UMLS:C0004153 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0004153 (atherosclerosis)
77,401 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We investigated the effects of neuropeptide Y on the prostacyclin production of cultured porcine aortic endothelial cells by measuring the stable metabolite of prostacyclin, 6-keto-prostaglandin F1 alpha, by radioimmunoassay. Neuropeptide Y induced dose- and time-dependent stimulation of prostacyclin production by cultured porcine aortic endothelial cells. The lowest stimulatory concentration of neuropeptide Y was 10(-8) M and maximal response, a 2.8 fold rise, was obtained with 10(-6) M. The stimulation lasted at least 24 h. The effect was associated with the stimulation of arachidonic acid release. Our data suggest that neuropeptide Y may inhibit the development of atherosclerosis by stimulating prostacyclin synthesis.
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PMID:Neuropeptide Y stimulates prostacyclin production in porcine vascular endothelial cells. 188 60

Neuropeptide Y (NPY(1-36)), a sympathetic cotransmitter and neurohormone, has pleiotropic activities ranging from the control of obesity to anxiolysis and cardiovascular function. Its actions are mediated by multiple Gi/o-coupled receptors (Y1-Y5) and modulated by dipeptidyl peptidase IV (DPPIV/cd26), which inactivates NPY's Y1-agonistic activity but generates the Y2 and Y5-agonist, NPY(3-36). Released by sympathetic activity, NPY is a major mediator of stress, responsible for prolonged vasoconstriction via Y1 receptors. Y1 receptors also mediate NPY's potent vascular growth-promoting activity leading in vivo in rodents to neointima formation. This and the association of a polymorphism of the NPY signal peptide with increased lipidemia and carotid artery thickening in humans strongly suggest NPY's role in atherosclerosis. NPY and DPPIV/cd26 are also coexpressed in the endothelium, where the peptide activates angiogenesis. A similar system exists in immune cells, where NPY and DPPIV/cd26 are coactivated and involved in the modulation of cytokine release and immune cell functions. Thus, NPY, both a messenger and a modulator for all three systems, is poised to play an important regulatory role facilitating interactions among sympathetic, vascular and immune systems in diverse pathophysiological conditions such as hypertension, atherosclerosis and stress-related alterations of immunity.
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PMID:Neuropeptide Y: a new mediator linking sympathetic nerves, blood vessels and immune system? 1271 May 20

Neuropeptide Y (NPY) is a molecule that may have both vasoconstrictive and vasodilatory actions. A common polymorphism in the human NPY gene that results in the Leucine7 to Proline7 substitution (Leu7Pro) in the signal peptide part of the NPY was recently identified. This substitution has been associated with elevated serum cholesterol levels and with slightly accelerated progression rate of carotid intima-media thickness, thus suggesting increased risk of atherosclerosis in carriers of Pro7 substitution. Recent data also indicate that subjects with Pro7 substitution may have increased endothelial release of NPY. This study was undertaken to elucidate the effects of Leu7Pro polymorphism on arterial endothelial function. We measured flow-mediated endothelial-dependent dilatation (FMD) of the brachial artery in two separate populations: in 152 middle-aged men and in 95 prepubertal children. In both study populations, subjects with Pro7 substitution had 48-52% higher FMD compared with subjects having the wildtype (Leu7/Leu7) signal peptide sequence. We conclude that Pro7 substitution in signal peptide of the NPY is associated with enhanced endothelial-dependent vasodilation. Prospective studies are needed to determine whether Pro7 substitution is associated with increased or decreased risk of cardiovascular morbidity and mortality.
Atherosclerosis 2003 Apr
PMID:Enhanced endothelium-dependent vasodilation in subjects with Proline7 substitution in the signal peptide of neuropeptide Y. 1281 15

Neuropeptide Y (NPY) is an important neurotransmitter in the central and peripheral nervous systems. It has a regulatory role in cardiovascular and metabolic functions and control of hormone release. The leucine 7 to proline 7 (Leu7Pro) polymorphism in the signal peptide of prepro-NPY is associated with increased blood lipid levels, accelerated atherosclerosis, and diabetic retinopathy. This study elucidated the role of this polymorphism in diurnal cardiovascular, metabolic, and hormonal functions of healthy subjects during rest. The two study groups comprised individuals with different genotype, but they were matched for age and body mass index. Subjects with the Leu7Pro polymorphism had significantly lower plasma NPY and norepinephrine concentrations, lower insulin concentrations, higher glucose concentrations, and lower insulin-glucose ratio in plasma than the controls. Heart rate was significantly higher during daytime in the subjects with Leu7Pro polymorphism. Furthermore, these subjects had significantly lower prolactin concentrations in plasma. Systolic and diastolic blood pressure, serum free fatty acid and plasma leptin, ACTH, cortisol, LH, FSH, TSH, free thyroxin, and melatonin concentrations were similar during the 24-h period, compared with controls. These results show that genetically determined changes in NPY levels lead to widespread consequences in the control of sympathoadrenal, metabolic, and hormonal balance in healthy subjects.
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PMID:Changes in diurnal sympathoadrenal balance and pituitary hormone secretion in subjects with Leu7Pro polymorphism in the prepro-neuropeptide Y. 1284 76

