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121	Perfil de microRNAs no coração de camundongos treinados e que superexpressam ECA2: papel no remodelamento cardíaco / Microrna profile in the heart of mice trained and overexpressing ECA2: role in cardiac remodeling Silveira, André Casanova 20 December 2017 (has links) A hipertrofia cardíaca é caracterizada como um aumento da massa cardíaca e é considerada um mau prognóstico e está associada as diversas formas de insuficiência cardíaca. No entanto, outra forma de resposta hipertrófica pode ser gerada por meio do treinamento físico, o qual produz aumento proporcional da espessura da parede, levando ao fenótipo conhecido como \"coração de atleta\", onde há uma preservação ou melhora na função cardíaca. Ambos fenótipos de remodelamento cardíaco estão estritamente associados às vias canônicas e não canônicas do sistema renina angiotensina (SRA). Estudo prévio do nosso grupo demonstrou, que o treinamento físico aeróbio alterou a expressão de microRNAs envolvidos na regulação do SRA, em especial na regulação da expressão das enzimas chave deste sistema, a enzima conversora de angiotensina 1 (ECA) e enzima conversora de angiotensina 2 (ECA2). Porém, ainda pouco se sabe sobre o papel dos microRNAs na modulação do SRA local cardíaco em resposta ao treinamento físico. O presente estudo teve como objetivo traçar o perfil de expressão de microRNAs entre camundongos treinados e com superexpressão de ECA2 cardíaca. Nós utilizamos para isso, camundongos da linhagem C57BL/6 divididos em três grupos experimentais: 1) Sedentário 2) Grupo Treinado e com 3) superexpressão de ECA2 no coração. A superexpressão de ECA2 cardíaca resultou em aumento da massa cardíaca e na alteração de 14 microRNAs em relação ao grupo controle e o treinamento aeróbio embora não tenha apresentado alteração na massa cardíaca, alterou 4 microRNAs em relação ao controle. Destes microRNAs, 3 microRNAs (-133a-5p, -208a-3p e -215) foram confirmados por RT-qPCR. A busca por alvos preditos destes microRNAs gerou uma lista de 418 genes que resultou em 24 vias de sinalização via KEGG Pathway. Destas, atenção foi dada para as vias pró-hipertróficas de PI3K e MAPK que são conhecidas por participarem do remodelamento cardíaco fisiológico e patológico / Cardiac hypertrophy is characterized as an increase in heart mass and is considered a poor prognostic sign, being associated with the various forms of heart failure. However, another form of hypertrophic response can be generated through physical training, which produces a proportional increase in wall thickness, leading to the phenotype known as the \"athlete\'s heart,\" where there is preservation or improvement in cardiac function. Both phenotypes of cardiac remodeling are strictly associated with the canonical and noncanonical pathways of the renin angiotensin system (RAS). A previous study of our group demonstrated that aerobic physical training altered the expression of microRNAs involved in the regulation of RAS, especially in the regulation of the expression of the key enzymes of this system, angiotensin converting enzyme 1 (ACE) and angiotensin converting enzyme 2 (ACE2). However, little is known about the role of microRNAs in modulating cardiac local RAS in response to physical training. The present study aimed to identify the expression profile of microRNAs between trained mice and mice with overexpression of cardiac ACE2. We used C57BL/6 lineage mice divided into three experimental groups: 1) Sedentary 2) Trained Group and 3) overexpression of cardiac ACE2. The overexpression of cardiac ACE2 resulted in an increase in cardiac mass and in the alteration of 14 microRNAs in relation to the control group and the aerobic training, although it did not present alterations in the cardiac mass, altered 4 microRNAs in relation to the control. Of these microRNAs, 3 microRNAs (-133a-5p, -208a-3p and -215-5p) were confirmed by RT-qPCR. The search for predicted targets of these microRNAs generated a list of 418 genes that resulted in 24 signaling pathways via KEGG Pathway. Of these, attention was given to the pro-hypertrophic pathways of PI3K and MAPK that are known to participate in physiological and pathological cardiac remodeling Cardiac hypertrophy Hipertrofia cardíaca Physical training Renin-angiotensin system Sistema renina- angiotensina Treinamento físico
122	Identification of SPRED2 as a Novel Regulator of Hypothalamic-Pituitary-Adrenal Axis Activity and of Body Homeostasis / SPRED2 - Ein neuer Regulator der Hypothalamus-Hypophysen-Nebennierenrindenachse und der Hormonbalance Ullrich, Melanie January 2014 (has links) (PDF) SPRED proteins are inhibitors of the Ras/ERK/MAPK signaling pathway, an evolutionary highly conserved and very widespread signaling cascade regulating cell proliferation, differentiation, and growth. To elucidate physiological consequences of SPRED2 deficiency, SPRED2 KO mice were generated by a gene trap approach. An initial phenotypical characterization of KO mice aged up to five months identified SPRED2 as a regulator of chondrocyte differentiation and bone growth. Here, the loss of SPRED2 leads to an augmented FGFR-dependent ERK activity, which in turn causes hypochondroplasia-like dwarfism. However, long term observations of older KO mice revealed a generally bad state of health and manifold further symptoms, including excessive grooming associated with severe self-inflicted wounds, an abnormally high water uptake, clear morphological signs of kidney deterioration, and a reduced survival due to sudden death. Based on these observations, the aim of