916 resultados para RESTORES ENDOTHELIAL FUNCTION


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Introduction: The antihyperglycaemic agent metformin is widely used in the treatment of type 2 diabetes. Data from the UK Prospective Diabetes Study and retrospective analyses of large healthcare databases concur that metformin reduces the incidence of myocardial infarction and increases survival in these patients. This apparently vasoprotective effect appears to be independent of the blood glucose-lowering efficacy. Effects of metformin: Metformin has long been known to reduce the development of atherosclerotic lesions in animal models, and clinical studies have shown the drug to reduce surrogate measures such as carotid intima-media thickness. The anti-atherogenic effects of metformin include reductions in insulin resistance, hyperinsulinaemia and obesity. There may be modest favourable effects against dyslipidaemia, reductions in pro-inflammatory cytokines and monocyte adhesion molecules, and improved glycation status, benefiting endothelial function in the macro- and micro-vasculature. Additionally metformin exerts anti-thrombotic effects, contributing to overall reductions in athero-thrombotic risk in type 2 diabetic patients. © 2008 Springer Science+Business Media, LLC.

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Hypertension, a major risk factor in the cardiovascular system, is characterized by an increase in the arterial blood pressure. High dietary sodium is linked to multiple cardiovascular disorders including hypertension. Salt sensitivity, a measure of how the blood pressure responds to salt intake is observed in more than 50% of the hypertension cases. Nitric Oxide (NO), as an endogenous vasodilator serves many important biological roles in the cardiovascular physiology including blood pressure regulation. The physiological concentrations for NO bioactivity are reported to be in 0-500 nM range. Notably, the vascular response to NO is highly regulated within a small concentration spectrum. Hence, much uncertainty surrounds how NO modulates diverse signaling mechanisms to initiate vascular relaxation and alleviate hypertension. Regulating the availability of NO in the vasculature has demonstrated vasoprotective effects. In addition, modulating the NO release by different means has proved to restore endothelial function. In this study we addressed parameters that regulated NO release in the vasculature, in physiology and pathophysiology such as salt sensitive hypertension. We showed that, in the rat mesenteric arterioles, Ca2+ induced rapid relaxation (time constants 20.8 ± 2.2 sec) followed with a much slower constriction after subsequent removal of the stimulus (time constants 104.8 ± 10.0 sec). An interesting observation was that a fourfold increase in the Ca 2+ frequency improved the efficacy of arteriolar relaxation by 61.1%. Our results suggested that, Ca2+ frequency-dependent transient release of NO from the endothelium carried encoded information; which could be translated into different steady state vascular tone. Further, Agmatine, a metabolite of L-arginine, as a ligand, was observed to relax the mesenteric arterioles. These relaxations were NO-dependent and occurred via &agr;-2 receptor activity. The observed potency of agmatine (EC50, 138.7 ± 12.1 ± μM; n=22), was 40 fold higher than L-arginine itself (EC50, 18.3 ± 1.3 mM; n = 5). This suggested us to propose alternative parallel mechanism for L-arginine mediated vascular relaxation via arginine decarboxylase activity. In addition, the biomechanics of rat mesentery is important in regulation of vascular tone. We developed 2D finite element models that described the vascular mechanics of rat mesentery. With an inverse estimation approach, we identified the elasticity parameters characterizing alterations in normotensive and hypertensive Dahl rats. Our efforts were towards guiding current studies that optimized cardiovascular intervention and assisted in the development of new therapeutic strategies. These observations may have significant implications towards alternatives to present methods for NO delivery as a therapeutic target. Our work shall prove to be beneficial in assisting the delivery of NO in the vasculature thus minimizing the cardiovascular risk in handling abnormalities, such as hypertension.

