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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.
61

Endothelial specific inactivation of FAK-Y397 and FAK-Y861 phosphorylation in tumour growth and angiogenesis in vivo

Bodrug, Natalia January 2017 (has links)
Tumour angiogenesis is a hallmark of cancer. Focal adhesion kinase (FAK) is a non-receptor tyrosine kinase involved in endothelial cells (ECs) survival, proliferation and migration. FAK has several tyrosine phosphorylation sites thought to be involved in FAK function but the requirement of phosphorylation of these residues in vivo is unknown. We have generated mice where endogenous FAK is deleted simultaneously with the expression of nonphosphorylatable FAK-Y397F or FAK-Y861F mutated or wild type forms of FAK in adult endothelium in order to test this. My data show that EC-FAK-Y397FKI mice present with decreased tumour angiogenesis (in sygeneic B16F0, CMT19T and LLC) but impaired B16F0 and CMT19T tumour growth only, with increased tumour hypoxia. FAK-Y397F tumour endothelium is not perfusion, leakage or vascular maturation defective. This mutation affects VEGF-, PlGF- and bFGF-driven angiogenesis in vivo and VEGF+Ang2 administration is able to partially rescue this phenotype ex vivo. In contrast, endothelial FAK-Y861F mutation leads to an initial delay in B16F0 tumour angiogenesis, that subsequently resolves, and does not affect B16F0 tumour growth. LLC and CMT19T tumour growth and angiogenesis are not affected by the endothelial FAK-Y861F mutation; neither are tumour blood vessel perfusion, leakage, vascular maturation or tumour hypoxia. VEGF-, PlGFand bFGF-driven angiogenesis in vivo and ex vivo was not affected by the endothelial FAK-Y861F mutation, whereas increased in vivo angiogenesis was triggered by Ang2 administration. Lastly, to understand whether cytokine profiles that might affect angiocrine signalling are affected differentially in FAK-Y397F vs FAK-Y861F endothelial cells, I show that CCL1 and CCL2 are increased in FAK-Y397F but IL- 13, IL-1F3, CCL4, IL-1F1, CCL2 and others are increased in FAK-Y861F endothelial cells. Overall my data indicates that endothelial-specific FAK mutations on two phosphorylation sites has different effects on tumour angiogenesis, tumour growth, growth factor stimulated angiogenesis in vivo and ex-vivo and cytokine production.
62

Chloride Intracellular Channels 1 and 4 function in distinct branches of S1P signaling to regulate endothelial cell behavior and vascular development

Jilishitz, Irina January 2016 (has links)
Chloride intracellular channels (CLICs), 1 and 4 are expressed in endothelial cells where they promote cell proliferation, migration and vessel morphogenesis in vitro. Clic4-/- mice exhibit defects in retinal angiogenesis suggesting CLIC4 functions as an angiogenic regulator. S1P signaling, through S1P receptors S1P1 and S1P2, is essential for endothelial cell functions during vascular development. S1P treatment promotes CLIC4 localization to cell surface suggesting a link between CLICs and S1P pathways. Here we demonstrate that CLICs function in embryonic development, retinal angiogenesis and vascular permeability regulation. Clic1-/-;Clic4-/- embryos die in utero and exhibit severe growth restriction with vascular defects prior to death. Loss of Clic4 in murine endothelium (Clic4ECKO) caused aberrant retinal angiogenesis characterized by reduced vascular outgrowth and increased vessel sprouting. Clic4ECKO mice exhibited increased vessel leakiness as assessed by a lung permeability assay. We establish that CLIC1 and CLIC4 function in distinct branches of the S1P pathway to promote angiogenesis. Knockdown of CLIC1 or CLIC4 in endothelial cells impeded S1P1-mediated induction of AKT and Rac1 and reduced endothelial cell migration and adherence junctions formation. CLIC1 knockdown alone inhibited RhoA activation and actin stress fibers downstream of S1P2. Using pharmacological perturbation of S1P signaling in Clic knockout mice we established that Clic4 is essential for S1P1-mediated regulation of retinal angiogenesis and vascular permeability. We conclude that CLIC1 and CLIC4 function as effectors in the S1P pathway, where they have overlapping functions in S1P1-PI3K signaling and CLIC1 uniquely acts as an effector in S1P2-RhoA signaling cascade. Through these findings, our work defines a molecular mechanism through which CLICs function in endothelium.
63