this study was to discover an elicitor of this complex and versatile phenotype. The observed kidney degeneration in our SPRED2 KO mice was ascribed to hydronephrosis characterized by severe kidney atrophy and apoptosis of renal tubular cells. Kidney damage prompted us to analyze drinking behavior and routine serum parameters. Despite polydipsia, which was characterized by a nearly doubled daily water uptake, the significantly elevated Na+ and Cl- levels and the resulting serum hyperosmolality could not be compensated in SPRED2 KOs. Since salt and water balance is primarily under hormonal control of aldosterone and AVP, we analyzed both hormone levels. While serum AVP was similar in WTs and KOs, even after experimental water deprivation and an extreme loss of body fluid, serum aldosterone was doubled in SPRED2 KO mice. Systematic investigation of contributing upstream hormone axes demonstrated that hyperaldosteronism developed independently of an overactivated Renin-Angiotensin system as indicated by halved serum Ang II levels in KO mice. However, aldosterone synthase expression in the adrenal gland was substantially augmented. Serum corticosterone, which is like aldosterone released from the adrenal cortex, was more than doubled in SPRED2 KOs, too. Similar to corticosterone, the production of aldosterone is at least in part under control of pituitary ACTH, which is further regulated by upstream hypothalamic CRH release. In fact, stress hormone secretion from this complete hypothalamic-pituitary-adrenal axis was upregulated because serum ACTH, the mid acting pituitary hormone, and hypothalamic CRH, the upstream hormonal inductor of HPA axis activity, were also elevated by 30% in SPRED2 KO mice. This was accompanied by an upregulated ERK activity in paraventricular nucleus-containing hypothalamic brain regions and by augmented hypothalamic CRH mRNA levels in our SPRED2 KO mice. In vitro studies using the hypothalamic cell line mHypoE-44 further demonstrated that both SPRED1 and SPRED2 were able to downregulate CRH promoter activity, CRH secretion, and Ets factor-dependent CRH transcription. This was in line with the presence of various Ets factor binding sites in the CRH promoter region, especially for Ets1. Thus, this study shows for the first time that SPRED2-dependent inhibition of Ras/ERK/MAPK signaling by suppression of ERK activity leads to a downregulation of Ets1 factor-dependent transcription, which further results in inhibition of CRH promoter activity, CRH transcription, and CRH release from the hypothalamus. The consecutive hyperactivity of the complete HPA axis in our SPRED2 KO mice reflects an elevated endogenous stress response becoming manifest by excessive grooming behavior and self-inflicted skin lesions on the one hand; on the other hand, in combination with elevated aldosterone synthase expression, this upregulated HPA hormone release explains hyperaldosteronism and the associated salt and water imbalances. Both hyperaldosteronism and polydipsia very likely contribute further to the observed kidney damage. Taken together, this study initially demonstrates that SPRED2 is essential for the appropriate regulation of HPA axis activity and of body homeostasis. To further enlighten and compare consequences of SPRED2 deficiency in mice and particularly in humans, two follow-up studies investigating SPRED2 function especially in heart and brain, and a genetic screen to identify human SPRED2 loss-of-function mutations are already in progress. / SPRED-Proteine sind Inhibitoren des hochkonservierten und in allen Geweben verbreiteten Ras/ERK/MAPK-Signalwegs, welcher Proliferation, Differenzierung und das Wachstum von Zellen reguliert. Um physiologische Konsequenzen der SPRED2-Defizienz im lebenden Modellorganismus aufzuklären, haben wir SPRED2-KO-Mäuse mithilfe der „gene trap“-Methode generiert. Eine erste Studie zur phänotypischen Charakterisierung mit KO-Mäusen bis zu einem Alter von fünf Monaten identifizierte SPRED2 als Regulator der Chondrozytendifferenzierung und des Knochenwachstums. So bewirkt der Verlust der SPRED2-Proteinfunktion eine erhöhte FGFR-vermittelte ERK-Aktivität, was wiederum einen Hypochondroplasie-ähnlichen Minderwuchs verursacht. Allerdings offenbarten Langzeitbeobachtungen älterer KO-Mäuse einen im Allgemeinen sehr schlechten Gesundheitszustand und weitere facettenreiche Symptome, darunter exzessives Putzverhalten mit schweren, selbst zugefügten Wunden, einen abnorm hohen täglichen Wasserkonsum, klare morphologische Anzeichen einer Nierenschädigung und eine reduzierte Überlebenswahrscheinlichkeit durch plötzlichen Tod. Ziel dieser Studie war es, basierend auf unseren Beobachtungen, einen Auslöser für diesen komplexen und vielseitigen Phänotyp zu finden. Die beobachtete Nierendegeneration in unseren SPRED2-KO-Mäusen war auf eine Hydronephrose zurückzuführen, welche durch schwere Atrophie des Nierengewebes und Apoptose von Nierentubuluszellen gekennzeichnet war. Aufgrund des Nierenschadens haben wir Trinkverhalten und gängige Serumparameter analysiert. Trotz der Polydipsie, die sich durch eine nahezu verdoppelte tägliche Wasseraufnahme manifestierte, konnten signifikant erhöhte Na+- und Cl--Werte und die daraus resultierende Hyperosmolalität im Serum der SPRED2-KOs nicht kompensiert werden. Weil Salz- und Wasserhaushalt zum größten Teil unter der hormonellen Kontrolle von Aldosteron und ADH stehen, haben wir beide Hormonspiegel untersucht. Während die ADH-Werte im Serum von WT- und KO-Mäusen vergleichbar waren, insbesondere nach experimentellem Wasserentzug und einem extremen Verlust von