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The walls of blood vessels are lined with a single-cell layer of endothelial cells. As blood flows through the arteries, a frictional force known as shear stress is sensed by mechanosensitive structures on the endothelium. Short and long term changes in shear stress can have a significant influence on the regulation of endothelial function. Acutely, shear stress triggers a pathway that culminates in the release of vasodilatory molecules from the endothelium and subsequent vasodilation of the artery. This endothelial response is known as flow mediated dilation (FMD). FMD is used as an index of endothelial function and is commonly assessed using reactive hyperemia (RH)-FMD, a method which elicits a large, short lived increase in shear stress following the release of a brief (5 min) forearm occlusion. A recent study found that a short term exposure (30 min) to a sustained elevation in shear stress potentiates subsequent RH-FMD. FMD can also result from a more prolonged, sustained increase in shear stress elicited by handgrip exercise (HGEX-FMD). There is evidence to suggest that interventions and conditions impact FMD resulting from sustained and transient shear stress stimuli differently, indicating that HGEX-FMD and RH-FMD provide different information about endothelial function. It is unknown whether HGEX-FMD is improved by short term exposure to shear stress. Understanding how exercise induced FMD is regulated is important because it contributes to blood flow responses during exercise. The study purpose was therefore to assess the impact of a handgrip exercise (intervention) induced sustained elevation in shear stress on subsequent brachial artery (BA) HGEX-FMD. Twenty healthy male participants (22±3yrs) preformed a 30-minute HGEX intervention on two experimental days. BA-FMD was assessed using either an RH or HGEX shear stress stimulus at 3 time points: pre-intervention, 10 min post and 60 min post. FMD and shear stress magnitude were determined via ultrasound. Both HGEX and RH-FMD increased significantly from pre-intervention to 10 min-post (p<0.01). These findings indicate that FMD stimulated by exercise induced increases in shear stress is potentiated by short term shear stress exposure. These findings advance our understanding regarding the regulation of endothelial function by shear stress.

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The endothelium is the inner most layer of cells that lines all arteries. A primary function of endothelial cells is to regulate responses to increased blood flow and the resulting frictional forces or shear stress by producing factors such as nitric oxide that mediate arterial dilation (flow mediated dilation (FMD)). Menstrual cycle variations in estrogen (E2) have been shown to influence brachial artery (BA) FMD in response to transient increases in shear stress brought about by the release of a brief forearm occlusion (reactive hyperemia (RH)). FMD can also be assessed in response to a sustained shear stress stimulus such as that created with handgrip exercise (HGEX), and studies have shown that RH- and HGEX stimulated FMD provide unique information regarding endothelial function. However, the impact of menstrual phase on HGEX-FMD is unknown. Therefore, the purpose of this study was to determine the impact of cyclical changes in E2 levels on HGEX-FMD over two discrete phases of the menstrual cycle. FMD was assessed via ultrasound. 12 subjects (21 ± 2yrs) completed two experimental visits: (1) low estrogen phase (early follicular) and (2) High estrogen phase (late follicular). In each visit both RH- and HGEX-FMD (6 min handgrip exercise) were assessed. Results are mean ± SD. E2 increased from the low to the high estrogen phase of the menstrual cycle (low: 34 ± 8, high: 161 ± 113pg/mL, p = 0.004). There was no change in mean FMD between phases (RH-FMD: 7.7 ± 4.3% vs. 6.4 ± 3.1%, p = 0.139; HGEX-FMD: 4.8 ± 2.8% vs. 4.8 ± 2.3%, p = 0.979). The observation that both RH- and HGEX-FMD did not differ between phases indicates that menstrual cycle fluctuations in estrogen may not universally impact endothelial function in young, healthy premenopausal women. Further research is needed to improve our understanding of the mechanisms that underlie variability in the impact of menstrual phase on both transient and sustained FMD responses.

