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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Novel Therapeutic Strategies for the Treatment of Pulmonary Arterial Hypertension

Suen, Colin January 2017 (has links)
Pulmonary arterial hypertension (PAH) is a progressive disease that results in increased pulmonary vasculature resistance, causing right ventricular (RV) remodeling, which eventually progresses into right heart failure and mortality. New and emerging therapeutic strategies involve regenerative approaches to repair the underlying vascular pathology using regenerative cell therapy and methods to alleviate RV dysfunction in the setting of fixed RV afterload. In the first section of the thesis, we investigated the role of EPC paracrine mechanisms in the treatment of PAH. We characterized the paracrine function of EPCs by demonstrating that EPC conditioned medium enhances endothelial cell migration, survival and angiogenesis in vitro. We further examined the role of secreted extracellular vesicles in the paracrine function of EPCs, which played a minor role in promoting wound healing. However, using the monocrotaline rat model of PAH, we did not demonstrate a consistent benefit on RV pressures or remodeling with EPCs or EPC conditioned medium. The lack of effect may be related to the advanced phenotype observed in our model of PAH. Survival in severe pulmonary arterial hypertension (PAH) is related to the ability of the right ventricle (RV) to adapt to increased afterload. Therefore, we explored the effect of genetic background on right ventricular adaptation and survival in a rat model of severe (PAH). Compared to the conventional Sprague-Dawley rat strain, we observed high mortality in the Fischer SUHx model of severe PAH. This was related to a strain-dependent failure of RV adaptation, as evidenced by RV dilatation, RV contractile dysfunction, decreased cardiac ouptut and decreased exercise capacity. Further analysis by gene expression microarrays and fluorescence microangiography demonstrate that failure of RV adaptation is due at least in part due to lack of adequate microvascular angiogenesis in the hypertrophied RV. This work lays the foundation for the section on RV-specific therapy that follows. Using the Fischer model of maladaptive RV remodeling, we tested whether cardiotrophin-1 (CT-1), a pro-angiogenic and cardioprotective cytokine, could improve RV adaptation. We demonstrated that as a rescue treatment, CT-1 reduced RV dilatation and function without influencing RV afterload, which suggests improved RV adaptation. These changes were associated with an increase in RV capillary density. As an early-stage preventative treatment, in addition to improving RV remodeling, CT-1 also reduced pulmonary pressures. These hemodynamic changes suggest that CT-1 may also have a direct impact on vascular tone or the underlying pulmonary vascular pathology.
2