Körperflüssigkeit, waren die Serumspiegel von Aldosteron in den SPRED2-KO-Mäusen verdoppelt. Die systematische Untersuchung übergeordneter regulatorischer Hormonachsen ergab, dass sich der Hyperaldosteronismus unabhängig von einer erhöhten Aktivität des Renin-Angiotensin-Systems entwickelte, da die Serum-Ang II-Spiegel in den SPRED2-KOs etwa um die Hälfte reduziert waren. Die Expression der Aldosteronsynthase in der Nebenniere war jedoch wesentlich erhöht. Für Kortikosteron, das wie Aldosteron von der Nebennierenrinde freigesetzt wird, konnten wir ebenfalls mehr als doppelt so hohe Werte im Serum der KO-Tiere detektieren. Die Aldosteron-Produktion steht, ähnlich wie bei Kortikosteron, zumindest teilweise unter der Kontrolle des hypophysären Hormons ACTH, dessen Sekretion wiederum übergeordnet durch die Freisetzung von CRH aus dem Hypothalamus geregelt wird. Tatsächlich war die Stresshormon-Sekretion entlang dieser gesamten Hypothalamus-Hypophysen-Nebennierenrinden-Achse erhöht, da Serum-ACTH, das mittlere, hypophysäre Hormon, und hypothalamisches CRH, der übergeordnete hormonelle Induktor der HPA-Achse, in den SPRED2-KOs auch um 30% erhöht waren. Zusätzlich waren die ERK-Aktivität ebenso wie die CRH-mRNA-Spiegel im paraventrikulären Nukleus des Hypothalamus in unseren SPRED2-KO-Mäusen deutlich höher. In vitro Studien mit der Hypothalamus-Zelllinie mHypoE-44 zeigten weiterhin, dass sowohl SPRED1 als auch SPRED2 die Aktivität des CRH-Promotors, die CRH-Sekretion und die Ets-Faktor-abhängige CRH-Transkription reduzieren können. Passend dazu enthält die CRH-Promotorregion zahlreiche verschiedene Bindungsstellen für Transkriptionsfaktoren der Ets-Familie, speziell für Ets1. Somit zeigt diese Studie zum ersten Mal, dass die durch SPRED2-vermittelte Hemmung der Ras/ERK/MAPK-Signalkaskade mittels Unterdrückung der ERK-Aktivität zu einer Herunterregulation der Ets1-Faktor-abhängigen Transkription führt, was eine Hemmung der CRH-Promotoraktivität, der CRH-Transkription und der CRH-Freisetzung aus dem Hypothalamus zur Folge hat. Die daraus resultierende Hyperaktivität der gesamten HPA-Achse in unseren SPRED2-KO-Mäusen spiegelt eine erhöhte endogene Stress-Reaktion wider und äußert sich durch übermäßiges Putzverhalten und durch selbst zugefügte Hautläsionen auf der einen Seite; auf der anderen Seite erklärt dies, in Kombination mit der erhöhten Aldosteronsynthase-Expression, den Hyperaldosteronismus und das damit verbundene Ungleichgewicht in Salz- und Wasserhaushalt. Weiterhin tragen sowohl Hyperaldosteronismus als auch Polydipsie sehr wahrscheinlich zu den beobachteten Nierenschädigungen bei. Zusammengefasst ist diese Studie ein erster Hinweis, dass SPRED2 wesentlich an der adäquaten Regulation der HPA-Achsen-Aktivität beteiligt ist und essentiell ist für die Aufrechterhaltung der Homöostase im Körper. Um die Folgen von SPRED2-Defizienz in Mäusen und vor allem im Menschen weiter aufzuklären und zu vergleichen, erforschen wir in zwei Folgeprojekten die Funktion von SPRED2 speziell im Gehirn und im Herzen und führen parallel ein genetisches Screening zur Identifikation von funktionellen SPRED2-Mutationen im Menschen durch. Renin-Angiotensin-System Spred-Proteine MAP-Kinase Hypophysen-Zwischenhirn-System Knockout <Molekulargenetik> ddc:570
123	Entstehung von oxidativen Stressmarkern in DNA und RNA nach der Behandlung mit den Hormonen Angiotensin II und Aldosteron in vitro und in vivo : Vergleich von drei Analysemethoden zum Nachweis von 8-Oxo-2'-desoxyguanosin in LLC-PK1-Zellen / Formation of oxidative stress markers in DNA and RNA after treatment with aldosterone and angiotensin II in vitro and in vivo Mandel, Philipp January 2014 (has links) (PDF) The detection of oxidative stress markers has gained increasing importancy in the early investigation of diseases like diabetes, cancer or hypertension. 8 oxo 2' deoxyguanosine (8-oxodG) is the main marker, which is used for the intracellular detection of oxidative stress levels. However, the oxidative stress markers 8 oxoguanine (8-oxoGua), a product of the DNA base excision repair and 8 oxoguanosine (8-oxoGuo), a marker for oxidative damaged RNA have received less attention up to now. The renin-angiotensin-aldosterone system (RAAS) plays an important role in the regulation processes of the blood pressure system. During hypertension angiotensin II (Ang II) and aldosterone (Aldo) are released in high concentrations over a longer period leading to non-physiological effects of the RAAS hormones. Subsequently, an increase of the intracellular oxidative stress level in kidney cells can be measured. The aim of this thesis is the in vitro and in vivo detection of the oxidative damage in DNA and RNA by measuring oxidative stress markers, especially 8-oxodG which is triggered by Ang II and Aldo. In vitro experiments were carried out in LLC-PK1, a cell line originated from porcine kidney cells. It could been shown that Ang II and Aldo led to a dose-dependent increase of DNA damage in the cells. A time-dependent increase was detected for the first 30 minutes of the treatment. For the rest of the experimental set up (4 h) the level of detected DNA damage remained constant. The FPG comet assay and the immunocytochemical staining showed a significant increase of 8-oxodG in the cells, whereas the HPLC-MS/MS measurement only detected a small increase of 8-oxodG in the DNA. The FPG enzyme, which recognises also other oxidized purines besides 8-oxodG, which led to an overestimation of 8-oxodG in the comet assay. Also, the 8 oxodG antibody, which was used in the immunocytochemical analysis, detected higher amounts