Development and characterisation of a 4-dimensional in vitro model of ANCA-associated vasculitis

Walls, Catriona A. January 2017 (has links)
ANCA-associated vasculitis is a group of devastating autoimmune diseases that predominantly target and destroy small blood vessels. The interaction of neutrophils and monocytes with the endothelial cell lining of blood vessels is imperative to understanding the pathophysiology of the disease. The nature and temporal dynamics of these interactions are mostly unknown and could provide a currently unmet clinical need for more reliable biomarkers of disease activity. This study describes the development of a 4-dimensional in vitro live cell imaging model allowing the interactions of leukocytes with endothelial cells to be analysed in the context of health and disease. Monocytes and neutrophils were isolated from peripheral venous blood of AAV patients and healthy donors. Cells were fluorescently labelled and imaged on a monolayer of human umbilical vein endothelial cells (HUVEC) using a spinning disc confocal microscope. Leukocyte migration, partial and full transmigration, route of transmigration, degranulation and the presence of leukocyte-derived particles inside endothelial cells were measured and the influence of ANCA or BVAS status considered. Following a series of preliminary experiments, it was determined that neutrophil degranulation and partial transmigration indicated early promise as potential biomarkers of disease activity. Several circulating serum analytes correlated with in vitro leukocyte functions, complementing these findings but also highlighting the prevalent immune dysfunction in the pathophysiology and development of the disease. Fatigue is a common symptom within the AAV community and the complex relationship between autoimmune fatigue and leukocyte functions was examined. The data in this thesis describes the development of a novel in vitro live cell imaging platform which can be used to investigate leukocyte functions as potential markers of disease activity as well as understanding their role in the pathophysiology of AAV.
64

Efeito da melatonina endógena sobre a reatividade de células endoteliais ex vivo / Endogenous melatonin effect on ex vivo endothelial cells reactivity

