Global ETD Search

181	Participação da via de sinalização da beta-arrestina na produção de óxido nítrico induzido pelo shear stress / Beta-arrestin-mediated signal transduction participates in laminar shear stress-induced production of nitric oxide in endothelial cells Santos, Ana Paula Carneiro dos 30 January 2015 (has links) As células endoteliais são capazes de converter o estímulo mecânico em sinais intracelulares e produzir fatores vasoativos como o óxido nítrico (oNO). Evidências recentes sugerem que as beta-arrestinas desempenham um papel importante não somente na dessensibilização e internalização de receptores acoplados à proteína G (GPCR) como também na mecanotransdução. Nós testamos a hipótese de que células endoteliais submetidas ao shear stress (SS) produzem oNO por meio da ativação da via de sinalização dependente de beta-arrestina. Para tal, células endoteliais de veia safena (hSVEC) foram transfectadas com siRNA contra as isoformas 1 e 2 da beta-arrestina e, posteriormente, submetidas ao SS (15 dinas/cm2) durante 10 min. Nós encontramos que as SVEC silenciadas para a beta-arrestina 1/2 (70%) exibiram uma menor produção de nitrito no meio de cultura em resposta ao SS (166±17 vs. 326±44% comparado com hSVEC transfectadas com siRNA controle). Além disso, o silenciamento da beta-arrestina 1 e 2 preveniu os níveis de fosforilação da Akt no resíduo de serina 473 e a fosforilação da eNOS no resíduo de serina 1177, enquanto que a fosforilação da ERK 1/2 manteve-se inalterada. Curiosamente, análises de imunoprecipitação mostraram que a beta-arrestina interage com caveolina-1, um mecanossensor do shear stress, mas não é influenciado pelo SS. Além disso, na situação estática, a beta-arrestina encontra-se em uma localização perinuclear e, após o SS, adquiriu um padrão mais difuso no citosol. Coletivamente, esses dados sugerem que a beta-arrestina e a sinalização downstream Akt/ eNOS são necessárias para a produção de oNO induzido por shear stress em células endoteliais vasculares humana / Endothelial cells are capable of converting mechanical stimuli into intracellular signals generating vasoactive factors such as nitric oxide (oNO). Recent evidence suggests that beta-arrestins play a role not only on G protein-coupled receptors (GPCR) desensibilization but also in mechanotransduction. We tested the hypothesis that beta-arrestin and its downstream signaling influence laminar shear stress (SS)-induced oNO production by endothelial cells. Towards this end, human saphenous vein endothelial cells (hSVEC) transfected with siRNA against beta-arrestins isoforms 1 and 2 were subjected to SS (15 dynes/cm2, 10 minutes). We found that the SS-induced production of nitrite in the cell culture medium from down-expressed beta-arrestin 1/ 2 (70%) SVEC decreased (166±17 vs. 326±44% compared to wild-type hSVEC; P < 0.001). The beta-arrestin 1 and 2 down-regulation in SVEC also inhibited the phosphorylation levels of Akt at the serine residue 473 and the phosphorylation levels of eNOS at the serine residue 1177, whereas ERK phosphorylation remained unchanged. Interestingly, immunoprecipitation analysis showed that beta-arrestin interacts with caveolin-1, a shear stress mechanosensor, which is not influenced by SS despite the fact that the static perinuclear localization of beta-arrestins changed to the cytosol upon SS. Collective these data suggest that beta-arrestin and Akt/eNOS downstream signaling are required for shear stress-induced nitric oxide production in human vascular endothelial cells Arrestin Arrestina Células endoteliais Endotélio vascular Endothelial cells Estresse mecânico Mecanotransdução Mechanical stress mechanotransduction Nitric oxide Óxido nítrico Vascular endothelium