of 8-oxodG most likely due to its side reactions with other oxidized DNA structures. One of the main advantages of the last mentioned methods is the direct measurement in damaged cells, whereas the HPLC-MS/MS requires an isolation of the DNA. During this isolation process the oxidative stress markers can be oxidized and the detection can become imprecise. The main purpose of the in vivo experiments was the detection of the oxidative stress marker 8-oxoGua, 8-oxodG and 8-oxoGuo in the urine of test animals. The treatment of C57BL/6 mice and Sprague Dawley (SD) rats with the RAAS hormones led to an increase of the blood pressure, higher DNA damage due to oxidative stress as well as an increased excretion rate of oxidative stress markers. The inhibition of the angiotensin II type 1- or mineralocorticoid receptor and a mutation of the AT1a gene could show, that the DNA damage is independent from the hypertension. In addition, it was shown that the NOX4 is not alone responsible for the oxidative stress. Other NADPH oxidases must contribute to the induction of oxidative stress inside the cell. Moreover, the activation of the Nrf2 pathway has an influence on the effect of Aldo in SD rats. The excretion rate of the oxidative stress markers in the 20 h urine of the treated animals showed how the equilibrium between the DNA repair and the oxidative stress level was changing over time. The measurement of 8-oxoGuo became more and more popular, because up to the fact that 80 % of the DNA is translated into RNA. Overall, the detection of 8-oxodG and 8-oxoGuo is feasible for monitoring the disease or the healing process, because the measurement is non-invasive. The detection of 8-oxodG and 8-oxoGuo in nucleic acids is a first step into the field of basic research methods, because it reveals a snapshot of the nucleic acid damage in the cell at a specific time point. Usually, there will be an overestimation of the oxidative stress marker resulting from the analytical method. Although, it is possible to detect an underestimation of oxidative stress markers in tissue samples if not all cell types are damaged equally. Therefore, a primary goal should be the detection of a stable oxidation product of guanine to insure a reliable detection strategy and for a better understanding of the equilibrium of DNA oxidation and repair. / Der Nachweis von oxidativen Stressmarkern hat bei der Untersuchung von Krankheiten wie Diabetes, Krebs und Hypertonie an großer Bedeutung gewonnen. Vor allem 8-Oxo-2’-desoxyguanosin (8-oxodG) wird gezielt mit verschiedenen Methoden gemessen und als Marker für oxidativen Stress herangezogen. Daneben haben 8 Oxoguanin (8-oxoGua), als Produkt aus der Basenexzisionsreparatur der DNA, sowie 8-Oxoguanosin (8-oxoGuo), als Biomarker für oxidativ geschädigte RNA, bisher weniger Aufmerksamkeit bekommen. Das Renin-Angiotensin Aldosteron System (RAAS) spielt eine wichtige Rolle in der Regulierung des Blutdrucks. Im Falle einer Hypertonie werden Angiotensin II (Ang II) und Aldosteron (Aldo) über einen langen Zeitraum in erhöhter Konzentration ausgeschüttet. Dieser Umstand bewirkt eine nicht physiologische Wirkung der Hormone des RAAS, welche zu einer Induktion von oxidativem Stress führt. Die Zielsetzung dieser Arbeit ist es, die oxidative Schädigung, ausgelöst durch Ang II und Aldo, in der DNA und der RNA in vitro und in vivo nachzuweisen und dabei speziell den Biomarker 8-oxodG zu untersuchen. In-vitro-Experimente wurden mit LLC PK1-Zellen, einer Schweinenierenzelllinie, durchgeführt. Ang II und Aldo lösten einen dosisabhängigen Anstieg der DNA Schäden in LLC PK1 Zellen aus. Eine Zeitabhängigkeit wurde für die ersten 30 Minuten gezeigt. Für die restliche Zeit (4 h) blieb der nachgewiesene DNA Schaden konstant. Der FPG Comet-Assay und die immunzytochemische Färbung zeigten jeweils eine signifikante Zunahme von 8-oxodG in LLC-PK1-Zellen an, während die HPLC MS/MS Messung nur geringe Veränderungen nachwies. Das FPG Enzym erkennt neben 8-oxodG auch andere oxidierte Purine und sorgte so für eine Überbestimmung des DNA-Schadens. Bei der immunzytochemischen Färbung entsteht die Überbestimmung durch Kreuzreaktionen des 8 oxodG Antikörpers mit oxidierten Strukturen in der DNA. Der Vorteil beider Analysemethoden ist die direkte Messung von Schädigungen in der Zelle, während die HPLC-MS/MS eine Isolierung der Nukleinsäuren voraussetzt. Bei diesem Schritt kann es zur Oxidation der Marker für oxidativen Stress kommen, welche einen genauen Nachweis erschwert. In vivo-Versuche hatten zum Ziel, die oxidativen Stressmarker 8-oxoGua, 8-oxodG und 8-oxoGuo im Urin nachzuweisen. Die Behandlung der C57BL/6-Mäuse und Sprague Dawley-Ratten (SD-Ratten) mit den Hormonen des RAAS zeigten einen Anstieg des Blutdrucks, erhöhte DNA Schäden durch oxidativen Stress sowie erhöhte Exkretionsraten der oxidativen Stressmarker. Durch eine Inhibierung des Angiotensin II-Typ1- oder Mineralkortikoidrezeptors sowie die Mutation des Gens AT1a konnte gezeigt werden, dass die Schädigungen unabhängig vom Blutdruck sind. Zudem konnte gezeigt werden, dass neben NOX4 auch andere NADPH Oxidasen für den oxidativen Stress verantwortlich sein müssen. Eine Aktivierung des Nrf2 Signalweges in den SD-Ratten hat Einfluss auf die Wirkung von Aldo. Die Exkretionsrate der oxidativen Biomarker im 20-h-Urin der behandelten Tiere zeigen, wie sich das Gleichgewicht zwischen DNA-Reparatur und oxidativem Stress verändert. Da 80 % der DNA in RNA umgeschrieben werden, ist der Nachweis von 8 oxoGuo in den Fokus gerückt. In der praktischen Anwendung kann mit der Messung von 8 oxodG und 8-oxoGuo ein Krankheits- oder Heilungsprozess auf nicht invasive Weise verfolgt werden. Der Nachweis von 8-oxodG und 8-oxoGuo in den Nukleinsäuren stellt einen Einstieg für die Grundlagenforschung dar, da sie nur eine Momentaufnahme der Nukleinsäureschädigung in der Zelle zeigen. Meist findet eine Überbestimmung, ausgelöst durch die Messmethode, statt. In Gewebeproben kann eine Unterbestimmung vorliegen, falls nicht alle Zelltypen vom oxidativen Stress betroffen sind. Daher sollte es ein vorrangiges Ziel sein, ein stabileres Oxidationsprodukt des Guanins nachzuweisen, um das Gleichgewicht der DNA-Oxidation und Reparatur besser zu verstehen. Oxidativer Stress Aldosteron Renin-Angiotensin-Aldosteron-System Angiotensin II LC-MS ddc:540
