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)

In this review, the role of tyrosine kinases in angiotensin II-mediated signal transduction pathways in vascular smooth muscle is discussed. Angiotensin II was isolated by virtue of its vasoconstrictor abilities and has long been thought to play a critical role in hypertension. However, recent studies indicate important roles for angiotensin II in inflammation, atherosclerosis, and congestive heart failure. The expanding role of angiotensin II indicates that multiple signal transduction pathways are likely to be activated in a tissue-specific manner. Exciting recent data show that angiotensin II directly stimulates tyrosine kinases, including pp60(c-src) kinase (c-Src), focal adhesion kinase (FAK), and Janus kinases (JAK2 and TYK2). Angiotensin II may activate receptor tyrosine kinases, such as Axl and platelet-derived growth factor, by as-yet-undefined autocrine mechanisms. Finally, unknown tyrosine kinases may mediate tyrosine phosphorylation of Shc, Raf, and phospholipase C-gamma after angiotensin II stimulation. These angiotensin II-regulated tyrosine kinases appear to be required for angiotensin II effects, such as vasoconstriction, proto-oncogene expression, and protein synthesis, on the basis of studies with tyrosine kinase inhibitors. Thus, understanding angiotensin II-stimulated signaling events, especially those related to tyrosine kinase activity, may form the basis for the development of new therapies for cardiovascular diseases.
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PMID:Angiotensin II signal transduction in vascular smooth muscle: role of tyrosine kinases. 913 Apr 41

To investigate whether augmented calcium influx is involved in the mechanism of the enhanced proliferation of vascular smooth muscle cells (VSMCs) in diabetes, we studied the association between proliferation and cytosolic free calcium concentration ([Ca2+]i) in cultured aortic VSMCs from spontaneously diabetic Goto-Kakizaki (GK) and Wistar rats. Serum, angiotensin II and Bay K 8644, a voltage-dependent Ca2+ channel (VDC) agonist, stimulated the proliferation of VSMCs; the magnitude was greater in VSMCs from GK than Wistar rats. VDC blockers, verapamil and nicardipine, inhibited Bay K 8644-induced cell proliferation, and the difference in the proliferation of VSMCs between GK and Wistar rats disappeared. Angiotensin II-induced proliferation was only partially inhibited by VDC blockers, and enhanced proliferation of GK-VSMCs was still observed. Bay K 8644 and angiotensin II increased [Ca2+]i, and the increase was augmented in GK-VSMCs. Bay K 8644-induced [Ca2+]i increase was completely inhibited by pretreatment with verapamil or removal of extracellular Ca2+, suggesting that VDC is associated with this increase. Although angiotensin II-induced [Ca2+]i increase was not affected by verapamil, removal of extracellular Ca2+ slightly but significantly attenuated angiotensin II-induced [Ca2+]i increase, suggesting that VDC blocker-insensitive receptor-activated Ca2+ influx is involved. These results indicate that augmented Ca2+ influx via VDC and a receptor-activated pathway may be involved in the mechanism of the enhanced proliferation of VSMCs from GK rats.
Atherosclerosis 1997 Jun
PMID:Augmented Ca2+ influx is involved in the mechanism of enhanced proliferation of cultured vascular smooth muscle cells from spontaneously diabetic Goto-Kakizaki rats. 919 69