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Suite à l’exposition à des facteurs de risque incluant la malnutrition, la dyslipidémie, la sédentarité et les désordres métaboliques, les maladies cardiovasculaires (MCV) sont caractérisées par un état pro-oxydant et pro-inflammatoire, et une dérégulation de l’expression de divers facteurs responsables de l’homéostasie de l’environnement rédox et inflammatoire. L’implication d’enzymes antioxydantes telles que les superoxyde dismutases (SOD) et les glutathion peroxydases (Gpx), ainsi que la contribution de médiateurs pro-inflammatoires tels que l’angiopoietin-like 2 (Angptl2) ont été rapportées dans le cadre des MCV. Toutefois, les mécanismes moléculaires sensibles aux facteurs de risque et menant au développement des MCV sont peu connus. L’épigénétique est un mécanisme de régulation de l’expression génique sensible aux stimuli extracellulaires et pourrait donc contribuer au développement des MCV. La méthylation de l’ADN est un des mécanismes épigénétiques pouvant varier tant de manière gène-spécifique qu’à l’échelle génomique, et la conséquence de tels changements sur l’expression des gènes ciblés dépend du site de méthylation. Puisqu’il a été démontré que des variations au niveau de la méthylation de l’ADN peuvent être associées à divers contextes pathologiques incluant les MCV, le but de nos travaux était d’étudier le lien entre la méthylation de gènes antioxydants et pro-inflammatoires avec leurs répercussions fonctionnelles biologiques en présence de facteurs de risques associés aux MCV, tels que le vieillissement, la dyslipidémie et la sédentarité. Dans la première étude, nous avons observé que dans l’artère fémorale de souris vieillissantes, la méthylation au niveau du promoteur du gène Sod2, codant pour l’enzyme antioxydante superoxyde dismutase de type 2 (SOD2 ou MnSOD), diminue avec l’âge. Ceci serait associé à l’induction de l’expression de MnSOD, renforçant ainsi la défense antioxydante endogène. Le vieillissement étant associé à une accumulation de la production de radicaux libres, nous avons étudié la vasodilatation dépendante de l’endothélium qui est sensible au stress oxydant. Nous avons observé que la capacité vasodilatatrice globale a été maintenue chez les souris âgées, aux dépens d’une diminution des facteurs hyperpolarisants dérivés de l’endothélium (EDHF) et d’une contribution accentuée de la voie du monoxyde d’azote (NO). Nous avons ensuite utilisé deux approches visant à réduire les niveaux de stress oxydant in vivo, soit la supplémentation avec un antioxydant, la catéchine, et l’exposition chronique à de l’exercice physique volontaire. Ces interventions ont permis de prévenir à la fois les changements au niveau de la fonction endothéliale et de l’hypométhylation de Sod2. Cette première étude démontre donc la sensibilité de la méthylation de l’ADN à l’environnement rédox. Dans la deuxième étude, nous avons démontré une régulation de l’expression de l’enzyme antioxydante glutathion peroxydase 1 (Gpx1) en lien avec la méthylation de son gène codant, Gpx1, dans un contexte de dyslipidémie sévère. Nos résultats démontrent que dans le muscle squelettique de souris transgéniques sévèrement dyslipidémiques (LDLr-/-; hApoB+/+), Gpx1 est hyperméthylé, ce qui diminue l’expression de Gpx1 et affaiblit la défense antioxydante endogène. Chez ces souris, l’exercice physique chronique a permis d’augmenter l’expression de Gpx1 en lien avec une hypométhylation transitoire de son gène. Cette étude démontre que le stress oxydant associé à la dyslipidémie sévère altère les mécanismes de défense antioxydante, en partie via un mécanisme épigénétique. De plus, on observe également que l’exercice physique permet de renverser ces effets et peut induire des changements épigénétiques, mais de manière transitoire. La troisième étude avait pour but d’étudier la régulation de l’Angptl2, une protéine circulante pro-inflammatoire, dans le contexte des MCV. Nous avons observé que chez des patients coronariens, la concentration circulante d’Angptl2 est significativement plus élevée que chez des sujets sains et ce, en lien avec une hypométhylation de son gène, ANGPTL2, mesurée dans les leucocytes circulants. Nous sommes les premiers à démontrer qu’en réponse à l’environnement pro-inflammatoire associé à une MCV, l’expression de l’Angptl2 est stimulée par un mécanisme épigénétique. Nos études ont permis d’identifier des nouvelles régions régulatrices différentiellement méthylées situées dans les gènes impliqués dans la défense antioxydante, soit Sod2 en lien avec le vieillissement et Gpx1 en lien avec la dyslipidémie et l’exercice. Nous avons également démontré un mécanisme de régulation de l’Angptl2 dépendant de la méthylation d’ANGPTL2 et ce, pour la première fois dans un contexte de MCV. Ces observations illustrent la nature dynamique de la régulation épigénétique par la méthylation de l’ADN en réponse aux stimuli environnementaux. Nos études contribuent ainsi à la compréhension et l’identification de mécanismes moléculaires impliqués dans le développement du phénotype pathologique suite à l’exposition aux facteurs de risque, ce qui ouvre la voie à de nouvelles approches thérapeutiques.