Neuropeptide Y (NPY), a sympathetic co-transmitter, acts through multiple G protein-coupled receptors (Y1 to y6) to elicit its vast range of effects in the cardiovascular, immune, and central and peripheral nervous systems. Initially, the focus of the function of NPY in the cardiovascular system involved its acute actions, such as vasoconstriction via the Y1 receptor. However, recent studies have shown that NPY is a potent growth and angiogenic factor, which acts on multiple receptor subtypes. To be more specific, NPY-mediated vascular smooth muscle cell growth, leading to neointima formation, involves Y1 and Y1 receptors, while the angiogenic effects of NPY include Y2 and Y5 receptor activation. The presence of dipeptidyl peptidase IV also influences the cardiovascular responses of NPY by acting as a converting enzyme, shifting NPY activities away from Y1. Thus, agonists and antagonists aimed at the NPY system represent a new avenue for drug treatment, which may help alleviate several cardiovascular disorders in which vascular remodeling plays a major role, such as atherosclerosis, restenosis following balloon angioplasty, hypertension and peripheral vascular disease.
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PMID:Neuropeptide Y: multiple receptors and multiple roles in cardiovascular diseases. 1550 51

Neuropeptide Y (NPY) is a sympathetic neurotransmitter and a stress mediator with pleiotropic activities mediated by multiple receptors, Y1-Y5. Originally known as an appetite stimulant and a vasoconstrictor, NPY has recently emerged as a growth factor for a variety of cells from vascular smooth muscle to neural precursors - implicating the peptide in atherosclerosis and tissue remodeling. NPY is also potently angiogenic, and was hailed as a potential candidate for a nerve-driven ischemic revascularization. To determine if the latter, beneficial activity of the peptide can be separated from its deleterious pro-atherosclerotic action - receptor specificity and mechanisms of this "Janus phenomenon" were studied. Expression of Y2 receptors on the endothelium, and Y1 receptors on vascular smooth muscle, were required for angiogenic and pro-atherosclerotic activities, respectively. Amplification of both activities was provided by co-expression of Y5 receptors. In rodent models, limb ischemia up-regulated the NPY-Y2 system, which contributed to post-ischemic revascularization; exogenous NPY further augmented it and nearly normalized blood flow and function of ischemic tissues. NPY-induced angiogenesis was also dependent on nitric oxide and endothelial dipeptidyl peptidase IV (DPPIV, which converts NPY to Y2/Y5-selective agonist), but resistant to Y1 receptor blockade. Conversely, vascular angioplasty up-regulated the NPY-Y1 system and promoted atherosclerosis and hyperplastic remodeling, and these activities were blocked by Y1 receptor antagonist and augmented by DPPIV inhibitors. Thus, drugs targeting specific NPY receptors may become new therapeutics against atherosclerosis/restenosis (Y1-selective antagonists) or for ischemic revascularization (Y2-selective agonists). Such drugs may be particularly beneficial for patients with elevated circulating NPY levels e.g. by chronic stress.
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PMID:Atherosclerosis and angiogenesis: what do nerves have to do with it? 1641 3

Neuropeptide Y (NPY) has long been known to be involved in stress, centrally as an anxiolytic neuromodulator, and peripherally as a sympathetic nerve- and in some species, platelet-derived vasoconstrictor. The peptide is also a vascular mitogen, via Y1/Y5, and is angiogenic via Y2/Y5 receptors. Arterial injury activates platelet NPY and vascular Y1 receptors, inducing medial hypertrophy and neointima formation. Exogenous NPY, dipeptidyl peptidase IV (DPPIV, forming an Y2/Y5-selective agonist) and chronic stress augment these effects and occlude vessels with atherosclerotic-like lesions, containing thrombus and lipid-laden macrophages. Y1 antagonist blocks stress-induced vasoconstriction and post-angioplasty occlusions, and hence may be therapeutic in angina and atherosclerosis/restenosis. Conversely, tissue ischemia activates neuronal and platelet-derived NPY, Y2/Y5 and DPPIV, which stimulate angiogenesis/arteriogenesis. NPY-Y2-DPPIV agonists may be beneficial for ischemic revascularization and wound healing, whereas antagonists may be therapeutic in retinopathy, tumors, and obesity. Since stress is an underestimated risk factor in many of these conditions, NPY-based drugs may offer new treatment possibilities.
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PMID:Stress, NPY and vascular remodeling: Implications for stress-related diseases. 1724 99