182	Efeitos do conjugado estrogênio eqüino (Premarin<font face=\"Symbol\">&#210) sobre o leito venular mesentérico de SHR ovariectomizadas: papel do endotélio. / Effect of conjugated equine estrogen (Premain<font face=\"Symbol\">Ò) on the mesenteric venular bed of ovariectomized SHR: role of endothelium. Priscila Xavier de Araujo 28 February 2012 (has links) Ainda existe controvérsia se a terapia hormonal estrogênica confere benefício ou dano cardiovascular. O dano potencial causado por doses padrão de estrogênio incluindo doença cardíaca coronariana e trombose venosa pode ser atenuada por uso de doses mais baixas. O objetivo deste estudo foi avaliar o efeito do tratamento com conjugado estrogênio equino, no leito mesentérico venular (LVM) de SHR ovariectomizadas (OVX), com dose padrão (SD) vs dose mínima (LD). Angiotensina II (AngII) foi perfundida de forma concentração-dependente. Hiperreatividade à Ang II, aumento na geração de EROS, redução da atividade da SOD e catalase e da biodisponibilidade do NO foram encontrados em OVX e SD vs controle e LD. Por outro lado, a resposta reduzida à AngII no LVM de ratas LD foi relacionado ao aumento da atividade da eNOS, redução na geração de EROS e aumento da expressão dos receptores AT2,ER<font face=\"Symbol\">α e GPR30. Sugerimos que a dose mínima tem efeito protetor sobre o LVM das OVX e que a dose SD pode aumentar o risco para a doença venular induzindo alterações na reatividade venular. / Controversy still exists whether estrogen hormonal therapy confers cardiovascular benefit or harm. The potential harm caused by standard dosages of estrogen including coronary heart disease and venous thrombosis may be mitigated by use of lower doses. The aim of this study was evaluated the effect of conjugated equine estrogen (CEE) treatment, in isolated mesenteric venular bed (MVB) of ovariectomized SHR (OVX), at standard therapeutic (SD) vs low dose (LD). Angiotensin II (Ang II) was perfused in a concentration-dependent manner. Hyperreactivity to Ang II,augmented ROS generation, reduced SOD, catalase activity and NO availability were found in OVX and SD vs. control and LD. However, the reduced MVB response to Ang II in LD rats was related to increased endothelial NO synthase activity, reduced ROS generation and increased Ang II AT2, ER<font face=\"Symbol\">α and GPR30 receptor expression. We suggest that CEE at a low dose has a protective effect in OVX mesenteric venular bed. The standard dose might increase the risk for venular disease by inducing alterations in venular reactivity. Angiotensina II Endotélio vascular Estresse oxidativo Estrógenos Óxido nítrico Veias Angiotensin II Estrogens Nitric oxide Oxidative stress Vascular endothelium Veins
183	Estudo da vasculopatia pulmonar no modelo experimental de esclerodermia induzido pelo colágeno do tipo V / Study of pulmonary vasculopathy in the collagen V-induced systemic sclerosis experimental model Roberta Gonçalves Marangoni 23 August 2011 (has links) A esclerodermia sistêmica (ES) é caracterizada por fibrose da pele e órgãos internos, ativação imunológica e vasculopatia. Os modelos animais de ES sofrem com a falta de uma prova definitiva para o envolvimento vascular observado na doença humana. Um novo modelo induzido por colágeno do tipo V (COLV) reproduz muitas características da ES como fibrose e fenômenos imunológicos. No entanto, o estudo da vasculopatia ainda não foi abordado. O objetivo desse estudo foi investigar as alterações estruturais e funcionais das células endoteliais das artérias pulmonares do modelo de ES induzido pelo COLV, assim como determinar a doença pulmonar com ênfase especial no depósito de colágeno e síntese de RNAm de colágenos. Coelhos fêmeas Nova Zelândia (n = 8) foram imunizados com COLV humano emulsificado em adjuvante de Freund ou apenas com adjuvante de Freund (controle; n = 8). Após 7, 75 e 210 dias, os animais foram sacrificados e os pulmões foram analisados por microscopia eletrônica, hematoxilina e eosina, e marcações especiais incluindo imunomarcação para neovascularização (CD31), apoptose de células endoteliais (induzida pela caspase-3) e atividade endotelial (endotelina-1 e VEGF). A resposta vascular a acetilcolina (Ach) foi estudada em anéis de artéria pulmonar isolada. Para determinar o conteúdo de colágeno, expressão RNAm dos colágenos I, III e V e quantidade de colágeno (hidroxiprolina aminoácido específico), os pulmões foram submetidos a imunofluorescência, PCR em tempo real e análise bioquímica. Foi observado que os coelhos imunizados