Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0020473 (hyperlipidemia)
 15,891 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

There is recent interest in the possibility that angiotensin converting enzyme inhibitors (ACE inhibitors) may reduce the damage inflicted on the arterial wall by common cardiovascular risk factors such as hypertension, hyperlipidaemia and ageing. The efficacy of these drugs in blood pressure reduction is accepted, but whether there is an excess benefit on arterial structure and function, conferred by use of ACE inhibitors over more traditional antihypertensives, is still under debate. There is also evidence in animal models to suggest that ACE inhibition is effective in reduction of arterial damage due to experimental hyperlipidaemia. ACE inhibitors not only reduce the conversion of angiotensin I and angiotensin II, which can interact with the sympathetic nervous system, but also prevent the degradation of bradykinin. This means that ACE inhibitors have several potential mechanisms through which they could suppress intimal hypertrophy and prevent endothelial dysfunction, which is believed to precede arteriosclerosis in man. Although much further work is needed to clarify the mechanism underlying the beneficial effects on the arterial wall of this group of drugs, they do appear to have significant potential in the effort to reduce cardiovascular mortality and morbidity, especially in high risk groups.
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PMID:The impact of angiotensin converting enzyme inhibitors on the arterial wall. 954 23

The dynamic of natural antibodies against bradykinin and angiotensin II in blood serum was studied in 124 patients with ischemic heart disease, hyperlipidemia and hypertension against a background of usage of basic and modified antiatherosclerotic diet during 4 weeks. Besides favorable influence to a clinical picture of the disease universal normalizing influence of antiatherosclerotic diet with addition of linseed oil, consisting in increase of lowered levels of natural antibodies against bradykinin and angiotensin II and decrease of their contents in blood serum under primary increased concentrations.
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PMID:[Effect of anti-atherosclerotic diet with polyunsaturated fatty acids omega-3 from linseed oil on dynamics of natural antibodies to bradykinin and angiotensin II in blood serum of patients with cardiovascular diseases]. 968 Jun 70

Coronary hypersensitivity to serotonin promotes platelet aggregation and, therefore, the progression of the atherosclerotic process. This abnormality occurs in the early stages of coronary atherosclerosis when the responses to bradykinin are still preserved. To determine whether such changes also occur early after cardiac transplantation, intracoronary injections of bradykinin and serotonin were performed in 7 control patients, in 19 patients with dyslipidemia, and in 15 cardiac transplant recipients (1 year after operation). Coronary angiography was normal in the 3 groups. In the segments where serotonin effects were the most pronounced, the diameter changes were measured by quantitative angiography. Bradykinin (60, 200, and 600 ng) increased in the same way as the coronary diameters in the 3 groups; in contrast, serotonin elicited vasodilation only in the control group (7+/-3%, percentage of baseline) and vasoconstriction in the hyperlipidemic group (-9+/-2%) and in transplant recipients (-15+/-3%). After intracoronary infusion of L-arginine (40 mg/min for 14 minutes), serotonin-induced constriction was attenuated in the hyperlipidemic group but not in transplant recipients. Thus, the response to bradykinin is preserved in the early stages of graft vasculopathy. However, in contrast to patients with hyperlipidemia, the absence of an L-arginine effect on the responses to serotonin suggests the involvement of mechanisms other than a decrease in endothelium-derived nitric oxide availability. Immune processes promoting the release of endothelium-derived contracting factors such as endothelin and/or superoxide anion may play a role.
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PMID:Absence of L-arginine effect on coronary hypersensitivity to serotonin in cardiac transplant recipients. 1056 27

Hyperlipidemia may increase endothelial damage and promote accelerated atherogenesis in graft coronary vasculopathy. To study the effects of hypercholesterolemia on coronary endothelial dysfunction, intimal hyperplasia, and lipid content, a porcine model of heterotopic heart transplantation, allowing nonacute rejection without immunosuppressive drugs, was used. A high cholesterol diet was fed to donor and recipient swine 1 month before and after transplantation. The endothelial function of coronary arteries of native and transplanted hearts from cholesterol-fed animals was studied in organ chambers 30 days after implantation and compared with endothelial function in arteries from animals fed a normal diet. The total serum cholesterol increased 3-fold in donors and recipients. Endothelium-dependent relaxations to serotonin, to the alpha(2)-adrenergic agonist UK14,304, and to the direct G-protein activator sodium fluoride were decreased significantly in allografted hearts compared with native hearts from both groups. Relaxations to the calcium ionophore A23187 and bradykinin were decreased significantly in allografts from animals fed the high cholesterol diet. The prevalence of intimal hyperplasia was significantly increased in coronary arteries from hypercholesterolemic swine. There was a significant increase in the lipid content of allograft arteries of hypercholesterolemic recipients. Hypercholesterolemia causes a general coronary endothelial dysfunction, increases the prevalence of intimal hyperplasia, and augments the incorporation of lipids in the vascular wall after heart transplantation. Hyperlipidemia accelerates graft coronary atherosclerosis through its effects on the endothelium.
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PMID:Hypercholesterolemia increases coronary endothelial dysfunction, lipid content, and accelerated atherosclerosis after heart transplantation. 1071 98