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Cardiovascular disease (CVD) is the biggest killer of people in western civilisation. Age is a significant risk factor for the development for CVD, and treatments and therapies to address this increased risk are crucial to quality of life and longevity. Exercise is one such intervention which has been shown to reduce CVD risk. Age is also associated with endothelial dysfunction, reduced angiogenic capabilities, and reduced ability to repair the vessel wall. Circulating angiogenic cells (CACs) are a subset of circulating cells which assist in the repair and growth of the vasculature and in the maintenance of endothelial function. Reductions in these cells are observed in those with vascular disease compared to age-matched healthy controls. Exercise may reduce CVD risk by improvements in number and/or function of these CACs. Data was collected from human volunteers of various ages, cardiorespiratory fitness (CRF) levels and latent viral infection history status to investigate the effects of chronological age, CRF, viral serology and other lifestyle factors, such as sedentary behaviours and exercise on CACs. The levels of CACs in these volunteers were measured using four colour flow cytometry using various monoclonal antibodies specific to cell surface markers that are used to identify specific subsets of these CACs. In addition, the response to acute exercise of a specific subset of these CACs, termed ‘angiogenic T-cells’ (TANG) were investigated, in a group of well-trained males aged 20-40 years, using a strenuous submaximal exercise bout. Advancing age was associated with a decline in various subsets of CACs, including bone marrow-derived CD34+ progenitors, putative endothelial progenitor cells (EPCs) and also TANG cells. Individuals with a higher CRF were more likely to have higher circulating numbers of TANG cells, particularly in the CD4+ subset. CRF did not appear to modulate CD34+ progenitors or EPC subsets. Increasing sitting time was associated with reduction in TANG cells, but after correcting for the effects of fitness, sitting time no longer negatively affected the circulating number of these cells. Acute exercise was a powerful stimulus for increasing the number of TANG cells (140% increase), potentially through an SDF-1:CXCR4-dependent mechanism, but more studies are required to investigate this. Latent CMV infection was associated with higher number of TANG cells (CD8+), but only in 18-40 year old individuals, and not in an older age group (41-65 year old). The significance of this has yet to be understood. In conclusion, advancing age may contribute to increased CVD risk partly due to the observed reductions in angiogenic cells circulating in the peripheral compartment. Maintaining a high CRF may attenuate this CVD reduction by modulating TANG cell number, but potentially not CD34+ progenitor or EPC subsets. Acute exercise may offer a short window for vascular adaptation through the mobilisation of TANG cells into the circulation.

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Chronic kidney disease (CKD) is associated with increased cardiovascular risk in comparison with the general population. This can be observed even in the early stages of CKD, and rises in proportion to the degree of renal impairment. Not only is cardiovascular disease (CVD) more prevalent in CKD, but its nature differs too, with an excess of morbidity and mortality associated with congestive cardiac failure, arrhythmia and sudden death, as well as the accelerated atherosclerosis which is also observed. Conventional cardiovascular risk factors such as hypertension, dyslipidaemia, obesity, glycaemia and smoking, are highly prevalent amongst patients with CKD, although in many of these examples the interaction between risk factor and disease differs from that which exists in normal renal function. Nevertheless, the extent of CVD cannot be fully explained by these conventional risk factors, and non-conventional factors specific to CKD are now recognised to contribute to the burden of CVD. Oxidative stress is a state characterised by excessive production of reactive oxygen species (ROS) and other radical species, a reduction in the capacity of antioxidant systems, and disturbance in normal redox homeostasis with depletion of protective vascular signalling molecules such as nitric oxide (NO). This results in oxidative damage to macromolecules such as lipids, proteins and DNA which can alter their functionality. Moreover, many enzymes are sensitive to redox regulation such that oxidative modification to cysteine thiol groups results in activation of signalling cascades which result in adverse cardiovascular effects such as vascular and endothelial dysfunction. Endothelial dysfunction and oxidative stress are present in association with many conventional cardiovascular risk factors, and can be observed even prior to the development of overt, clinical, vascular pathology, suggesting that these phenomena represent the earliest stages of CVD. In the presence of CKD, there is increased ROS production due to upregulated