com COLV apresentaram um aumento progressivo de apoptose e atividade das células endoteliais a partir de 7 dias quando comparados aos coelhos controle (p 0,01). Em contrapartida, apenas aos 210 dias os coelhos imunizados com COLV apresentaram aumento significativo na neovascularização quando comparados com o grupo controle (p < 0,001). Coincidente com esses achados, a microscopia eletrônica mostrou alterações das células endoteliais caracterizada por apoptose, alterações degenerativas das organelas e tumefação citoplasmática. As células endoteliais pareciam estar destacadas da membrana basal. Os coelhos imunizados com COLV de 210 dias necessitaram de uma dose maior de Ach do que os controles para alcançar o relaxamento máximo de 50% (EC50) dos anéis de artéria pulmonar (p = 0,02). Por fim, foi observado que os coelhos de 210 dias imunizados com COLV apresentaram uma intensa expressão de COLV no interstício broncovascular, acompanhado de um aumento na expressão do RNAm (p < 0,001) quando comparado ao grupo controle. Os coelhos imunizados com COLV apresentaram uma maior quantidade de conteúdo de colágeno, quando comparados com os controles, nos diferentes tempos estudados (p < 0,01). Este estudo fornece evidência para a disfunção pulmonar do endotélio vascular em coelhos com ES induzida pelo COLV. As alterações observadas, nesse estudo, reforçam o papel do endotélio como evento patogênico primário na ES. Desta forma, o modelo ES induzido pelo COLV pode fornecer informações importantes sobre a patogênese da doença humana / The hallmarks of systemic sclerosis (SSc) are fibrosis of skin and internal organs, immune activity and vasculopathy. Animal models of SSc suffer from lack of a definitive evidence for vascular involvement observed in human disease. A novel model induced by collagen type V (COLV) reproduces many features of SSc, however vascular study has not been addressed. The aim of the present study was therefore evaluate pulmonary arteries for structural and functional alterations in endothelial cells in the COLV-induced SSc model, as well as determine the lung disease with special emphasis on collagen deposition and mRNA collagen synthesis. Female New Zealand rabbits (n = 8) were immunized with human COLV/Freund´s adjuvant or Freund´s adjuvant alone (control; n = 8). After 7, 75 and 210 days, the animals were sacrificed and the lungs were examined by electron microscopy, hematoxylin&eosin and special stains including immunostaining for neovascularization (CD31), endothelial cells apoptosis (caspase-3 induced) and endothelial activity (endothelin-1 and VEGF). Vascular response to acetylcholine (Ach) on isolated pulmonary artery rings was evaluated. To determine collagen content, mRNA expressions of COL I, III and V, and the quantity of collagen-specific amino acid hydroxyproline, the lungs were submitted to immunofluorescence, real-time qPCR and biochemical examination. The COLV rabbits demonstrated an endothelial cells apoptosis and activity compared to control rabbits starting at day-7 (p 0.01). A significant increase in neovascularization was observed only in the COLV-rabbits at day-210 (p < 0,001). Coincident with these findings, the electron microscopy revealed extensive endothelial cells abnormalities characterized by apoptosis, degenerative organelle changes and cytoplasmic tumefaction. Endothelial cells appeared to be detached from the basement membrane. Ach dose required to achieve 50% maximum relaxation (EC50) of pulmonary artery rings was increased in COLV rabbits at day-210 (p = 0.02). The content of hydroxyproline was increased in COLV rabbits compared with that observed in control rabbits, at the different days studied (p < 0,01). Ultimately, the COLV rabbits at 210-day showed an intense expression of COLV in the bronchovascular interstitium, followed by a markedly up-regulation of COLV mRNA (p < 0.001) as compared to controls. This study provides evidence for pulmonary vascular endothelial cell dysfunction in rabbits with COLV-induced SSc. The findings of this study reinforce the role of endothelial cells as a primary pathogenic event in SSc. The COLV model may provide insight into the pathogenesis of human disease Colágeno tipo V Endotélio vascular Escleroderma sistêmico Modelos animais Pulmão Collagen type V Lung Models animal Scleroderma systemic Vascular endothelium
