Serumspiegel bei gleichzeitiger Gabe von Inhibitoren und Induktoren der Cytochrom P450 (CYP) Isoenzyme CYP2D6 und CYP3A4 erhöht bzw. gesenkt wurden. Am Modell der P-gp Knockout Maus im Vergleich zu FVB Wildtyp Mäusen wurden Konzentrationsverläufe von Antipsychotika nach i.p. Gabe von Amisulprid, Aripiprazol, Dehydroaripiprazol, Clozapin, Desmethylclozapin, Haloperidol, Olanzapin, Quetiapin, Risperidon und 9-Hydroxyrisperidon sowie der Kontrollsubstanz Domperidon im Gehirn und Blut über 24 Stunden mittels HPLC-Methoden gemessen. Welchen Einfluss eine verminderte Expression von P-gp auf die Pharmakodynamik hat, wurde in zwei Verhaltenstests untersucht. Mit Hilfe des Rotarods wurden motorische Effekte der Arzneistoffe erfasst und mittels Radial Arm Water Maze kognitive Fähigkeiten. Risperidon und sein aktiver Metabolit 9-Hydroxyrisperidon waren die stärksten Substrate von P-gp. 10-fach höhere Konzentrationen im Gehirn der P-gp Knockout Mäuse führten zu 10-fach stärkeren Beeinträchtigungen in den pharmakodynamischen Untersuchungen im Vergleich zu Wildtyp Tieren. Amisulprid, Aripiprazol, Dehydroaripiprazol, Desmethylclozapin und Quetiapin konnten ebenfalls als Substrate von P-gp identifiziert werden. Olanzapin, Haloperidol und Clozapin wurden durch P-gp wenig bzw. nicht in ihrer Pharmakokinetik und –dynamik beeinflusst. Da P-gp von Nagern und Menschen nach derzeitiger Kenntnis in ihren Substrateigenschaften weitgehend übereinstimmen, muss bei einer Behandlung von schizophrenen Patienten mit Antipsychotika, die als Substrate von P-gp identifiziert wurden, davon ausgegangen werden, dass eine Veränderung der Expression oder Aktivität von P-gp, genetisch verursacht oder durch Medikamente bedingt, für das Therapieansprechen oder das Auftreten von Nebenwirkungen bedeutsam sind.
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Natürliche Killerzell-Rezeptoren, die MHC-Klasse-I-Moleküle binden, sind im Leukozyten Rezeptor Komplex (LRC) und im Natürlichen Killer Komplex (NKC) kodiert. Die Bindung klassischer MHC-Klasse-I-Moleküle erfolgt im Menschen durch die im LRC kodierten polymorphen Killerzell-Immunglobulin-ähnlichen Rezeptoren (KIR) und in Nagetieren durch die im NKC kodierten polymorphen C-Typ Lektin-ähnlichen Ly49-Rezeptoren. Die ebenfalls im NKC kodierten C-Typ Lektin-ähnlichen CD94/NKG2-Rezeptoren sowie der NKG2D-Rezeptor sind sowohl im Menschen als auch in Nagetieren konserviert und wenig polymorph. Im Rahmen dieser Arbeit wurde das CD94-Ly49L-Intervall der NKC-Region in einem Neuweltaffen, dem Weißbüschelaffen (Callithrix jacchus), sowie einem Feuchtnasenaffen, dem Grauen Mausmaki (Microcebus murinus), über Screening von BAC-Banken und Sequenzanalyse von BAC-Contigs untersucht. Das CD94-Ly49L-Intervall im Weißbüschelaffen hat eine Länge von 171 kb und weist orthologe Gene zu den humanen NKC-Genen auf. Eine Ausnahme bildet das Gen NKG2CE, welches äquidistant zu den humanen Genen NKG2C und NKG2E ist. NKG2F und Ly49L sind Pseudogene. Expressionsanalysen der NKC-Gene in neun Weißbüschelaffen-Individuen lieferten einen mäßigen Grad an allelischen Polymorphismen. Alternative Spleißprodukte wurden für CD94, NKG2D und NKG2A identifiziert. Für NKG2A wurden verschiedene Transkripte mit potentiell unterschiedlichen Translationsstartpunkten gefunden. Im Grauen Mausmaki beträgt die Länge des CD94-Ly49L-Intervalls 489 kb. CD94 und die NKG2-Gene sind vervielfacht und wesentlich polymorpher als im Menschen und im Weißbüschelaffen. Expressionsanalysen der NKC-Gene wurden im Grauen Mausmaki und einem weiteren madagassischen Lemuren, dem Schwarzweißen Vari (Varecia variegata), durchgeführt und zeigten, dass CD94 und die NKG2-Gene im Vari ebenfalls vervielfacht sind. Die NKG2-Moleküle der Lemuren weisen unterschiedliche Kombinationen an aktivierenden und inhibierenden Signalmotiven auf und üben somit möglicherweise diverse Funktionen aus. Ly49L stellt in den Lemuren einen potentiell funktionellen inhibierenden Rezeptor dar und NKG2D besitzt im Vergleich zum humanen NKG2D-Protein eine verkürzte Zytoplasmaregion. Alternative Spleißprodukte der NKC-Gene existieren auch in den Lemuren. Darüber hinaus wurden mehrere CD94-Gene in einem weiteren Feuchtnasenaffen, dem Potto (Perodicticus potto) und einem Trockennasenaffen, dem Philippinen-Koboldmaki (Tarsius syrichta), nachgewiesen. Ein Alu-Element, welches ausschließlich in Intron 4 der CD94-Sequenzen des Philippinen-Koboldmakis auftritt, deutet darauf hin, dass sich CD94 in der Linie der Koboldmakis und in der Linie der Feuchtnasenaffen unabhängig voneinander vervielfacht hat. Die vervielfachten, polymorphen CD94/NKG2-Rezeptoren der niederen Primaten stellen möglicherweise das funktionelle Äquivalent zu den polymorphen KIR der höheren Primaten und den polymorphen Ly49-Rezeptoren der Nagetiere dar.