Marçola, Marina 14 June 2011 (has links)
O endotélio é a camada celular interna dos vasos sanguíneos, responsável pela homeostase vascular. Além disso, é a porta de entrada para as células de defesa frente a um quadro de inflamação. A camada endotelial é alvo de diversos estudos devido ao seu caráter de fácil expansão em cultura, porém sua biologia ainda não é completamente compreendida. Devido à sua localização privilegiada, o endotélio está susceptível a alterações da composição da corrente sanguínea. A melatonina, hormônio produzido ritmicamente pela glândula pineal e de forma não rítmica em diversos outros tecidos, tem propriedade citoprotetora. Diversos estudos já demonstraram que ela atua, por diferentes mecanismos de ação e faixas de concentração, como um mediador anti-inflamatório sobre o endotélio. Segundo a hipótese de trabalho de nosso grupo, o eixo imune-pineal, a glândula pineal e o sistema imunológico se interligam em uma comunicação bidirecional, na qual a produção rítmica de melatonina é inibida frente a um quadro de inflamação para que ocorra a montagem da resposta inflamatória independente da hora do dia. Assim sendo, esta dissertação se baseou na hipótese de que as células endoteliais apresentam um ritmo em sua maquinaria que altere a intensidade de resposta frente a um estímulo inflamatório, e propôs avaliar como a melatonina agiria na regulação desse ritmo. Dessa forma, avaliamos como o tratamento sistêmico com LPS afetaria a produção noturna de melatonina, modulando a reatividade de células endoteliais da microcirculação. Demonstramos que o tratamento com LPS diminui os níveis circulantes deste hormônio e inibe a transcrição gênica da enzima chave, AA-NAT. Na periferia, o tratamento com LPS aumenta a reatividade de células endoteliais independente da hora do dia de administração mesmo após 18 dias em cultura. Este efeito é transiente, pois quando o tratamento é realizado seis horas antes da morte, os parâmetros analisados retornam aos níveis basais. A melatonina, administrada juntamente com LPS, reverte o efeito do LPS sobre as células endoteliais, além de reduzir a concentração plasmática de TNF. Além disso, células endoteliais obtidas de animais mortos à noite possuem menor estado de ativação que células provenientes de animais mortos de dia. De maneira geral, o efeito observado sobre as células endoteliais é inversamente correlacionado com a concentração plasmática de melatonina. Esses dados sugerem que as células endoteliais possuem uma espécie de \"memória celular\", pois armazenam as informações do estado do animal doador mesmo após todos os procedimentos em cultura. Adicionalmente, demonstramos a dinâmica do eixo imune-pineal in vivo. Juntamente, nossos dados permitem concluir que a melatonina prima as células endoteliais, modulando sua reatividade de acordo com a hora do dia e o estado de saúde do animal. / The endothelium is the vascular internal cellular layer, responsible for vascular homeostasis. Additionally, it regulates immune cells entrance during an inflammatory response. The endothelial layer is the focus of many studies due to its facility of culture expansion, but its biology is not yet totally understood. Because of its privileged localization, the endothelium is susceptible to plasma compounds changes. Melatonin, rhythmically produced by pineal gland and in a non rhythm way in others tissues, has citoprotector properties. Many studies have already shown that melatonin acts on endothelium as an anti-inflammatory mediator, through different mechanisms of action and concentrations ranges. Considering our work hypothesis, the immune-pineal axis, that suggests that the pineal gland and immune system are integrated through a bidirectional communication, melatonin rhythm production is inhibited during an injury, permitting the mounting of immune response independently of the hour of the day. This dissertation is based on the hypothesis that endothelial cells presents a rhythm in its machinery that alters the response intensity due to an inflammatory stimuli. We analyzed how LPS systemic treatment affects the melatonin nocturnal production, modulating the endothelial cells reactivity of microcirculation. We demonstrated that LPS treatment reduced plasma melatonin level and inhibited gene transcription of key enzyme, AA-NAT. On the periphery, LPS treatment increased endothelial cells reactivity independently of the hour of the day even after 18 days in culture. This effect was transient, once the parameters analyzed returned to basal levels when the treatment was done six hours before the death. Melatonin administrated together with LPS, reverted LPS effects on the endothelial cells, and also reduced plasma TNF concentration. Endothelial cells obtained from animal killed at nighttime are more activated than cells obtained from animals killed at daytime. Generally, the endothelial cells effects are inversely correlated with plasma melatonin level. These data suggests that endothelial cells have a \"cellular memory\", because they are capable to retain the information of donor animal state even after all culture proceedings. Additionally, we demonstrated the immune-pineal axis dynamics in vivo. All together, our results permit to conclude that melatonin primes the endothelial cells, modulating their reactivity according to the hour of the day and donor animal health.
65

Paradoxical Effects Of Nitric Oxide Synthase Isoforms In Brain Microvascular Endothelial Cells And Neurons