NADPH oxidase (NOX), increase in a circulating asymmetric dimethylarginine (ADMA), uncoupling of endothelial nitric oxide synthase (eNOS) as well as other mechanisms. There is also depletion in exogenous antioxidants such as ascorbic acid and tocopherol, and a reduction in activity of endogenous antioxidant systems regulated by the master gene regulator Nrf-2. In previous studies, circulating markers of oxidative stress have been shown to be increased in CKD, together with a reduction in endothelial function in a stepwise fashion relating to the severity of renal impairment. Not only is CVD linked to oxidative stress, but the progression of CKD itself is also in part dependent on redox sensitive mechanisms. For example, administration of the ROS scavenger tempol attenuates renal injury and reduces renal fibrosis seen on biopsy in a mouse model of CKD, whilst conversely, supplementation with the NOS inhibitor L-NAME causes proteinuria and renal impairment. Previous human studies examining the effect of antioxidant administration on vascular and renal function have been conflicting however. The work contained in this thesis therefore examines the effect of antioxidant administration on vascular and endothelial function in CKD. Firstly, 30 patients with CKD stages 3 – 5, and 20 matched hypertensive controls were recruited. Participants with CKD had lower ascorbic acid, higher TAP and ADMA, together with higher augmentation index and pulse wave velocity. There was no difference in baseline flow mediated dilatation (FMD) between groups. Intravenous ascorbic acid increased TAP and O2-, and reduced central BP and augmentation index in both groups, and lowered ADMA in the CKD group only. No effect on FMD was observed. The effects of ascorbic acid on kidney function was then investigated, however this was hindered by the inherent drawbacks of existing methods of non-invasively measuring kidney function. Arterial spin labelling MRI is an emerging imaging technique which allows measurement of renal perfusion without administration of an exogenous contrast agent. The technique relies upon application of an inversion pulse to blood within the vasculature proximal to the kidneys, which magnetically labels protons allowing measurement upon transit to the kidney. At the outset of this project local experience using ASL MRI was limited and there ensued a prolonged pre-clinical phase of testing with the aim of optimising imaging strategy. A study was then designed to investigate the repeatability of ASL MRI in a group of 12 healthy volunteers with normal renal function. The measured T1 longitudinal relaxation times and ASL MRI perfusion values were in keeping with those found in the literature; T1 time was 1376 ms in the cortex and 1491 ms in the whole kidney ROI, whilst perfusion was 321 mL/min/100g in the cortex, and 228 mL/min/100g in the whole kidney ROI. There was good reproducibility demonstrated on Bland Altman analysis, with a CVws was 9.2% for cortical perfusion and 7.1% for whole kidney perfusion. Subsequently, in a study of 17 patients with CKD and 24 healthy volunteers, the effects of ascorbic acid on renal perfusion was investigated. Although no change in renal perfusion was found following ascorbic acid, it was found that ASL MRI demonstrated significant differences between those with normal renal function and participants with CKD stages 3 – 5, with increased cortical and whole kidney T1, and reduced cortical and whole kidney perfusion. Interestingly, absolute perfusion showed a weak but significant correlation with progression of kidney disease over the preceding year. Ascorbic acid was therefore shown to have a significant effect on vascular biology both in CKD and in those with normal renal function, and to reduce ADMA only in patients with CKD. ASL MRI has shown promise as a non-invasive investigation of renal function and as a biomarker to identify individuals at high risk of progressive renal impairment.

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Suite à l’exposition à des facteurs de risque incluant la malnutrition, la dyslipidémie, la sédentarité et les désordres métaboliques, les maladies cardiovasculaires (MCV) sont caractérisées par un état pro-oxydant et pro-inflammatoire, et une dérégulation de l’expression de divers facteurs responsables de l’homéostasie de l’environnement rédox et inflammatoire. L’implication d’enzymes antioxydantes telles que les superoxyde dismutases (SOD) et les glutathion peroxydases (Gpx), ainsi que la contribution de médiateurs pro-inflammatoires tels que l’angiopoietin-like 2 (Angptl2) ont été rapportées dans le cadre des MCV. Toutefois, les mécanismes moléculaires sensibles aux facteurs de risque et menant au développement des MCV sont peu connus. L’épigénétique est un mécanisme de régulation de l’expression génique sensible aux stimuli extracellulaires et pourrait donc contribuer au développement des MCV. La méthylation de l’ADN est un des mécanismes épigénétiques pouvant varier tant de manière gène-spécifique qu’à l’échelle génomique, et la conséquence de tels changements sur l’expression des gènes