On the development of novel cocaine-analogues for in vivo imaging of the dopamine transporter status
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The present thesis is concerned with the development of novel cocaine-derived dopamine transporter ligands for the non-invasive exploration of the striatal and extra-striatal dopamine transporter (DAT) in living systems. The presynaptic dopamine transporter acquires an important function within the mediation of dopaminergic signal transduction. Its availability can serve as a measure for the overall integrity of the dopaminergic system. The DAT is upregulated in early Parkinson’s disease (PD), resulting in an increased availability of DAT-binding sites in the striatal DAT domains. Thereby, DAT imaging has become an important routine diagnostic tool for the early diagnosis of PD in patients, as well as for the differentiation of PD from symptomatically similar medical conditions. Furthermore, the dopaminergic system is involved in a variety of psychiatric diseases. In this regard, DAT-selective imaging agents may provide detailed insights into the scientific understanding of the biochemical background of both, the progress as well as the origins of the symptoms. DAT-imaging may also contribute to the determination of the dopaminergic therapeutic response for a given medication and thereby contribute to more convenient conditions for the patient. From an imaging point of view, the former demands a high availability of the radioactive probe to facilitate broad application of the modality, whereas the latter profits from short-lived probes, suitable for multi-injection studies. Therefore, labelling with longer-lived 18F-fluoride and in particular the generator nuclide 68Ga is worthwhile for clinical routine imaging. In contrast, the introduction of a 11C-label is a prerequisite for detailed scientific studies of neuronal interactions. The development of suitable DAT-ligands for medical imaging has often been complicated by the mixed binding profile of many compounds that that interact with the DAT. Other drawbacks have included high non-specific binding, extensive metabolism and slow accumulation in the DAT-rich brain areas. However, some recent examples have partially overcome the mentioned complications. Based on the structural speciality of these leads, novel ligand structures were designed and successfully synthesised in the present work. A structure activity relationship (SAR) study was conducted wherein the new structural modifications were examined for their influence on DAT-affinity and selectivity. Two of the compounds showed improvements in in vitro affinity for the DAT as well as selectivity versus the serotonin transporter (SERT) and norepinephrine transporter (NET). The main effort was focussed on the high-affinity candidate PR04.MZ, which was subsequently labelled with 18F and 11C in high yield. An initial pharmacological characterisation of PR04.MZ in rodents revealed highly specific binding to the target brain structures. As a result of low non-specific binding, the DAT-rich striatal area was clearly visualised by autoradiography and µPET. Furthermore, the radioactivity uptake into the DAT-rich brain regions was rapid and indicated fast binding equilibrium. No radioactive metabolite was found in the rat brain. [18F]PR04.MZ and [11C]PR04.MZ were compared in the primate brain and the plasma metabolism was studied. It was found that the ligands specifically visualise the DAT in high and low density in the primate brain. The activity uptake was rapid and quantitative evaluation by Logan graphical analysis and simplified reference tissue model was possible after a scanning time of 30 min. These results further reflect the good characteristics of PR04.MZ as a selective ligand of the neuronal DAT. To pursue 68Ga-labelling of the DAT, initial synthetic studies were performed as part of the present thesis. Thereby, a concept for the convenient preparation of novel bifunctional chelators (BFCs) was developed. Furthermore, the suitability of novel 1,4,7-triazacyclononane based N3S3-type BFCs for biomolecule-chelator conjugates of sufficient lipophilicity for the penetration of the blood-brain-barrier was elucidated.