124	Auswirkung der SPRED2-Defizienz auf die kardiale Funktion und Beeinflussung durch die Behandlung mit dem Aldosteronantagonisten Eplerenon / Impact of SPRED2-deficiency on cardiac function and influence through treatment with aldosterone receptor antagonist eplerenone Augustin, Anne Marie January 2018 (has links) (PDF) SPRED2 ist ein Inhibitor des Ras/ERK-MAPK-Signalwegs. Um die Folgen einer SPRED2-Defizienz zu erforschen, wurden im Rahmen vorheriger von Ullrich et al. durchgeführter Untersuchungen mittels Gene-Trap-Methode bereits mannigfaltige Auffälligkeiten im Phänotyp der SPRED2-Mäuse festgestellt. So zeigten die Tiere einen Hypochondroplasie-ähnlichen Zwergenwuchs, Verhaltensauffälligkeiten, einen krankhaft gesteigerten Wasserkonsum und nicht zuletzt eine deutlich reduzierte Lebenserwartung im Vergleich mit den WT-Tieren. Des Weiteren fielen erhöhte Aldosteronspiegel auf, die bei näheren Untersuchungen nicht einer erhöhten Aktivität des RAAS geschuldet zu sein schienen. Vielmehr zeigte sich eine deutlich erhöhte Aldosteron-Synthase-Expression in der Nebennierenrinde. Erste Hinweise darauf, dass die SPRED2-Defizienz auch Auswirkungen auf den kardiologischen Phänotyp haben könnte, ergaben sich bereits bei initialen Untersuchungen von Ullrich et al. So konnte bei den SPRED2-KO-Tieren neben hämodynamischer Auffälligkeiten eine gesteigerte Herz-Körpergewicht-Ratio festgestellt werden. Die im Rahmen dieses Folgeprojekts durchgeführten Untersuchungen sollten die Frage klären, ob die Defizienz des SPRED2-Gens Auswirkungen auf die Herzleistung hat und hierüber die verkürzte Lebenserwartung der KO-Tiere verschulden könnte. Hierfür wurden zunächst Untersuchungen der elektrischen kardialen Aktivität mittels EKG und Elektrophysiologischer Untersuchung durchgeführt. Die Ermittlung von Herzrhythmusstörung und die Quantifizierung derselben spielte hierbei eine besondere Rolle. Des Weiteren sollte mit der Durchführung von PSR-Färbungen zur Bestimmung des kardialen Kollagengehaltes histologischen Fragestellungen Rechnung getragen werden. Aufgrund des bereits aus den vorherigen Studien bekannten Hyperaldosteronismus der KO-Tiere stellte sich darüber hinaus die Frage, ob die im Rahmen der Studie feststellbaren kardiologischen Auffälligkeiten als Konsequenz der gesteigerten Aldosteronwerte, oder aber als direkte Folge des Genotyps gewertet werden müssen. Aus diesem Grund wurden alle oben genannten Untersuchungen mit Tieren, welche einer Behandlung mit dem Aldosteronantagonisten Eplerenon zugeführt worden waren, wiederholt. Bei der Auswertung der basalen Ruhe- und Stress-EKGs zeigten sich einige Parameter bei den KO-Tieren pathologisch verändert. So war das QRS-Intervall, als Korrelat zur intraventrikulären Überleitungszeit, bei den KO-Mäusen verlängert, im Stress-EKG waren darüber hinaus sowohl die Dauer der P-Welle als auch des PQ-Intervalls erhöht. Durch die Behandlung mit Aldosteron waren diese Unterschiede zwischen WT- und KO-Gruppe teilweise nicht mehr feststellbar. Das die atrioventrikuläre Überleitungszeit abbildende PQ-Intervall war sowohl im Vergleich mit dem behandelten WT, als auch mit dem unbehandelten WT nicht mehr signifikant erhöht. Auch die Länge des QRS-Komplexes näherte sich unter Eplerenon-Behandlung dem der unbehandelten WT-Tiere an und sank bei der Stress-EKG-Auswertung sogar unterhalb des Signifkanzniveaus. Bei der EKG-Analyse in Bezug auf Arrhythmien ergab sich bei Gegenüberstellung der basalen WT- und KO-Gruppe eine deutlich gesteigerte Vulnerabilität für Herzrhythmusstörungen bei den KO-Tieren. Durch die Behandlung mit Eplerenon konnte hierbei ein deutlicher Erfolg erzielt werden mit signifikanter Reduktion der Arrhythmieereignisse. Die elektrophysiologische Untersuchung ergab neben unauffälligen Parametern der Funktion des Sinusknotens und der AV-Überleitung ebenfalls Hinweise für eine gesteigerte Empfindlichkeit für Arrhythmien. Die durch EPU induzierten Arrhythmien zeigten sich durch Eplerenon-Behandlung gleichermaßen rückgängig. Mittels Kollagenfärbung konnte der initiale Verdacht, dass die SPRED2-KO-Tiere zu einer vermehrten kardialen Fibrosierung neigen, bestätigt werden. Dabei zeigte sich durch die Behandlung mit Eplerenon eine deutliche Beeinflussung und Reduktion des kardialen Kollagengehaltes. Insgesamt lässt sich schlussfolgern, dass die mannigfaltigen phänotypischen Effekte, die die SPRED2-Defizienz bedingt, nur teilweise dem Hyperaldosteronismus der Tiere geschuldet sind und durch therapeutische Einflussnahme auf diesen auch nur partiell kompensiert werden können. / SPRED proteins are inhibitors of the Ras/ERK/MAPK signaling pathway, an evolutionary highly conserved and very widespread signaling cascade regulating cell proliferation, differentiation, and growth. To elucidate physiological consequences of SPRED2 deficiency, SPRED2 KO mice were generated by a gene trap approach and