184	Oxidative stress and cyclo-oxygenase-2 mediate endothelial dysfunction in diabetes and hypertension. / CUHK electronic theses & dissertations collection January 2009 (has links) Wong, Wing Tak Jack. / Thesis (Ph.D.)--Chinese University of Hong Kong, 2009. / Includes bibliographical references (leaves 204-227). / Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Abstract also in Chinese. Cyclooxygenase 2 Diabetes--Pathophysiology Hypertension--Pathophysiology Vascular endothelium--Pathophysiology Cyclooxygenase 2 Diabetes Mellitus--physiopathology Endothelium, Vascular--physiopathology Hypertension--physiopathology
185	Efeitos do conjugado estrogênio eqüino (Premarin<font face=\"Symbol\">&#210) sobre o leito venular mesentérico de SHR ovariectomizadas: papel do endotélio. / Effect of conjugated equine estrogen (Premain<font face=\"Symbol\">Ò) on the mesenteric venular bed of ovariectomized SHR: role of endothelium. Araujo, Priscila Xavier de 28 February 2012 (has links) Ainda existe controvérsia se a terapia hormonal estrogênica confere benefício ou dano cardiovascular. O dano potencial causado por doses padrão de estrogênio incluindo doença cardíaca coronariana e trombose venosa pode ser atenuada por uso de doses mais baixas. O objetivo deste estudo foi avaliar o efeito do tratamento com conjugado estrogênio equino, no leito mesentérico venular (LVM) de SHR ovariectomizadas (OVX), com dose padrão (SD) vs dose mínima (LD). Angiotensina II (AngII) foi perfundida de forma concentração-dependente. Hiperreatividade à Ang II, aumento na geração de EROS, redução da atividade da SOD e catalase e da biodisponibilidade do NO foram encontrados em OVX e SD vs controle e LD. Por outro lado, a resposta reduzida à AngII no LVM de ratas LD foi relacionado ao aumento da atividade da eNOS, redução na geração de EROS e aumento da expressão dos receptores AT2,ER<font face=\"Symbol\">α e GPR30. Sugerimos que a dose mínima tem efeito protetor sobre o LVM das OVX e que a dose SD pode aumentar o risco para a doença venular induzindo alterações na reatividade venular. / Controversy still exists whether estrogen hormonal therapy confers cardiovascular benefit or harm. The potential harm caused by standard dosages of estrogen including coronary heart disease and venous thrombosis may be mitigated by use of lower doses. The aim of this study was evaluated the effect of conjugated equine estrogen (CEE) treatment, in isolated mesenteric venular bed (MVB) of ovariectomized SHR (OVX), at standard therapeutic (SD) vs low dose (LD). Angiotensin II (Ang II) was perfused in a concentration-dependent manner. Hyperreactivity to Ang II,augmented ROS generation, reduced SOD, catalase activity and NO availability were found in OVX and SD vs. control and LD. However, the reduced MVB response to Ang II in LD rats was related to increased endothelial NO synthase activity, reduced ROS generation and increased Ang II AT2, ER<font face=\"Symbol\">α and GPR30 receptor expression. We suggest that CEE at a low dose has a protective effect in OVX mesenteric venular bed. The standard dose might increase the risk for venular disease by inducing alterations in venular reactivity. Angiotensin II Angiotensina II Endotélio vascular Estresse oxidativo Estrógenos Estrogens Nitric oxide Oxidative stress Óxido nítrico Vascular endothelium Veias Veins
