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Query: UMLS:C0004153 (
atherosclerosis
)
77,401
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
NO (nitric oxide), formed in the vascular endothelium and derived from a biochemical reaction catalysed by
eNOS
(endothelial NO synthase), appears to play a role in exercise-induced dilation of blood vessels supplying cardiac and skeletal muscle. Endothelium-dependent, NO-mediated vasodilation is augmented by exercise training. Increases in
eNOS
gene transcription,
eNOS
mRNA stability and
eNOS
protein translation appear to contribute to increased NO formation and, consequently, enhanced NO-mediated vasodilation after training. Enhanced endothelial NO formation may also have a role(s) in the prevention and management of
atherosclerosis
because several steps in the atherosclerotic disease process are inhibited by NO. A growing body of work suggests that exercise training, perhaps via increased capacity for NO formation, retards
atherosclerosis
. This has significant implications for human health, given that
atherosclerosis
is the leading killer in Western society.
...
PMID:Vascular nitric oxide: effects of physical activity, importance for health. 1714 84
Endothelial dysfunction has been identified as a major mechanism involved in all the stages of atherogenesis. Evaluation of endothelial function seems to have a predictive role in humans, and therapeutic interventions improving nitric oxide bioavailability in the vasculature may improve the long-term outcome in healthy individuals, high-risk subjects, or patients with advanced
atherosclerosis
. Several therapeutic strategies are now available, targeting both the synthesis and oxidative inactivation of nitric oxide (NO) in human vasculature. Statins seem to be currently the most powerful category of these agents, improving endothelial function and decreasing cardiovascular risk after long-term administration. Other cardiovascular agents improving endothelial function in humans are angiotensin-converting enzyme inhibitors/angiotensin receptors blockers, which increase NO bioavailability by modifying the rennin-angiotensin-aldosterone system. Newer therapeutic approaches targeting endothelial dysfunction in specific disease states include insulin sensitizers, L-arginine (the substrate for endothelial NO synthase [
eNOS
]) as well as substances that target
eNOS
"coupling," such as folates or tetrahydrobiopterin. Although there are a variety of strategies to improve NO bioavailability in human endothelium, it is still unclear whether they have any direct benefit at a clinical level.
...
PMID:Novel therapies targeting vascular endothelium. 1716 73
Danshen, the dried root of Salvia miltiorrhiza Bunge (Lamiaceae), is one of the most commonly used traditional Chinese medicines for cardiovascular indications. In EA.hy 926 cells, a cell line derived from human umbilical vein endothelial cells (HUVEC), an aqueous extract of danshen, and also a methanol extract of the plant, increased
eNOS
promoter activity,
eNOS
mRNA and protein expression, as well as endothelial NO production. A dichloromethane extract, in contrast, did not change
eNOS
gene expression. Thus, the active danshen constituent(s) responsible for
eNOS
upregulation is (are) hydrophilic and/or alcohol-soluble. One such compound is ursolic acid that significantly increased
eNOS
expression in EA.hy 926 cells and native HUVEC, and enhanced bioactive NO production measured in terms of its cGMP increasing activity. Other tested hydrophilic and alcohol-soluble compounds isolated from danshen had no effect on
eNOS
expression. Interestingly, ursolic acid also reduced the expression of the NADPH oxidase subunit Nox4 and suppressed the production of reactive oxygen species in human endothelial cells. Upregulation of
eNOS
and a parallel downregulation of Nox4 lead to an increase in bioactive NO. This in turn could mediate some of the beneficial effects of danshen. Ursolic acid is a prototypical compound responsible for this effect of the plant.