heart investigations were systematically performed. An initial phenotypical characterization in studies of Ullrich et al showed a hypochondroplasia-like dwarfism, abnormally high water uptakes, behavioural syndromes with excessive grooming and reduced survival times. Also, investigations revealed hyperaldosteronism in SPRED2 KO mice with doubled serum aldosterone as compared with WT mice. Systematic investigation of contributing upstream hormone axes demonstrated, that hyperaldosteronism developed independently of an overactivated Renin-Angiotensin system as indicated by halved serum Ang II levels in KO mice. However, aldosterone synthase expression in the adrenal gland was substantially augmented. First indications for cardiac pathologies in SPRED KO mice resulted from initial cardiac tests of Ullrich et al., revealing enlarged hearts with elevated heart weight/body weight ratios, as well as increased stroke volumes in KO mice. To investigate whether the cardiac phenotype and the reduced survival time is a consequence of the genotype or secondary due to hyperaldosteronism, electrocardiograms, electrophysiological studies, both with arrhythmia analysis, as well as PSR-stainings, were performed with untreated mice, as well as animals after eplerenone treatment. Some ECG-parameters showed significant differences, for example QRS-interval was prolonged in KO-mice, as correlation for ventricular conduction time. Under isoproterenol stimulation, p-wave duration as well as PQ-interval revealed to be extended. These differences showed to be reduced due to eplerenone treatment, in case of PQ-time and QRS-interval after isoproterenol stimulation, even in significant dimension. Concerning the arrhythmia analysis in ECG and EPU, results showed a distinctly increased vulnerability for arrhythmias in KO-mice, which could be influenced with eplerenone treatment. EP studies revealed no significant differences regarding function of sinus and atrioventricular node, but, analogous to ECG-studies, significant more and severe arrhythmias could be detected in KO-mice, which could be clearly reduced with eplerone. By use of Picro-sirius red staining as a tool to appraise collagen fibers, a significant higher amount of collagen in heart slices of KO-mice could be proved, while treatment with eplerenone reduced fibrosis distinctly, both in WT and in KO-mice. In summary, manifold phenotypical characterizations of SPRED2 KO mice showed to be only partially result of the hyperaldosteronism and revealed only partial influence due to eplerenone treatment. Spred-Proteine Renin-Angiotensin-System Aldosteronantagonist Herzfunktion MAP-Kinase ddc:571
125	Consequences of an altered intrauterine environment on the offspring???s renal, cardiovascular and renin angiotensin systems O???Connell, Amanda Elizabeth, School of Medical Science, UNSW January 2006 (has links) This thesis reports the effects of an altered intrauterine environment on the offspring???s renal, cardiovascular and renin angiotensin systems. After a midgestational asphyxial episode in fetal sheep (30 min total umbilical cord occlusion at 90 days; term 150 days) the hydrops that resulted had not completely resolved by 130 days. While the heart and kidneys were apparently unaffected, the brain and lung weights were 37% and 50% lower than sham values, respectively and there were joint contractures. The effects of maternal renal disease on the offspring were investigated. Although in utero fetuses of subtotally nephrectomised ewes (STNx) had altered urine flow rates, sodium excretion, haematocrits, plasma chloride and plasma renin levels, by 1-2 weeks after birth these values in the lambs (STNxL) were similar to controls (ConL) under baseline conditions. Body weight and the weights of most organs were similar, including the kidney, in which glomerular number was normal. In the neonatal period, the lambs were subjected to four challenges: furosemide (2 mg/kg intravenous bolus), infusion of angiotensin II and phenylephrine, intravenous infusion of 0.15M saline (50 ml/kg over 30 min) and haemorrhage (20% estimated blood volume over 10 min). These challenges revealed evidence of programming of several aspects of the renal, cardiovascular and renin angiotensin systems in the STNx offspring. As young adults at 6 months of age, male and female offspring of STNx ewes were normotensive and had normal renal function. On a high salt diet (HSD, 0.17M NaCl in 8L water for 5-7days), female offspring of both groups did not become hypertensive. However, the STNx offspring must have retained salt and water as plasma sodium was increased and haematocrit was decreased. In the STNx offspring only, there was a relationship between glomerular filtration rate (GFR) and mean arterial pressure, indicating an inability to maintain a constant GFR in response to changes in arterial pressure. Neonatology Fetus - Physiology Cardiovascular system Renin-angiotensin system Kidneys Sheep- Embryos