ACE inhibitors have been shown to be effective in reducing the morbidity and mortality of patients with left ventricular systolic dysfunction, but their application to clinical practice in this situation is still limited. In part, the failure to prescribe an ACE inhibitor to a patient with left ventricular systolic dysfunction is due to perceptions regarding their side effects, such as cough and renal dysfunction. Relatively few patients with left ventricular systolic dysfunction and a serum creatinine > or = 2 mg/dl receive an ACE inhibitor in clinical practice. In this situation one should consider an agent such as fosinopril, which is metabolized by the liver as well as secreted by the kidney. In patients with moderate renal dysfunction, fosinopril has been well tolerated without an increase in serum creatinine. In patients who develop cough due to an ACE inhibitor, consideration should be given to an angiotensin II type 1 receptor blocking agent, such as losartan. The relative safety and efficacy of an ACE inhibitor compared with an angiotensin II type 1 receptor blocking agent is being explored in a prospective randomized trial (Evaluation of Losartan In The Elderly [ELITE]), as well as the safety and pharmacological effectiveness of adding an angiotensin II receptor antagonist to an ACE inhibitor (Randomized Angiotensin receptor antagonists-ACE-inhibitor Study [RAAS]). There may also be a role for the combination of an aldosterone receptor antagonists and an ACE inhibitor in patients with left ventricular systolic dysfunction. Once an ACE inhibitor is administered to a patient with left ventricular systolic dysfunction it should be continued indefinitely. ACE inhibitors may be of value not only in preventing the progression of heart failure but also in reversing endothelial dysfunction and preventing the development of atherosclerosis and its consequences, such as myocardial infarction.
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PMID:ACE inhibitors in heart failure: prospects and limitations. 921 Oct 22

HYPERTENSION-ASSOCIATED ABNORMALITIES THAT PROMOTE CORONARY DISEASE: Although antihypertensive treatment has been effective in reducing premature cardiovascular mortality, the effect on various organ-specific morbid events has been unequal; the effect is much more impressive on stroke reduction than on reduction of coronary events. A student of pathophysiology would have anticipated such an outcome since blood pressure elevation is only one of multiple abnormalities in hypertension. Even in its mildest form hypertension is associated with the metabolic syndrome of dyslipidemia/insulin resistance which is conducive to early atherosclerosis. A large proportion of patients also have increased sympathetic and decreased parasympathetic tone, a constellation conducive to arrhythmias and, ultimately, to sudden death. An elevated hematocrit is also found in a substantial proportion of male patients and excessive platelet aggregability has also been described in hypertension. These hematologic abnormalities are conducive to coronary thrombosis. Angiotensin II and norepinephrine, two of the most potent trophic hormones, are frequently elevated in hypertension. The effect of these hormones on the cardiac and vascular structure further increases the predilection for negative outcomes. Left ventricular hypertrophy is a potent risk factor of coronary mortality, congestive heart failure and sudden death. Vascular hypertrophy reduces the coronary reserve and at the level of skeletal muscles contributes to the evolution of the metabolic syndrome. ORGAN-SPECIFIC HYPERTENSION TREATMENT: Because of these abnormalities we are entering a new era of treatment in hypertension. Whereas an effective fall in blood pressure remains the main goal of treatment, differential effects of various antihypertensive agents on organ-specific morbidity are being actively explored. If this research proves that certain drugs have a specific advantage in defined subgroups of patients, clinical practice will change. It is reasonable to expect that in the next century we will witness a further improvement in the impact of antihypertensive treatment on public health.
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PMID:Coronary disease in hypertension: a new mosaic. 921 91

Myocardial infarction and stroke are the major cause of death in developed countries and are the clinical manifestation of atherosclerosis and hypertension. Both the environmental factors and genetic predisposition have an influence on the pathogenesis of these diseases. Despite we know lots of environmental risk factors and we made important advances in the prevention and treatment of mentioned diseases, our knowledge about the pathogenic linkage between genetic predisposition and cardiovascular diseases is still very little. Activation of the renin-angiotensin system has been proposed as a very important step in the pathogenesis of hypertension and atherosclerosis. In spite of vasoconstrictor activity, angiotensin II can stimulate migration and proliferation of vascular smooth muscle cells, macrophage-foam cells formation, adhesion and aggregation of platelets and fibrinolytic system inhibition. Angiotensin convertin enzyme inhibitors reduce the development of the atherosclerotic process after vascular injury and in hyperlipidemic animals. Blockade of renin-angiotensin system seems to be also effective in secondary prevention of myocardial infarction in men. In sum, the genetic variations inside the renin-angiotensin system which may affect the function of its components might have an influence on genetic predisposition to cardiovascular diseases. The paper deals with the current state of knowledge on association between polymorphic variations in renin gene, angiotensinogen gene, angiotensin converting enzyme gene and AT1 receptor gene and primary hypertension, ischaemic heart disease and myocardial infarction.
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PMID:[The role of DNA polymorphism in the renin-angiotensin system and the pathogenesis of cardiovascular diseases]. 923 64