Neuropeptide Y (NPY) is a strong candidate gene for coronary artery disease (CAD). We have previously identified genetic linkage to familial CAD in the genomic region of NPY. We performed follow-up genetic, biostatistical, and functional analysis of NPY in early-onset CAD. In familial CAD (GENECARD, N = 420 families), we found increased microsatellite linkage to chromosome 7p14 (OSA LOD = 4.2, p = 0.004) in 97 earliest age-of-onset families. Tagged NPY SNPs demonstrated linkage to CAD of a 6-SNP block (LOD = 1.58-2.72), family-based association of this block with CAD (p = 0.02), and stronger linkage to CAD in the earliest age-of-onset families. Association of this 6-SNP block with CAD was validated in: (a) 556 non-familial early-onset CAD cases and 256 controls (OR 1.46-1.65, p = 0.01-0.05), showing stronger association in youngest cases (OR 1.84-2.20, p = 0.0004-0.09); and (b) GENECARD probands versus non-familial controls (OR 1.79-2.06, p = 0.003-0.02). A promoter SNP (rs16147) within this 6-SNP block was associated with higher plasma NPY levels (p = 0.04). To assess a causal role of NPY in atherosclerosis, we applied the NPY1-receptor-antagonist BIBP-3226 adventitially to endothelium-denuded carotid arteries of apolipoprotein E-deficient mice; treatment reduced atherosclerotic neointimal area by 50% (p = 0.03). Thus, NPY variants associate with atherosclerosis in two independent datasets (with strong age-of-onset effects) and show allele-specific expression with NPY levels, while NPY receptor antagonism reduces atherosclerosis in mice. We conclude that NPY contributes to atherosclerosis pathogenesis.
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PMID:Neuropeptide Y gene polymorphisms confer risk of early-onset atherosclerosis. 1911 12

Neuropeptide Y (NPY) is a universally expressed neuropeptide involved in the regulation of several physiological functions. The rather common leucine7 to proline7 (L7P) polymorphism in the signal peptide of preproNPY is a functional substitution, which changes the processing and release of NPY in cells. The mutation is associated with altered lipid levels and accelerated atherosclerosis in humans. Based on previous studies, we investigated the effect of the Pro7 allele in endothelial cells, which are known to play a role in the development of atherosclerosis. Cell proliferation and apoptosis were studied in primary cultured, genotyped human umbilical vein endothelial cells (HUVECs). Our results indicate that cells with the [p.L7]+[p.P7] genotype seem to have a tendency to be more sensitive to the growth stimulating effect of NPY and less sensitive to the effect of vascular endothelial growth factor compared to cells with the [p.L7]+[p.L7] genotype. Additionally, cells with the [p.L7]+[p.P7] genotype seem to be more sensitive to apoptosis than [p.L7]+[p.L7] cells. We speculate that the L7P substitution in preproNPY might cause a state of cellular pre-senescence, leading to endothelial dysfunction. This might be one reason for the associations of the L7P polymorphism with atherosclerosis and type II diabetes found in clinical studies.
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PMID:The effect of endogenous preproneuropeptide Y leucine 7 to proline 7 polymorphism on growth and apoptosis in primary cultured HUVECs. 1955 21

Neuropeptide Y (NPY) is a central neuromodulator and peripheral sympathetic neurotransmitter that also has important regulatory roles in cardiovascular, neuroendocrine, immune and metabolic functions during stress. Focusing on the peripheral actions of the peptide in rodent models, we summarize recent studies from our laboratory demonstrating that stress-induced release of NPY mediates accelerated atherosclerosis/restenosis, obesity and metabolic-like syndrome, particularly when combined with a high fat, high sugar diet. In this review, we propose mechanisms of NPY's actions, its receptors and cellular substrates that increase the risk for cardiovascular and metabolic diseases when chronic stress is associated with pre-existing vascular injury and/or states of hypernutrition.
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PMID:Neuropeptide Y is a mediator of chronic vascular and metabolic maladaptations to stress and hypernutrition. 2088 22

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