ciblés dépend du site de méthylation. Puisqu’il a été démontré que des variations au niveau de la méthylation de l’ADN peuvent être associées à divers contextes pathologiques incluant les MCV, le but de nos travaux était d’étudier le lien entre la méthylation de gènes antioxydants et pro-inflammatoires avec leurs répercussions fonctionnelles biologiques en présence de facteurs de risques associés aux MCV, tels que le vieillissement, la dyslipidémie et la sédentarité. Dans la première étude, nous avons observé que dans l’artère fémorale de souris vieillissantes, la méthylation au niveau du promoteur du gène Sod2, codant pour l’enzyme antioxydante superoxyde dismutase de type 2 (SOD2 ou MnSOD), diminue avec l’âge. Ceci serait associé à l’induction de l’expression de MnSOD, renforçant ainsi la défense antioxydante endogène. Le vieillissement étant associé à une accumulation de la production de radicaux libres, nous avons étudié la vasodilatation dépendante de l’endothélium qui est sensible au stress oxydant. Nous avons observé que la capacité vasodilatatrice globale a été maintenue chez les souris âgées, aux dépens d’une diminution des facteurs hyperpolarisants dérivés de l’endothélium (EDHF) et d’une contribution accentuée de la voie du monoxyde d’azote (NO). Nous avons ensuite utilisé deux approches visant à réduire les niveaux de stress oxydant in vivo, soit la supplémentation avec un antioxydant, la catéchine, et l’exposition chronique à de l’exercice physique volontaire. Ces interventions ont permis de prévenir à la fois les changements au niveau de la fonction endothéliale et de l’hypométhylation de Sod2. Cette première étude démontre donc la sensibilité de la méthylation de l’ADN à l’environnement rédox. Dans la deuxième étude, nous avons démontré une régulation de l’expression de l’enzyme antioxydante glutathion peroxydase 1 (Gpx1) en lien avec la méthylation de son gène codant, Gpx1, dans un contexte de dyslipidémie sévère. Nos résultats démontrent que dans le muscle squelettique de souris transgéniques sévèrement dyslipidémiques (LDLr-/-; hApoB+/+), Gpx1 est hyperméthylé, ce qui diminue l’expression de Gpx1 et affaiblit la défense antioxydante endogène. Chez ces souris, l’exercice physique chronique a permis d’augmenter l’expression de Gpx1 en lien avec une hypométhylation transitoire de son gène. Cette étude démontre que le stress oxydant associé à la dyslipidémie sévère altère les mécanismes de défense antioxydante, en partie via un mécanisme épigénétique. De plus, on observe également que l’exercice physique permet de renverser ces effets et peut induire des changements épigénétiques, mais de manière transitoire. La troisième étude avait pour but d’étudier la régulation de l’Angptl2, une protéine circulante pro-inflammatoire, dans le contexte des MCV. Nous avons observé que chez des patients coronariens, la concentration circulante d’Angptl2 est significativement plus élevée que chez des sujets sains et ce, en lien avec une hypométhylation de son gène, ANGPTL2, mesurée dans les leucocytes circulants. Nous sommes les premiers à démontrer qu’en réponse à l’environnement pro-inflammatoire associé à une MCV, l’expression de l’Angptl2 est stimulée par un mécanisme épigénétique. Nos études ont permis d’identifier des nouvelles régions régulatrices différentiellement méthylées situées dans les gènes impliqués dans la défense antioxydante, soit Sod2 en lien avec le vieillissement et Gpx1 en lien avec la dyslipidémie et l’exercice. Nous avons également démontré un mécanisme de régulation de l’Angptl2 dépendant de la méthylation d’ANGPTL2 et ce, pour la première fois dans un contexte de MCV. Ces observations illustrent la nature dynamique de la régulation épigénétique par la méthylation de l’ADN en réponse aux stimuli environnementaux. Nos études contribuent ainsi à la compréhension et l’identification de mécanismes moléculaires impliqués dans le développement du phénotype pathologique suite à l’exposition aux facteurs de risque, ce qui ouvre la voie à de nouvelles approches thérapeutiques.

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Developing a robust method to study characteristics of vascular flow using ultrasound may be useful to assess endothelial function and vasodilatation. There are four stages in this proposal. 1.The first stage is to standardise and validate the methodology to enable computational risk flow data and other flow characteristics to be used clinically. (Current Study). Further development of fluid modelling methods will enable particulate haemodynamics to be investigated, and incorporate detailed endothelial structure together with cellular pathways. 2. This should be followed up by studies in different patient groups investigating the association between the derived values and estimated risk (using other methods such as Framingham risk score). 3. Then, associated with underlying cardiovascular risk, prospective studies would be made to establish whether computational flow dynamic data can predict outcome. If successful it could prove to be a very useful marker of benefit following treatment in a clinical setting.