126	Consequences of an altered intrauterine environment on the offspring???s renal, cardiovascular and renin angiotensin systems O???Connell, Amanda Elizabeth, School of Medical Science, UNSW January 2006 (has links) This thesis reports the effects of an altered intrauterine environment on the offspring???s renal, cardiovascular and renin angiotensin systems. After a midgestational asphyxial episode in fetal sheep (30 min total umbilical cord occlusion at 90 days; term 150 days) the hydrops that resulted had not completely resolved by 130 days. While the heart and kidneys were apparently unaffected, the brain and lung weights were 37% and 50% lower than sham values, respectively and there were joint contractures. The effects of maternal renal disease on the offspring were investigated. Although in utero fetuses of subtotally nephrectomised ewes (STNx) had altered urine flow rates, sodium excretion, haematocrits, plasma chloride and plasma renin levels, by 1-2 weeks after birth these values in the lambs (STNxL) were similar to controls (ConL) under baseline conditions. Body weight and the weights of most organs were similar, including the kidney, in which glomerular number was normal. In the neonatal period, the lambs were subjected to four challenges: furosemide (2 mg/kg intravenous bolus), infusion of angiotensin II and phenylephrine, intravenous infusion of 0.15M saline (50 ml/kg over 30 min) and haemorrhage (20% estimated blood volume over 10 min). These challenges revealed evidence of programming of several aspects of the renal, cardiovascular and renin angiotensin systems in the STNx offspring. As young adults at 6 months of age, male and female offspring of STNx ewes were normotensive and had normal renal function. On a high salt diet (HSD, 0.17M NaCl in 8L water for 5-7days), female offspring of both groups did not become hypertensive. However, the STNx offspring must have retained salt and water as plasma sodium was increased and haematocrit was decreased. In the STNx offspring only, there was a relationship between glomerular filtration rate (GFR) and mean arterial pressure, indicating an inability to maintain a constant GFR in response to changes in arterial pressure. Neonatology Fetus - Physiology Cardiovascular system Renin-angiotensin system Kidneys Sheep- Embryos
127	Consequences of an altered intrauterine environment on the offspring???s renal, cardiovascular and renin angiotensin systems O???Connell, Amanda Elizabeth, School of Medical Science, UNSW January 2006 (has links) This thesis reports the effects of an altered intrauterine environment on the offspring???s renal, cardiovascular and renin angiotensin systems. After a midgestational asphyxial episode in fetal sheep (30 min total umbilical cord occlusion at 90 days; term 150 days) the hydrops that resulted had not completely resolved by 130 days. While the heart and kidneys were apparently unaffected, the brain and lung weights were 37% and 50% lower than sham values, respectively and there were joint contractures. The effects of maternal renal disease on the offspring were investigated. Although in utero fetuses of subtotally nephrectomised ewes (STNx) had altered urine flow rates, sodium excretion, haematocrits, plasma chloride and plasma renin levels, by 1-2 weeks after birth these values in the lambs (STNxL) were similar to controls (ConL) under baseline conditions. Body weight and the weights of most organs were similar, including the kidney, in which glomerular number was normal. In the neonatal period, the lambs were subjected to four challenges: furosemide (2 mg/kg intravenous bolus), infusion of angiotensin II and phenylephrine, intravenous infusion of 0.15M saline (50 ml/kg over 30 min) and haemorrhage (20% estimated blood volume over 10 min). These challenges revealed evidence of programming of several aspects of the renal, cardiovascular and renin angiotensin systems in the STNx offspring. As young adults at 6 months of age, male and female offspring of STNx ewes were normotensive and had normal renal function. On a high salt diet (HSD, 0.17M NaCl in 8L water for 5-7days), female offspring of both groups did not become hypertensive. However, the STNx offspring must have retained salt and water as plasma sodium was increased and haematocrit was decreased. In the STNx offspring only, there was a relationship between glomerular filtration rate (GFR) and mean arterial pressure, indicating an inability to maintain a constant GFR in response to changes in arterial pressure. Neonatology Fetus - Physiology Cardiovascular system Renin-angiotensin system Kidneys Sheep- Embryos
128	Pharmacogenetic Studies of Antihypertensive Treatment : With Special Reference to the Renin-Angiotensin-Aldosterone System Kurland, Lisa January 2001 (has links) <p>Hypertension is common and constitutes an increased risk of morbidity and mortality of cardiovascular disease. Antihypertensive treatment will reduce this risk; the individual patient's response to treatment, however, is difficult to predict.</p><p>Patients with hypertension and left ventricular hypertrophy were randomized to monotherapy with either the angiotensin II type 1 receptor antagonist irbesartan or the beta-adrenoreceptor blocker atenolol, and followed for three months. The aim was to determine whether gene polymorphisms in the renin-angiotensin-aldosterone system were related to the response to treatment.</p><p>The ACE II genotype was associated with the most pronounced diastolic blood pressure response, while the aldosterone synthase (CYP11B2) -344 TT genotype showed the greatest systolic blood pressure response. The angiotensinogen 174 TM genotype showed the most pronounced regression in left ventricular mass, independent of the change in blood pressure. These associations were exhibited only in response to treatment with the angiotensin II type 1 receptor antagonist irbesartan.</p><p>In a sample of apparently healthy subjects, those with both the D allele and the angiotensinogen 174 TM variant in combination showed a decreased endothelium-dependent vasodilation.</p><p>These results suggest that the response to antihypertensive treatment is associated with polymorphisms in the genes reflective of the pathophysiological pathway the drug targets. The present study is an encouragement for future investigation, such as large scale studies of multiple polymorphisms and combinations thereof in an attempt to identify a panel of genotypes that can be used as a predictor of an individual patient's response to anithypertensive treatment.</p> Medical sciences pharmacogenetics hypertension renin-angiotension-aldosterone system gene polymorphisms MEDICIN OCH VÅRD MEDICINE MEDICIN