Rolle von Cardiotrophin-1 für die Pathogenese von Kardiomyopathien

Haßfeld, Sabine 28 April 2004 (has links)
Cardiotrophin-1 ist ein Zytokin der Familie Interleukin-6-Familie, zu der auch IL-11, CNTF, OSM und LIF gehören. Diese Substanzen wirken über die gemeinsame Rezeptoruntereinheit gp130. CT-1 induziert die Hypertrophie von Kardiomyozyten und inhibiert die Apoptose kardialer und Zellen. In verschiedenen Tiermodellen der Herzinsuffizienz konnte eine gesteigerte myokardiale CT-1 Expression beobachtet werden. Kardiomyopathien sind wiederum kardiale Erkrankungen, die mit einer Hypertrophie und Apoptose einhergehen und zu einer Herzinsuffizienz führen können. Man geht davon aus, dass 25-50 Prozent der familiär sind. Hierbei handelt es sich um eine monogenetische Erkrankung, die überwiegend autosomal-dominant vererbt werden. Daneben konnten aber auch modifizierende Polymorphismen in neurohumoralen Faktoren identifiziert werden. Basierend auf diesen Ergebnissen war das Ziel dieser Arbeit die Analyse der möglichen Beteiligung genetischer Varianten der kodierenden sowie der regulatorischen Region an der Pathogenese der Hypertrophen bzw. Dilatativen Kardiomyopathie. Zusätzlich sollte die mRNA-Expression von CT-1 in Myokardbiopsien von Patienten mit Herzinsuffizienz quantifiziert werden. Hierfür musste zunächst die Sequenzen der 5´-flankierenden Region identifiziert und bezüglich ihrer regulatorischen Eigenschaften analysiert werden. Es konnten 1,1 kb der 5´-flankierenden Region sequenziert werden. Die anschließende Luciferase-Reportergen-Analyse wies regulatorische Aktivitäten für den gesamten Bereich nach. Diese Region enthält zahlreiche cis-aktive DANN-Sequenzen aber keine TATA-Box. Für die Mutationssuche wurden 64 Patienten mit DCM, 53 Patienten mit HCM sowie 100 Kontrollpersonen mittels PCR-SSCP-Analyse untersucht. Es konnte eine kodierende Variante A92T bei jeweils einem DCM- bzw. HCM-Patienten identifiziert werden. Diese Substitution liegt in einem Bereich, der zwischen verschiedenen Spezies (Ratte, Maus, Mensch) konserviert ist. Diese Mutation könnte eine Veränderung der Sekundärstruktur bewirken und liegt in einem möglichen funktionellen Bereich. Die Promotorregion wies eine Basenpaarsubstitution bei -130 (G/T) sowie eine Deletion der Basen CTTT zwischen -992 und -995 auf. Der Polymorphismus an Position -130 fand sich tendenziell häufiger bei Patienten mit Dilatativer Kardiomyopathie. Die CTTT-Deletion konnte nur bei einer Patientin mit HCM nachgewiesen werden. Für die Quantifizierung der CT-1 mRNA wurden rechtsventrikuläre Endomyokardbiopsien von 6 Patienten mit eingeschränkter LVEF (CHI), 5 Patienten nach Herztransplantation (TX) sowie 3 Kontrollpatienten (KO) eingesetzt. Es konnte ein relativer Anstieg der CT-1 Expression um 82% bei den Patienten mit eingeschränkter LVEF festgestellt werden. Interessanterweise besteht eine enge Korrelation zur Schwere der eingeschränkten Herzfunktion sowie zur Zunahme der Hypertrophie. / Cardiotrophin-1 is a cytokine, which belongs to the interleukin-6 family, which includes IL-11, CNTF, OSM and LIF. These factors act via the receptor subunit gp130. CT-1 induces the hypertrophy of cardiomyocytes and inhibits the apoptosis of cardiac cells. Studies in animal models of congestive heart failure showed an enhanced expression of CT-1 in the myocardium. Cardiomyopathies are cardiac diesorders, which are charakterized by hypertrophy and apoptosis and which can terminate with congestive heart failure. About 25-50 percent of all cases are familial. It is a monogenetic mendelian disorder with an autosomal-dominant inheritance in most cases. Beside this, modifying polymorphisms in neurohunoral factors could be identified. Based on these facts, the aim of this study was to identify genetic variants within the coding and regulatory region of the CT-1 gene, which could influence the pathogenesis of hypertrophic or dilated cardiomyopathy. Additionally, the mRNA-expression of CT-1 in myocardial biopsies of heart failure patients should be quantified. First, it was necessary to sequence the 5´-untranslated region and to analyse its regulatory function. We could sequence 1.1 kb of the 5´-UTR. The luciferase reportergene assay showed a significant promoter activity for the whole region. The region contains various cis-active DNA sequences but no TATA-box.The TRANSFAC-analysis identified different binding sites for transcription factors but no TATA-box. The genetic material of 64 DCM and 53 HCM patients and 100 controls was screened for mutaions by using a PCR-based SSCP-analysis. A coding variant A92T could be identified for a patient with DCM and for an HCM patient. This mutation lies within a region which is conserved between different species (rat, mouse, human). This variant could disturb the secondary structure and lies in a probable functional region. Within the promoter we could identify a basepair substitution at position -130 (G/T) and a 4-basepair deletion between -992 and -995 (CTTTdel). The polymorphism at -130 showed a tendency for a higher occurrence in DCM patients. One HCM patient was heterozygous for the CTTT-deletion. To quantify the CT-1 mRNA we used endomyocardial biopsies of 6 patients with reduced LVEF (CHI), 5 patients after heart transplantation (TX) and 3 controls (KO). We performed a semiquantitative analysis by using HPLC and an external standard (PDH mRNA). We found an increased expression of CT-1 by 82% for patients with heart failure. Interestingly, we saw a tight correlation with to the reduction in LV function and to the degree of hypertrophy.

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