January 2018 (has links)
archives@tulane.edu / Experimental stroke in endothelial nitric oxide synthase (eNOS) and neuronal nitric oxide synthase (nNOS) knockout mice showed diverse effects on brain injury. nNOS and eNOS have been shown to uncouple in pathological conditions to produce superoxide. Oxidative stress is believed to be the underlying cause of several cardiovascular diseases including ischemic stroke. However, the role of eNOS and nNOS uncoupling in ischemic stroke is not well studied. Our objective of the study was to determine the effect of eNOS and nNOS inhibition on reactive oxygen species (ROS), NO, viability and mitochondrial bioenergetics in rat brain microvascular endothelial cells (BMECs) and rat cortical neurons following oxygen-glucose deprivation-reoxygenation (OGD/R). We found that non-specific inhibition of NOS in endothelial cells reduced ROS levels in BMECs but increased ROS levels in neurons under normoxia. This suggests that a pool of uncoupled NOS exists in the BMECs whereas the dominant functional NOS in neurons produces NO. We observed increased levels of ROS following OGD/R that is sensitive to NOS inhibition in both BMECs and neurons indicating eNOS and nNOS uncoupling during OGD/R. Furthermore, NOS inhibition reduced mitochondrial respiration while it improved cell survival rate in both BMECs and neurons following OGD/R. Thus, it is possible that decreased mitochondrial respiration in the immediate aftermath (4 hours) of OGD/R could be protective against reoxygenation injury. Moreover, we identified the expression of nNOS in BMECs from rat, human, and mouse. We observed that the nNOS in the BMECs constitutively produces superoxide under physiological conditions instead of NO. In contrast, nNOS in the neurons produces NO and doesn’t contribute to ROS. We also confirmed the nNOS expression and its function in freshly isolated rat brain microvessels. In addition, we developed a novel method to measure mitochondrial respiration in freshly isolated mouse brain microvessels using Seahorse XFe24 Analyzer. We validated the method by demonstrating impaired mitochondrial respiration in cerebral microvessels isolated from old mice compared to young mice. In summary, the present doctoral research investigated the distinct role of NOS isoforms in BMECs and Neurons leading to the identification of novel functional variant of nNOS in BMECs and brain microvessels. / 1 / RAMARAO SVNL
66

Theiler's virus-induced apoptosis in cerebrovascular endothelial cells.

Nayak, Mamatha Somanath 30 September 2004 (has links)
Theiler's murine encephalomyelitis virus (TMEV) is classified as a Cardiovirus in the Picornaviridae family. An enteric virus, TMEV, spreads within the mouse population by the fecal-oral route. The neurovirulent GDVII strain of Theiler's virus causes a fatal encephalitis in all strains of mice following intra-cranial infection of the virus. Persistent BeAn strain of Theiler's virus causes a demyelinating disease in susceptible strains of mice, which is similar to the human disease - Multiple Sclerosis (MS). Although a well-recognized model for MS, the route of entry of the virus into the central nervous system (CNS) following natural infection has not been well understood. One of the proposed portals of entry includes the blood-brain barrier (BBB). This report indicates the ability of both the neurovirulent and the persistent strains of Theiler's virus to induce apoptosis in the functional units of the BBB - the cerebrovascular endothelial cells (CVE) both in vitro and in vivo. Induction of apoptosis in CVE was demonstrated by Annexin staining, electron microscopy, DNA fragmentation assay, Hoechst staining and by caspase-3 staining. Corresponding to results by other authors, GDVII is a stronger inducer of apoptosis in CVE compared to BeAn. Induction of apoptosis is dependent on the MOI of the virus. UV-inactivated virus is not capable of inducing apoptosis and induction of apoptosis appears to be an internal event not requiring activation of death receptors. Determining the pathway of induction of apoptosis by TMEV in CVE indicated the involvement of a Ca2+ dependent pathway for apoptosis - the calpain pathway. Involvement of calpain in apoptosis has been reported in MS. Induction of apoptosis in CVE in vivo was also demonstrated following the intra-peritoneal inoculation of Theiler's virus. Induction of apoptosis in CVE following Theiler' virus infection could lead to a breach of the BBB and entry of inflammatory cells as well as virus into the central nervous system. This finding could aid understanding the neuropathogenesis of Theiler's virus.
67

Properties of Endothelium and its Importance in Endogenous and Transplanted Islets of Langerhans