Atherosclerosis
2007 Nov
PMID:Ursolic acid from the Chinese herb danshen (Salvia miltiorrhiza L.) upregulates eNOS and downregulates Nox4 expression in human endothelial cells. 1748 37
LCY-2-CHO has anti-inflammatory actions on macrophages. To understand its therapeutic implication in
atherosclerosis
, we examined its effects on the expressions of anti-inflammatory and inflammatory proteins in cultured rat aortic vascular smooth muscle cells (VSMC). LCY-2-CHO is able to induce heme oxygenase-1 (HO-1) protein expression through a transcriptional action. The HO-1 inducting effect of LCY-2-CHO was inhibited by SB203580, N(G)-nitro-l-arginine methylester (l-NAME), and wortmannin, but was not affected by U0126 or SP600125. In accordance LCY-2-CHO increased protein phosphorylation of p38, Akt, and
eNOS
. Nrf2 is a transcription factor essential for HO-1 gene induction and we showed that LCY-2-CHO is able to cause Nrf2 nuclear translocation and this action depends on p38, Akt and
eNOS
. In addition to induce anti-inflammatory HO-1, LCY-2-CHO reduced interleukin-1beta (IL-1beta)-induced inflammatory mediators, inducible nitric oxide synthase (iNOS), cyclooxygenase-2 (COX-2), growth-related oncogene protein-alpha (GRO-alpha), and interleukin-8 (IL-8). Inhibitory effect on IL-1beta-mediated NF-kappaB activation was evidenced by the diminishment of IkappaB kinase (IKK) phosphorylation and IkappaBalpha degradation. In contrast, IL-1beta-mediated ERK and JNK activations were not changed by LCY-2-CHO, while p38 activation by IL-1beta and LCY-2-CHO displayed the non-additivity. Taken together, given the overall anti-inflammatory properties of LCY-2-CHO in VSMC, in terms to induce HO-1 gene expression and inhibit inflammatory gene expression, these results highlight the therapeutic potential of LCY-2-CHO in
atherosclerosis
.
...
PMID:The anti-inflammatory actions of LCY-2-CHO, a carbazole analogue, in vascular smooth muscle cells. 1749 20
NO produced by
eNOS
(endothelial nitric oxide synthase) is a key mediator of vascular homoeostasis. NO bioavailability is reduced early in vascular disease states, such as hypercholesterolaemia, diabetes and hypertension, and throughout the progression of
atherosclerosis
. This is a result of both reduced NO synthesis and increased NO consumption by reactive oxygen species.
eNOS
enzymatic activity appears to be determined by the availability of its cofactor BH4 (tetrahydrobiopterin). When BH4 levels are adequate,
eNOS
produces NO; when BH4 levels are limiting,
eNOS
becomes enzymatically uncoupled and generates superoxide, contributing to vascular oxidative stress and endothelial dysfunction. BH4 bioavailability is determined by a balance of enzymatic de novo synthesis and recycling, versus oxidative degradation in dysfunctional endothelium. Augmenting vascular BH4 levels by pharmacological supplementation, by enhancing the rate of de novo biosynthesis or by measures to reduce BH4 oxidation have been shown in experimental studies to enhance NO bioavailability. Thus BH4 represents a potential therapeutic target for preserving
eNOS
function in vascular disease.
...
PMID:Mechanisms for the role of tetrahydrobiopterin in endothelial function and vascular disease. 1755 4
Among the early events associated with atherosclerotic lesion development are increased macromolecular permeability of the endothelium and expression of genes that affect inflammation and oxidative state. The purpose of this study was to measure the expression of several
atherosclerosis
-related genes in endothelial cells scraped from arch and thoracic regions of the porcine aorta exhibiting elevated permeability. Aortae were collected from six swine that were exposed to circulating Evans blue dye (EBD), a marker of transendothelial albumin permeability. Endothelial cells were scraped from (1) white regions in the thoracic aorta, (2) light blue streaks and blue regions near ostia in the thoracic aorta, and (3) dark blue regions in the aortic arch. Expression levels of several genes were analyzed by real-time quantitative PCR. There were modest differences between the expression levels of several genes in cells from the light blue regions relative to those from white regions. In the dark blue regions,
eNOS
was drastically downregulated and MCP-1 was upregulated relative to their expression in both the white and light blue regions. The distinct levels of permeability and differences in gene expression profiles exhibited by cells from these different regions of the aorta may reflect corresponding differences in their hemodynamic environments.