186	Primary Hyperparathyroidism : A Study of Cardiovascular Dysfunction and its Reversibility After Parathyroidectomy Nilsson, Inga-Lena January 2001 (has links) <p>Cardiovascular risk in primary hyperparathyroidism (HPT) is controversial, and studies mainly from Europe associate HPT with increased cardiovascular morbidity and mortality. Cardiovascular morphology and function were evaluated prospectively in 31 consecutive HPT patients (mean serum calcium 2.97±0.04) and randomly enrolled controls matched for age and sex. Patients were re-examined at normocalcemia about one year after parathyroidectomy. </p><p>HPT patients showed an operatively reversible disturbance in endothelial vasodilatory function that seemed unrelated to an early sign of atherosclerosis, i.e. thickness of carotid artery intima-media complex. Acute hypercalcemia in healthy subjects induced a similar impairment in endothelial function, which suggests a dependence on biochemical rather than structural vascular changes in HPT. Echocardiography showed left ventricular diastolic dysfunction and supernormal systolic performance being reversed after operation. Left ventricular mass tended to be irreversibly increased. During exercise HPT patients exhibited greater rise in systolic blood pressure compared to controls and an increased number of premature ventricular beats. This indicated increased work load and a propensity for fatal cardiac events. Following surgery, an improvement with less pronounced ST-segment depression was seen. 24-hour ambulatory blood pressure monitoring showed irreversibly increased levels despite maintained diurnal rhythm, while 24-hour heart rate variability analysis displayed blunted nocturnal increase of low and very low frequency bands that was corrected postoperatively. </p><p>Parathyroidectomy seems to alleviate most of the cardiovascular disturbances in HPT, except for hypertension. This is consistent with the normalised longevity in HPT treated with parathyroidectomy and supports active treatment of HPT. </p> Medical sciences primary hyperparathyroidism vascular endothelium heart heart rate variability blood pressure parathyroidectomy calcium parathyroid hormone MEDICIN OCH VÅRD MEDICINE MEDICIN
187	Primary Hyperparathyroidism : A Study of Cardiovascular Dysfunction and its Reversibility After Parathyroidectomy Nilsson, Inga-Lena January 2001 (has links) Cardiovascular risk in primary hyperparathyroidism (HPT) is controversial, and studies mainly from Europe associate HPT with increased cardiovascular morbidity and mortality. Cardiovascular morphology and function were evaluated prospectively in 31 consecutive HPT patients (mean serum calcium 2.97±0.04) and randomly enrolled controls matched for age and sex. Patients were re-examined at normocalcemia about one year after parathyroidectomy. HPT patients showed an operatively reversible disturbance in endothelial vasodilatory function that seemed unrelated to an early sign of atherosclerosis, i.e. thickness of carotid artery intima-media complex. Acute hypercalcemia in healthy subjects induced a similar impairment in endothelial function, which suggests a dependence on biochemical rather than structural vascular changes in HPT. Echocardiography showed left ventricular diastolic dysfunction and supernormal systolic performance being reversed after operation. Left ventricular mass tended to be irreversibly increased. During exercise HPT patients exhibited greater rise in systolic blood pressure compared to controls and an increased number of premature ventricular beats. This indicated increased work load and a propensity for fatal cardiac events. Following surgery, an improvement with less pronounced ST-segment depression was seen. 24-hour ambulatory blood pressure monitoring showed irreversibly increased levels despite maintained diurnal rhythm, while 24-hour heart rate variability analysis displayed blunted nocturnal increase of low and very low frequency bands that was corrected postoperatively. Parathyroidectomy seems to alleviate most of the cardiovascular disturbances in HPT, except for hypertension. This is consistent with the normalised longevity in HPT treated with parathyroidectomy and supports active treatment of HPT. Medical sciences primary hyperparathyroidism vascular endothelium heart heart rate variability blood pressure parathyroidectomy calcium parathyroid hormone MEDICIN OCH VÅRD MEDICINE MEDICIN