The molecular and cellular mechanisms by which hypertension enhances atherosclerosis are poorly understood. Angiotensin II (Ang II) has been implicated in the regulation of cellular lipoxygenases (LO), which are thought to play a role in atherogenesis by inducing oxidative modification of low density lipoprotein (LDL). We sought to test the hypothesis that Ang II would stimulate murine macrophage LO activity (which has both 12- and 15-LO activity). Competitive binding studies revealed the presence of Ang II AT1 receptors on mouse peritoneal macrophages (MPM) and J-774 cells, but not on the RAW cell line. Valsartan, a specific AT1 receptor antagonist inhibited Ang II binding, whereas PD 123319, an AT2 receptor antagonist did not. Incubation of MPM or J-774 cells with Ang II (10 pM to 1 microM) for 24 h led to a 2.5-3.5-fold increase in LO activity, measured as generated 13-HODE or 12(S)-HETE. This stimulation was inhibited by valsartan, but not by PD 123319. In contrast, Ang II did not stimulate LO activity in RAW macrophages. Semiquantitative reverse transcriptase-polymerase chain reaction showed a 2-3-fold increase in LO mRNA in MPM, but not in RAW cells after treatment with Ang II. Ang II also induced an increase in 12-LO protein. In addition, pretreatment of J-774 cells with Ang II increased in a dose-dependent manner the ability of the cells to modify LDL, resulting in greater chemotactic activity for monocytes, typical of minimally modified LDL. This stimulation was inhibited by AT1 receptor blockade. In summary, these data suggest that Ang II increases macrophage LO activity via AT1 receptor-mediated mechanisms and this further increases the ability of the cells to generate minimally oxidized LDL. These studies provide a link between hypertension and the associated increased atherosclerosis observed in hypertensive patients.
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PMID:Angiotensin II increases macrophage-mediated modification of low density lipoprotein via a lipoxygenase-dependent pathway. 926 Nov 83

Angiotensin (Ang) II plays an important role in cardiovascular homeostasis such as regulation of blood pressure and tissue remodeling. Alternative Ang II-forming pathways, independent of Ang I converting enzyme (ACE), have been reported. Several serine proteinases including kallikrein, cathepsin G and chymase appear to be involved in ACE-independent Ang II formation in vivo. Among them, biochemical analysis revealed that chymase is a highly efficient Ang II-forming enzyme with a high substrate specificity against Ang I and is rich in various human tissues. However, the pathophysiological roles of chymase have not yet been clarified. Recent reports from us and others indicated that chymase seems to be related to development of atherosclerosis, cardiomyopathy, remodeling of cardiovascular tissues, rheumatoid arthritis and etc. In this review article, the recent findings for chymase related to cardiovascular diseases are summarized.
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PMID:[Pathophysiological roles of human chymase]. 928

Atherosclerosis and its vascular sequela are responsible for considerable morbidity and mortality rates. Several risk factors have been implicated in the pathogenesis of atherosclerosis, and the search for other risk factors continues on the medical horizon. Renin-angiotensin system (RAS), a multienzyme, multilocale axis, has been extensively studied as an important mediator of atherosclerosis. Recently, the tissue-based angiotensin system has been suggested as the most significant pathway of RAS. A genetic polymorphism in the human gene for the angiotensin-converting enzyme (ACE), one of the two enzymes of RAS, has been found to have a strong association with higher risk for acute coronary events, sudden cardiac death, vascular restenosis after angioplasty, and idiopathic and hypertrophic cardiomyopathy. Clinical and animal data support angiotensin II to be the final common pathway in the enzyme cascade of RAS and ACE as the key enzyme in the generation of Angiotensin II. ACE gene polymorphism appears to modify expression of cellular and free ACE levels and could represent a genetic marker for cardiovascular disease.
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PMID:Renin-angiotensin system: genes to bedside. 973 52