Atherosclerosis
2007 Dec
PMID:Distinct profiles of endothelial gene expression in hyperpermeable regions of the porcine aortic arch and thoracic aorta. 1758 85
PEDF is an effective inhibitor of angiogenesis in the eye with neuronal differentiating activity. Here, we show that PEDF prevents the AGEs-elicited
eNOS
reduction through its anti-oxidative properties. Our present study suggests that PEDF may also play a protective role against
atherosclerosis
.
...
PMID:Pigment epithelium-derived factor (PEDF) prevents advanced glycation end products (AGEs)-elicited endothelial nitric oxide synthase (eNOS) reduction through its anti-oxidative properties. 1797 28
The Akt signaling pathway controls several cellular functions in the cardiovascular system; however, its role in atherogenesis is unknown. Here, we show that the genetic ablation of Akt1 on an apolipoprotein E knockout background (ApoE(-/-)Akt1(-/-)) increases aortic lesion expansion and promotes coronary
atherosclerosis
. Mechanistically, lesion formation is due to the enhanced expression of proinflammatory genes and endothelial cell and macrophage apoptosis. Bone marrow transfer experiments showing that macrophages from ApoE(-/-)Akt1(-/-) donors were not sufficient to worsen atherogenesis when transferred to ApoE(-/-) recipients suggest that lesion expansion in the ApoE(-/-)Akt1(-/-) strain might be of vascular origin. In the vessel wall, the loss of Akt1 increases inflammatory mediators and reduces
eNOS
phosphorylation, suggesting that Akt1 exerts vascular protection against atherogenesis. The presence of coronary lesions in ApoE(-/-)Akt1(-/-) mice provides a new model for studying the mechanisms of acute coronary syndrome in humans.
...
PMID:Loss of Akt1 leads to severe atherosclerosis and occlusive coronary artery disease. 1805 14
Insulin resistance, as well as vascular disease, both share a relevant genetic background taking the influence of a positive family history of these disorders. On the other hand, insulin resistance is associated with a proatherosclerotic disturbance in nitric oxide dependent vasodilation, probably contributing to the link between these two disorders. We examined the association between nitric oxide dependent vasodilation (measured with high resolution ultrasound at 13 MHz) and three relevant NO-synthase (
eNOS
)-polymorphisms in 200 insulin resistant subjects participating in the Tuebinger Lifestyle Intervention Program (TULIP). This study revealed that carriers of the
eNOS
intron 4 polymorphism (aa 2.16%; ab 24.2%; bb 73.2%) show significantly worse endothelial, and thereby
eNOS
dependent vasodilation (p=0.03, multivariate ANOVA), as compared to wildtype carriers. The 5' UTR T-786C and the G894 T polymorphism did not show any influence on
eNOS
-activity. In subjects at increased risk to develop type 2 diabetes, the
eNOS
intron 4 polymorphism is independently associated with endothelial function as indicated by disturbed endothelial NO production. Due to the high prevalence and the relatively strong effect, this polymorphism might help to identify subjects at increased risk for
atherosclerosis
associated with overweight and insulin resistance.
...
PMID:Endothelial NO-synthase intron 4 polymorphism is associated with disturbed in vivo nitric oxide production in individuals prone to type 2 diabetes. 1809 16
Toll-like receptor 4 (TLR4) is a pattern recognition receptor for lipopolysaccharide from Gram negative bacteria and thus is integral to the innate immune response in mammals. In addition, TLR4 is associated with
atherosclerosis
in murine models. The current study shows that blood vessels from TLR4(-/-) mice have an intact endothelial layer and comparable expression of
nitric oxide synthase 3
protein. However, endothelium-dependent dilation in response to acetylcholine in vessels from TLR4(-/-) mice is greatly reduced. By contrast, endothelium-independent smooth muscle dilation in response to sodium nitroprusside in vessels from TLR4(-/-) mice remains intact. Furthermore, this study shows that hearts from TLR4(-/-) mice display signs of left ventricular dilation. In contrast to results in vessels from TLR4(-/-) mice, endothelium-dependent responses to acetylcholine in vessels from TLR2(-/-) mice remain intact. These observations illustrate a novel role for TLR4 in the homeostatic control of a functional endothelium and, thereby, cardiovascular health.
...
PMID:Homeostatic role of Toll-like receptor 4 in the endothelium and heart. 1817 27
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