Johansson, Åsa January 2009 (has links)
Transplantation of insulin producing cells is currently the only cure for type 1 diabetes. However, even though the Edmonton protocol markedly increased the success rate of pancreatic islet transplantation, the long term insulin independence is still very poor. An adequate engraftment is critical for islet graft survival and function. In the present thesis, isolated islet endothelial cells were found to have a low proliferatory and migratory capacity towards vascular endothelial growth factor (VEGF), but this could be reversed by using neutralizing antibodies to the angiostatic factors thrombospondin-1, endostatin or alpha1-antitrypsin. In the adult islet endothelial cell, VEGF may act as a permeability inducer more than an inducer of angiogenesis. p38 MAP kinase activity has been shown to serve as a switch between these properties of VEGF. Inhibition of p38 MAP kinase by daily injections of SB203580 in the early posttransplantation phase lead to a redistribution of the islet graft blood vessels from the stroma into the endocrine tissue and this was accompanied by a higher oxygen tension. Besides transports of oxygen and nutrients, beta-cells may require signals from the endothelial cells for their growth and differentiation. It was demonstrated that islet endothelial cells secrete factors, including laminin, that have positive effects on beta-cell insulin release and insulin content. Our results suggest that improved revascularization of transplanted islets may be achieved by either inhibition of angiostatic factors, or by blocking p38 MAPkinase activity, in the implanted tissue. Islet endothelial cells have a supportive paracrine role for beta-cells that might be hampered by the normally poor revascularization.
68

Invasive Character of Malignant Endothelial Cells in Vinyl-Chloride-Induced Liver Angiosarcoma

INAGAKI, TAKAO, MANO, HIROSHI, FUKUMURA, AKIRA, AOI, TSUNETO, SAKAMOTO, NOBUO, HAYASHI, HISAO 03 1900 (has links)
No description available.
69

Coating Collagen Modules with Fibronectin Increases in vivo HUVEC Survival and Vessel Formation through the Suppression of Apoptosis

Cooper, Thomas 13 January 2010 (has links)
Modular tissue engineering is a novel approach to creating scalable, self-assembling three-dimensional tissue constructs with inherent vascularisation. Under initial methods, the subcutaneous implantation of human umbilical vein endothelial cell (HUVEC)-covered collagen modules in immunocompromised mice resulted in significant host inflammation and limited HUVEC survival. Subsequently, a minimally-invasive injection technique was developed to minimize surgery-related inflammation, and cell death was attributed to extensive apoptosis within 72 hours of implantation. In confirmation of in vitro results, coating collagen modules with fibronectin (Fn) was shown in vivo to reduce short-term HUVEC apoptosis by nearly 40%, while increasing long-term HUVEC survival by 30% to 45%. Consequently, a 100% increase in the number of HUVEC-lined vessels was observed with Fn-coated modules, as compared to collagen-only modules, at 7 and 14 days post-implantation. Furthermore, vessels appeared to be perfused with host erythrocytes by day 7, and vessel maturation and stabilization was evident by day 14.
70

The Role of RELA (p65) in Regulation of NF-kappaB Homeostasis: Implications for Atherosclerosis

Wasal, Karanvir 04 January 2012 (has links)
The NF-κB/Rel family of transcription factors and IκB inhibitors play a key role in regulation of gene expression in inflammation and immunity. Previous studies from our laboratory suggested that steady-state levels of p65 and other NF-κB components in the normal mouse aorta determine the magnitude of NF-κB target gene expression in response to pro-inflammatory stimuli, however, the mechanism(s) by which steady-state levels of NF-κB components are set is not clear. This study aims at elucidating the mechanisms behind NF-κB homeostasis and how that affects atherosclerosis susceptibility. In HeLa cells and HUVEC, siRNA silencing of p65 correlated with reduced steady-state expression of a subset of NF-κB/Rel and IκB genes at the transcriptional and post-transcriptional levels, respectively, in addition to reducing TNFα-induced NF-κB/Rel and IκB gene expression. This correlation was also observed in atherosclerosis-susceptible mouse aortic endothelium suggesting the role of p65 in modulating NF-κB homeostasis and affecting atherosclerosis susceptibility.

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