188	Discovery of shear- and side-dependent messenger RNAs and microRNAs in aortic valvular endothelium Holliday, Casey Jane 06 January 2012 (has links) Aortic valve (AV) disease is a major cause of cardiovascular-linked deaths globally. In addition, AV disease is a strong risk factor for additional cardiovascular events; however, the mechanism by which it initiates and progresses is not well-understood. We hypothesize that low and oscillatory flow is present on the fibrosa side of the AV and stimulates ECs to differentially regulate microRNA (miRNA) and mRNAs and influence AV disease progression. This hypothesis was tested employing both in vitro and in vivo approaches, high throughput microarray and pathway analyses, as well as a variety of functional assays. First, we isolated and characterized side-dependent, human aortic valvular endothelial cells (HAVECs). We found that HAVECs express both endothelial cell markers (VE-Cadherin, vWF, and PECAM) as well as smooth muscle cell markers (SMA and basic calponin). Using microarray analysis on sheared, side-specific HAVECs, we identified side- and shear-induced changes in miRNA and mRNA expression profiles. More specifically, we identified over 1000 shear-responsive mRNAs which showed robust validation (93% of those tested). We then used Ingenuity Pathway Analysis to identify key miRNAs, including those with many relationships to other genes (for example, thrombospondin and I&B) and those that are members of over-represented pathways and processes (for example, sulfur metabolism). Furthermore, we validated five shear-sensitive miRNAs: miR-139-3p, miR-148a, miR-187, miR-192, and miR-486-5p and one side-dependent miRNA, miR-370. To prioritize these miRNAs, we performed in silico analysis to group these key miRNAs by cellular functions related to AV disease (including tissue remodeling, inflammation, and calcification). Next, to compare our in vitro HAVEC results in vivo, we developed a method to isolate endothelial-enriched, side-dependent total RNA and identify and validate side-dependent (fibrosa vs. ventricularis) miRNAs in porcine aortic valvular endothelium. From this analysis, we discovered and validated eight side-dependent miRNAs in porcine endothelial-enriched AV RNA, including one miRNA previously identified in vitro, miR-486-5p. Lastly, we determined the relationship between important miRNAs (specifically miR-187 and miR-486-5p) and AV disease by modulating levels of miRNAs and performing functional assays. Preliminary studies overexpressing miR-187 in HAVECs have shown a reduction in inflammatory state through monocyte adhesion (p<0.05). Further, miR-486-5p overexpression reveals an increase in migration (p<0.05) and a trend for a decrease in early apoptosis, linking miR-486-5p to tissue remodeling in the AV. Better understanding of AV biology and disease in terms of gene-regulation under different hemodynamic conditions will facilitate the design of a tissue-engineered valve and provide alternative treatment options. Aortic valve Endothelium MicroRNAs Shear stress Microarrays MRNAs Aortic valve Diseases Aortic valve Stenosis Messenger RNA Vascular endothelium
189	Regulation of Cytokine-Induced Adhesion Molecule Expression and Sickle Erythrocyte Adhesion to Microvascular Endothelial Cells by Intracellular Adenosine 3',5'-Cyclic Monophosphate and Nitric Oxide Amos, Amanda Owings 05 April 2006 (has links) Adhesion of sickle erythrocytes to vascular endothelium may initiate or propagate occlusive events in sickle cell anemia, many of which are accompanied by infection and the associated inflammatory response. Inflammatory markers are also present in sickle patients during asymptomatic periods. Inflammatory cytokines upregulate expression of endothelial adhesion molecules that promote adhesion of sickle erythrocytes. The data in this work demonstrate that after 2 hrs of stimulation with the cytokine TNF- and alpha;, E-selectin, but not VCAM-1 is upregulated on human dermal microvascular endothelial cells. After 6 hrs of TNF- and alpha; stimulation, both VCAM-1 and E-selectin expression are upregulated on MECs, and sickle erythrocytes bind to both receptors. Because strategies to control inflammation-associated adhesion in vivo may need to account for both VCAM-1 and E-selectin mediated events, control of intracellular signaling pathways leading to receptor expression is an