Angiotensin II (Ang-II) has been shown to possess several atherogenic properties including its ability to induce macrophage-mediated oxidation of LDL and to form Ang-II-modified LDL which is taken up by macrophages at enhanced rate. Oxidized-LDL (Ox-LDL) is also taken up by macrophages at enhanced rate via several scavenger receptors, leading to macrophage cholesterol accumulation. In the present study we examined the effect of Ang-II on the uptake of Ox-LDL by peritoneal macrophages derived from Balb/c mice (MPM). Intraperitoneal injection of Ang-II (10(-7) M, once daily for a period of 2 days) to the mice resulted in an increased Ox-LDL uptake up to 60%, in comparison to macrophages from placebo-treated mice. Similar results were obtained when Ang-II (10(-7) M) was injected to the mice twice a week for a period of three months. This Ox-LDL uptake was Ang-II dose-dependent. The cellular uptake of acetylated-LDL (Ac-LDL), another ligand for scavenger receptors, however, was not affected by Ang-II injection to the mice. Furthermore, preincubation of the MPM with the monoclonal antibody, anti CD36, reduced macrophage uptake of Ox-LDL in Ang-II-treated mice by only 11%. Ang-II administration to mice resulted in a 60% increase in the macrophage cellular proteoglycan content. Chondroitinase treatment of MPM decreased Ox-LDL cellular uptake by 20% and by 38% in placebo-treated and Ang-II-treated cells, respectively. We thus conclude that Ang-II administration to mice enhances their macrophage Ox-LDL uptake via its stimulating effect on cellular proteoglycan content and this process can lead to foam cell formation and atherosclerosis.
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PMID:Angiotensin II injection into mice increases the uptake of oxidized LDL by their macrophages via a proteoglycan-mediated pathway. 934 70

Clinical data suggest a link between the activation of the renin-angiotensin system and cardiovascular ischemic events. Leukocyte accumulation in the vessel wall is a hallmark of early atherosclerosis and plaque progression. E-Selectin, vascular cell adhesion molecule-1 (VCAM-1), and intercellular adhesion molecule-1 (ICAM-1) are adhesion molecules participating in mediating interactions between leukocytes and endothelial cells and have been found to be expressed in athero-sclerotic plaques. We investigated whether angiotensin II, the effector of the renin-angiotensin system, influences the endothelial expression of E-selectin, VCAM-1, and ICAM-1. In coronary endothelial cells derived from explanted human hearts, angiotensin II (10(-11) to 10(-5) mol/L) induced a concentration-dependent increase in E-selectin expression. The effect was measured by cell ELISA and duplex reverse-transcription polymerase chain reaction (RT-PCR) and reached its maximum at 10(-7) mol/L. Angiotensin II induced only a small increase in E-selectin expression in cardiac microvascular endothelial cells. VCAM-1 and ICAM-1 were not affected by angiotensin II stimulation. In addition, the effect of angiotensin II-induced E-selectin expression on leukocyte adhesion was quantified under flow conditions. Angiotensin II (10(-7) mol/L) increased leukocyte adhesion significantly to 67% of the maximal effect by tumor necrosis factor-alpha at a wall shear stress of 2 dyne/cm2. This adhesion was found to be E-selectin dependent, as demonstrated by blocking antibodies. The AT1-receptor antagonist DUP 753 significantly reduced E-selectin-dependent adhesion, whereas the AT2-receptor antagonist PD 123177 had no inhibitory effect. In addition, only AT1-receptor, but not AT2-receptor, mRNA could be detected by RT-PCR in coronary endothelial cells. Therefore, it is suggested that AT1 receptors mediate the effects of angiotensin II on E-selectin expression and leukocyte adhesion on coronary endothelial cells.
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PMID:Angiotensin II-induced leukocyte adhesion on human coronary endothelial cells is mediated by E-selectin. 935 54


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