129	The Influence of the Adenosine A<sub>1</sub>-receptor on Tubuloglomerular Feedback and Renin Release Brown, Russell January 2004 (has links) <p>The kidneys play a vital role in the maintenance of extracellular fluid and electrolyte balance and blood pressure. Adenosine, acting through the adenosine A<sub>1</sub>-receptor (A<sub>1</sub>R), and nitric oxide have been implicated in several of the regulatory mechanisms in the kidney. The A<sub>1</sub>R has been found to be present in the renal vasculature, primarily in the afferent arterioles, and in the proximal tubules. The tubuloglomerular feedback mechanism (TGF) is an important regulator of renal vascular tone and glomerular filtration rate. The aim of these investigations was to further elucidate the role of adenosine, acting through the A<sub>1</sub>R. Investigations on adenosine’s renal effects were performed on transgenic mice lacking the A<sub>1</sub>R.</p><p>TGF response, elicited by increased distal salt load, was completely abolished in the A1R knockout (A<sub>1</sub>R -/- ) mice. Basal plasma-renin levels were found to be ~2-fold higher in the A<sub>1</sub>R -/- compared to the A<sub>1</sub>R wild-type (A<sub>1</sub>R+/+) mice. However, salt intake induced inverse changes in plasma-renin levels, indicating that adenosine tonically inhibits macula densa stimulated renin release. Anesthetized and conscious A<sub>1</sub>R -/- mice, measured telemetrically, had an increased blood pressure, which could be due to the increased plasma-renin levels. Despite the high plasma-renin levels, increased urinary sodium excretion was also observed in the A<sub>1</sub>R -/- animals. Ischemia caused a decrease in renal function in both A<sub>1</sub>R+/+ and A<sub>1</sub>R -/- mice. Ischemic preconditioning protected the A<sub>1</sub>R+/+ mice from subsequent ischemic episode but had no protective effect on the A<sub>1</sub>R -/- mice.</p><p>Acute extracellular volume expansion greatly attenuates TGF sensitivity, thus facilitating the elimination of excess fluid. Acute inhibition of nNOS in volume-expanded rats was found to re-establish the attenuated TGF response caused by acute extracellular volume expansion.</p><p>The results show that adenosine, acting through the A<sub>1</sub>R, plays an important role in mediating TGF response and consequently, regulating renin release, blood pressure, electrolyte balance and other vital renal mechanisms.</p> Physiology adenosine tubuloglomerular feedback renin release blood pressure micropuncture Fysiologi Physiology Fysiologi
130	Regulation of angiotensinogen in adipocytes by polyunsaturated fatty acids Fletcher, Sarah Jean 01 May 2010 (has links) Adipose tissue is well-recognized as an endocrine organ which secretes a variety of bioactive molecules, including angiotensin II and its precursor angiotensinogen (Agt). There is mounting evidence linking the adipose renin-angiotensin system (RAS) and diet to obesity and obesity-related disorders. However, research addressing dietary regulation and function of adipose RAS is limited, and the specific mechanisms by which PUFAs modulate the endocrine function of adipose tissue remain largely unclear. There are several potential mechanisms that may mediate PUFA effects on Agt, including toll-like receptor signalling, prostaglandins or PPAR-gamma. Thus, we propose to investigate whether PUFAs differentially modulate Agt expression and secretion and to examine possible mechanisms by which PUFA alter Agt expression using the 3T3-L1 cell line. Differentiated 3T3-L1 adipocytes were treated with arachidonic acid (AA), eicosapentaenoic acid (EPA), AA + EPA, or vehicle (C) for 48 hours. Results showed a significant increase in intracellular Agt protein following treatment with PUFAs. Agt secretion, however, was only increased by AA. Interestingly, there is a dose-dependent decrease in Agt protein levels by EPA suggesting that a minimum concentration of n-3 PUFAs is required to elicit an Agt response. Agt mRNA levels were measured by RT-PCR and results showed a significant increase in Agt mRNA in response to treatment with AA but not EPA. These findings suggest that Agt regulation by PUFAs is complex and occurs both post-transcriptionally and post-translationally. Changes in mRNA stability may account for the observed effects of PUFAs. Adipocytes were treated with the transcriptional inhibitor actinomycin D (Act D) and Agt mRNA expression was measured over time. Total RNA was also measured at each time point to ensure that Act D treatment was effectively decreasing transcription. Agt mRNA expression was not significantly altered by treatment with EPA while treatment with AA increased Agt mRNA levels. These results suggest that Agt mRNA stability is differentially increased by n-6 but not n-3 PUFAs. Although there are clear effects of AA on Agt secretion and mRNA stability, the signaling pathways mediating this response remain to be determined, and additional studies are necessary to further dissect the underlying mechanisms of this regulation. angiotensinogen polyunsaturated fatty acid adipocyte renin-angiotensin system

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