attractive strategy for inhibiting adhesion. Cyclic AMP and nitric oxide are two intracellular signaling molecules important to cytokine-induced receptor expression. The data in this work demonstrate that TNF- and alpha; induced VCAM-1 and E-selectin expression on endothelial cells and sickle erythrocyte adhesion are abated by increasing endothelial cyclic AMP concentrations using Forskolin, IBMX, or Bt2cAMP. Conversely, when sickle erythrocytes, rather than endothelial cells, are treated with reagents that increase intracellular cAMP, adhesion to unstimulated endothelial cells is increased in some patients. Treatment of endothelial cells with reagents such as SNP and DETA-NO that increase nitric oxide significantly inhibits VCAM-1, but not E-selectin expression, induced by TNF- and alpha; stimulation and significantly inhibits sickle erythrocyte adhesion. Treatment of sickle erythrocytes directly with these reagents may also inhibit adhesion. Together these data suggest that cAMP- and nitric oxide-dependent signaling are useful therapeutic targets to inhibit cytokine-induced sickle erythrocyte adhesion to endothelium. Cyclic AMP Adhesion Sickle cell anemia Nitric oxide Inflammation Vascular endothelium Cytokines Erythrocytes Sickle cell anemia Cell adhesion molecules
190	Discovery of mechanosensitive microrna and messenger RNA in mouse arterial endothelium and in cultured endothelial cells Ni, Chih-Wen 11 June 2010 (has links) Atherosclerosis is a major contributor to cardiovascular disease and accounts for an estimated one third of deaths overall. In order to address the hemodynamic components of disease pathogenesis, researchers have focused on mechanotransduction of flow-dependent shear stress in the vascular endothelium as a source of novel pathological mechanisms. Understanding how unidirectional, laminar blood flow protects vessels from atherogenesis, while disturbed, oscillatory blood flow promotes it, stands to provide enormous insight into disease pathogenesis and may provide powerful, specific new therapies for cardiovascular disease intervention. The overall objective of this dissertation was to determine which microRNAs (miRNAs) and mRNAs are regulated by different flow conditions in vascular endothelial cells in vitro and in mouse carotid artery endothelium in vivo, and to identify which miRNAs mediate flow-dependent vascular inflammation. The overall hypothesis of this project was that oscillatory shear (OS) and laminar shear (LS) stress differentially alter the expression of mechanosensitive miRNAs each capable of regulating complex networks of gene expression, which in turn leads to inflammation in endothelial cells. This hypothesis was tested using both in vitro and in vivo approaches, high throughput microarray analyses, and functional validation of specific targets by PCR. The findings from the partial carotid ligation model show that acute exposure to disturbed flow results in accelerated endothelial dysfunction and atherosclerosis in vivo. High-throughput microarrays reveal distinct expression profiles of both miRNAs and mRNAs in mouse endothelium exposed to disturbed flow suggesting the regulatory mechanisms by which miRNAs regulate mRNAs resulting in EC inflammation, the earliest stage of atherosclerosis. This in vivo study provides new insight into the mechanisms of flow induced atherosclerosis. In particular, the upregulation of miR-663 due to OS in HUVEC causes monocyte adhesion, but not endothelial apoptosis, in an ICAM-1 dependent manner. miR-663 regulates a group of genes including transcriptional factors and inflammatory genes which may also mediate OS-induced EC inflammation. Collectively, revealing the profiles of miRNAs and mRNAs regulated by hemodynamic flow provides a better understanding in vascular diseases and provide potential target for developing effective preventative therapeutic approaches in cardiovascular diseases. MiRNA IMAEC Atherosclerosis Shear stress Endothelial cell Endothelium Vascular endothelium Cardiovascular system Diseases Cardiovascular system Diseases Diagnosis

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