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Hypertension, a major risk factor in the cardiovascular system, is characterized by an increase in the arterial blood pressure. High dietary sodium is linked to multiple cardiovascular disorders including hypertension. Salt sensitivity, a measure of how the blood pressure responds to salt intake is observed in more than 50% of the hypertension cases. Nitric Oxide (NO), as an endogenous vasodilator serves many important biological roles in the cardiovascular physiology including blood pressure regulation. The physiological concentrations for NO bioactivity are reported to be in 0-500 nM range. Notably, the vascular response to NO is highly regulated within a small concentration spectrum. Hence, much uncertainty surrounds how NO modulates diverse signaling mechanisms to initiate vascular relaxation and alleviate hypertension. Regulating the availability of NO in the vasculature has demonstrated vasoprotective effects. In addition, modulating the NO release by different means has proved to restore endothelial function. In this study we addressed parameters that regulated NO release in the vasculature, in physiology and pathophysiology such as salt sensitive hypertension. We showed that, in the rat mesenteric arterioles, Ca2+ induced rapid relaxation (time constants 20.8 ± 2.2 sec) followed with a much slower constriction after subsequent removal of the stimulus (time constants 104.8 ± 10.0 sec). An interesting observation was that a fourfold increase in the Ca2+ frequency improved the efficacy of arteriolar relaxation by 61.1%. Our results suggested that, Ca2+ frequency-dependent transient release of NO from the endothelium carried encoded information; which could be translated into different steady state vascular tone. Further, Agmatine, a metabolite of L-arginine, as a ligand, was observed to relax the mesenteric arterioles. These relaxations were NO-dependent and occurred via α-2 receptor activity. The observed potency of agmatine (EC50, 138.7 ± 12.1 µM; n=22), was 40 fold higher than L-arginine itself (EC50, 18.3 ± 1.3 mM; n = 5). This suggested us to propose alternative parallel mechanism for L-arginine mediated vascular relaxation via arginine decarboxylase activity. In addition, the biomechanics of rat mesentery is important in regulation of vascular tone. We developed 2D finite element models that described the vascular mechanics of rat mesentery. With an inverse estimation approach, we identified the elasticity parameters characterizing alterations in normotensive and hypertensive Dahl rats. Our efforts were towards guiding current studies that optimized cardiovascular intervention and assisted in the development of new therapeutic strategies. These observations may have significant implications towards alternatives to present methods for NO delivery as a therapeutic target. Our work shall prove to be beneficial in assisting the delivery of NO in the vasculature thus minimizing the cardiovascular risk in handling abnormalities, such as hypertension.

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Examining factors that affect vitamin D status in the fast-growing elderly population of Miami-Dade, Florida, is needed. Vitamin D deficiency in older adults has been linked to correlates of disability, including falls and fractures, and cardiovascular disease. The purpose of this study was to determine the proportion of vitamin D insufficient individuals and their relationship with vitamin D insufficiency in older adults (n=97) living in Miami-Dade. We evaluated the association between vitamin D status and 1) dual task physical performance to understand the link between vitamin D and cognition in the context of mobility; and 2) cardiometabolic risk, measured by galvanic skin response, pulse oximetry, and blood pressure to create a composite score based on autonomic nervous system and endothelial function. Participants completed baseline assessments that included serum levels of vitamin D, anthropometrics, body composition, dual task physical performance and cardiometabolic risk. Surveys to evaluate vitamin D intake, sun exposure, physical activity, and depressive symptoms were completed. Spearman’s correlations, independent t-tests, paired t-tests, repeated measures ANOVAs, and multiple logistic and linear regressions were used to examine the relationship of vitamin D insufficiency (25(OH)D /ml) and sufficiency (25(OH)D ≥30 ng/ml) with determinants of vitamin D status, dual task physical performance variables and cardiometabolic risk scores. Although the proportion of vitamin D insufficient individuals was lower when compared to the prevalance of the general United States elderly population, it was still common in healthy community-dwelling older adults living in Miami-Dade County, especially among Hispanics. Factors that affected skin synthesis (ethnicity, and sun exposure), and bioavailability/metabolism (obesity) were significant predictors of vitamin D status. Vitamin D insufficiency was not significantly correlated with worse dual task physical performance; however, cognitive performance was worse in the vitamin D insufficient group. Our results suggest a relationship of vitamin D insufficiency with executive dysfunction, and support an association with cardiometabolic risk using an innovative electro-sensor complex, possibly by modulating autonomic nervous system activity and vascular function, thus affecting cardiac performance.