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During this thesis a new telemetric recording system has been developed allowing ECoG/EEG recordings in freely behaving rodents (Lapray et al., 2008; Lapray et al., in press). This unit has been shown to not generate any discomfort in the implanted animals and to allow recordings in a wide range of environments. In the second part of this work the developed technique has been used to investigate what cortical activity was related to the process of novelty detection in rats’ barrel cortex. We showed that the detection of a novel object is accompanied in the barrel cortex by a transient burst of activity in the γ frequency range (40-47 Hz) around 200 ms after the whiskers contact with the object (Lapray et al., accepted). This activity was associated to a decrease in the lower range of γ frequencies (30-37 Hz). This network activity may represent the optimal oscillatory pattern for the propagation and storage of new information in memory related structures. The frequency as well as the timing of appearance correspond well with other studies concerning novelty detection related burst of activity in other sensory systems (Barcelo et al., 2006; Haenschel et al., 2000; Ranganath & Rainer, 2003). Here, the burst of activity is well suited to induce plastic and long-lasting modifications in neuronal circuits (Harris et al., 2003). The debate is still open whether synchronised activity in the brain is a part of information processing or an epiphenomenon (Shadlen & Movshon, 1999; Singer, 1999). The present work provides further evidence that neuronal network activity in the γ frequency range plays an important role in the neocortical processing of sensory stimuli and in higher cognitive functions.
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LRP4, member of the LDLR family, is a multifunctional membrane-bound receptor that is expressed in various tissues. The expression of LRP4 by osteoblasts, its novel interaction with Wnt-signaling inhibitors Dkk1 and SOST, and the lower levels of activated beta-catenin in different bone locations described here, adds another player to the long list of established factors that modulate canonical Wnt-signaling in bone. By demonstrating that in addition to Wise, LRP4 is able to interact with two additional important modulators of Wnt- and BMP-signaling, our perspective of the complexity of the integration of BMP and Wnt-signaling pathways on the osteoblast surface has expanded further. Nevertheless the recently described association of both the SOST and LRP4 genes with BMD in humans, together with our findings suggest that LRP4 plays a physiologically important role in the skeletal development and bone metabolism not only in rodents, but in humans as well. The efficiency with which LRP4 binds both SOST and Dkk1, presumably at the osteoblastic surface, LRP4 may act as a sink and competes with LRP5/6 for the binding of these Wnt antagonists, which then are no longer available for suppression of the signal through the LRP5/6 axis. rnApoE, a 299 amino acid glycoprotein, is a crucial regulator in the uptake of triglyceride, phospholipids, cholesteryl esters, and cholesterol into cells. ApoE has been linked to osteoporosis, and such a role is further strengthened by the present of a high bone mass phenotype in ApoE null mice. Until recently, the effects of respective ApoE isoforms E2, E3, and E4, and their impact on bone metabolism, have been unclear. Here we report that respective human ApoE knockin mice display diverse effects on bone metabolism. ApoE2 mice show decreased trabecular bone volume per total volume in femoral bone and lumbar spine in comparison to ApoE3 and E4 animals. In this context, urinary bone resorption marker DPD is increased in these animals, which is accompanied by a low ratio of osteoclastogenesis markers OPG/RANKL. Interestingly, serum bone formation markers ALP and OCN are diminished in ApoE4 mice. In contrast to this finding, ApoE2 mice show the lowest bone formation of all groups in vivo. These findings cannot be explained by the low receptor-affinity of ApoE2 and subsequent decreased uptake of triglyceride-rich lipoproteins by osteoblasts, resulting in elevated levels of undercarboxylated osteocalcin. Thus, other crucial pathways relevant for bone metabolism, e. g. Wnt/beta-catenin-signaling pathways, must be, compared to the ApoE3/4 isoforms, more affected by the ApoE2 isoform.
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The evaluation of chronic activity of the hypothalamic-pituitary-adrenal (HPA) axis is critical for determining the impact of chronic stressful situations. The potential use of hair glucocorticoids as a non-invasive, retrospective, biomarker of long term HPA activity is of great interest, and it is gaining acceptance in humans and animals. However, there are still no studies in literature examining hair cortisol concentration in pigs and corticosterone concentration in laboratory rodents. Therefore, we developed and validated, for the first time, a method for measuring hair glucocorticoids concentration in commercial sows and in Sprague-Dawley rats. Our preliminary data demonstrated: 1) a validated and specific washing protocol and extraction assay method with a good sensitivity in both species; 2) the effect of the reproductive phase, housing conditions and seasonality on hair cortisol concentration in sows; 3) similar hair corticosterone concentration in male and female rats; 4) elevated hair corticosterone concentration in response to chronic stress manipulations and chronic ACTH administration, demonstrating that hair provides a good direct index of HPA activity over long periods than other indirect parameters, such adrenal or thymus weight. From these results we believe that this new non-invasive tool needs to be applied to better characterize the overall impact in livestock animals and in laboratory rodents of chronic stressful situations that negatively affect animals welfare. Nevertheless, further studies are needed to improve this methodology and maybe to develop animal models for chronic stress of high interest and translational value in human medicine.