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El objetivo del presente estudio fue cuantificar la contribución del sobrepeso en la magnitud de la lipemia posprandial en sujetos normolipídicos. Se incluyeron 33 adultos normolipídicos en dos grupos (n=20, sobrepeso y (n=13 eutróficos, 66% hombres, edad media 31,2±7,6 años). Se midió la vasodilatación mediada por flujo (VMF), la velocidad de onda de pulso (VOP), el perfil lipídico, el cociente Log TG/c-HDL, la glucosa y presión arterial tras una ingesta estándar con alto contenido de grasa (79% Kcal/grasa). Se calculó, el Z-score de riesgo cardiovascular a partir de la suma de los residuos tipificados (Z) de las variables de riesgo cardiovascular. El estado de lipemia posprandial se midió en ayuno (0 min) y a los (60, 120, 180, y 240 min) posprandiales. El valor basal de la VMF y la VOP fue de 6,9±5,9% y 7.0±0.8 m/s, respectivamente. Se identificó que la lipemia posprandial reducía la WMF en 19,2% a los 60 min (5,9±1,5%) y a los 240 min (3,7±1,2%) (p<0,04), respectivamente. Este hallazgo se acompañó con un aumento en la VOP (p<0,05). Al dividir los sujetos en dos grupos según el IMC, los participantes en sobrepeso muestran cifras más elevadas en el Z-score de riesgo cardiovascular, la VOP, el Log TG/c-HDL y el Δ-VOP, (p<0,001). En conclusión los sujetos clasificados en sobrepeso muestran un perfil cardiometabolico asociado con un mayor riesgo cardiovascular.

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Objectives: Aerobic exercise training has been established as an important nonpharmacological treatment for hypertension. We investigated whether the number and function of endothelial progenitor cells (EPCs) are restored after exercise training, potentially contributing to neovascularization in hypertension. Methods: Twelve-week-old male spontaneously hypertensive rats (SHRs, n = 14) and Wistar Kyoto (WKY, n = 14) rats were assigned to four groups: SHR; trained SHR (SHR-T); WKY; and trained WKY. Exercise training consisted of 10 weeks of swimming. EPC number and function, as well as the vascular endothelial growth factor (VEGF), nitrotyrosine and nitrite concentration in peripheral blood were quantified by fluorescence-activated cell sorter analysis (CD34+/Flk1+ cells), colony-forming unit assay, ELISA and nitric oxide (NO) analyzer, respectively. Soleus capillary/fiber ratio and protein expression of VEGF and endothelial NO synthase (eNOS) by western blot were assessed. Results: Exercise training was effective in reducing blood pressure in SHR-T accompanied by resting bradycardia, an increase in exercise tolerance, peak oxygen uptake (VO2) and citrate synthase activity. In response to hypertension, the amount of peripheral blood-EPC and number of colonies were decreased in comparison with control levels. In contrast, exercise training normalized the EPC levels and function in SHR-T accompanied by an increase in VEGF and NO levels. In addition, oxidative stress levels were normalized in SHR-T. Similar results were found in the number and function of bone marrow EPC. Exercise training repaired the peripheral capillary rarefaction in hypertension by a signaling pathway VEGF/eNOS-dependent in SHR-T. Moreover, improvement in EPC was significantly related to angiogenesis. Conclusion: Our data show that exercise training repairs the impairment of EPC in hypertension, which could be associated with peripheral revascularization, suggesting a mechanism for its potential therapeutic: application in vascular diseases.

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In the search for more efficacious and less toxic cancer drugs, the tumor suppressor p53 protein has long been a desirable therapeutic target. In the recent past, few independent studies have demonstrated that the antitumor activity of wild-type p53 can be restored in cancer cells harboring mutant form of p53 using small molecule activators. In this study, we describe a novel small molecule MPK-09, which is selective and highly potent against allele specific p53 mutations mainly, R175H, R249S, R273H, R273C, and E285K. Except E285K, all other mutations tested are among the six ``hot spot'' p53 mutations reported in majority of human cancer. Furthermore, our study conclusively demonstrates that the apoptotic activity of the small molecule MPK-09 against cancer cells harboring R273C and E285K mutations is due to restoration of the wild-type conformation to the corresponding mutant form of p53.