We have previously demonstrated that bradykinin blocks hypertrophy of isolated cardiomyocytes: this is dependent on the release of nitric oxide from endothelial cells. In the present study, we investigated the influence of endothelial dysfunction on the antihypertrophic action of bradykinin. Angiotensin II (1 microM) induced a 34 +/- 2% increase in [3H]phenylalanine incorporation (P<0.001), an in vitro marker of hypertrophy, in adult rat cardiomyocytes co-cultured with bovine aortic endothelial cells. This response was blocked by bradykinin (10 microM), but restored by the nitric oxide synthase inhibitor. N(omega)-monomethyl-L-arginine (100 microM). However, the antihypertrophic effect of bradykinin in co-culture was abolished by 24 h pretreatment of endothelial cells with high glucose (25 mM, to mimic hyperglycemia) and attenuated by hydrogen peroxide (100 microM, to mimic oxidative stress). Pretreatment with oxidized low-density lipoprotein (100 microg/ml for 24 h, to mimic hyperlipidemia) was without effect. The hypertrophic response to angiotensin II was not modified by endothelial cell pretreatment. Furthermore, the ability of bradykinin to elevate cGMP (a marker for nitric oxide) in cardiomyocytes co-cultured with endothelial cells was attenuated by pretreatment with either high glucose or hydrogen peroxide. In conclusion, loss of the cardioprotective action of bradykinin against angiotensin II-induced hypertrophy was associated with impaired nitric oxide release from dysfunctional endothelial cells.
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PMID:Endothelial dysfunction limits the antihypertrophic action of bradykinin in rat cardiomyocytes. 1088 62

Common complications of diabetes are accelerated atherosclerosis and vascular disturbances. We investigated whether the simultaneous insult of hyperlipemia-hyperglycemia affects the reactivity of the resistance arteries to bradykinin (BK), and if so, what are the mechanisms responsible for this disturbance. Experiments were conducted on male Golden Syrian hamsters rendered hyperlipemic (H) by a fat-rich diet, diabetic (D) by streptozotocin injection, or simultaneously hyperlipemic-diabetic (HD). Normal age-matched animals were used as controls (C). At 24 weeks after the induction of disease(s) the vascular reactivity of the mesenteric resistance arteries to BK (10(-8)-10(-4) M) was assayed by the myograph technique. To explore the role of nitric oxide (NO) in modulating the endothelium-dependent BK-induced relaxation, two experimental approaches were employed: (i) in vivo administration of L-arginine (622.14 mg/kg bw) to H, D, and HD hamsters (for 12 weeks); (ii) in vitro blockage of nitric oxide synthase by N(omega)-nitro- L-arginine methyl ester (10(-4) M). To evaluate the contribution of Ca2+-activated K+ channel(s) to BK-induced relaxation, the resistance arteries were exposed to 10(-3) M tetraethylammonium. Comparatively, the endothelium-independent relaxation was assayed using sodium nitroprusside (10(-8)-10(-4) M). The results showed that compared to the H and D groups, the HD hamsters exhibited the most reduced vasodilation of the resistance arteries to BK (34.09 +/- 1.5%). The diminished vasodilation was found to be due to a dual mechanism: an L-arginine:NO pathway and a NO-independent process, mediated via Ca2+-activated K+ channels. In vivo administration of L-arginine had favourable effects especially in the HD group, which manifested (i) an; 30% improvement of attenuated BK relaxation, (ii) an increase in sensitivity of the response to BK, (iii) a 3-fold diminishment of plasma hyperglycemia. Collectively, these data explain in part, the mechanisms and possible ways to correct the arterial endothelial dysfunction when diabetes is complicated with hyperlipemia.
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PMID:Mechanisms of decreased bradykinin- induced vasodilation in experimental hyperlipemia-hyperglycemia: contribution of nitric oxide and Ca2+-activated K+ channels. 1190 2

Mildronate is a new antiischemic drug which inhibits biosynthesis of carnitine from butyrobetaine. We studied antiatherosclerotic and antiinflammatory effects of mildronate in guinea-pigs, rats and rabbits. We found a hypolipidemic action of this substance in rats with triton WR-1339 hyperlipidemia. A protective antiatherosclerotic effect of mildronate was observed in rabbits kept on the atherogenic diet for 3 months. Antiinflammatory efficiency of mildronate in rats was demonstrated after injection of bradykinin, carragenine or implantation of a small cotton-wool pad.
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PMID:[Anti-atherosclerotic action of mildronate in experiment]. 1215 27

We tested the hypothesis that exercise training (Ex) attenuates the effects of hyperlipidemia on endothelial function by enhancing NO-mediated vasorelaxation in porcine brachial (Br) arteries. Adult female pigs were fed a normal-fat (NF) or high-fat (HF) diet for 20 wk. Four weeks after initiation of the diet, pigs underwent Ex or remained sedentary (Sed) for 16 wk. Relaxation to ACh was impaired by HF (P = 0.03). The combination of HF and Sed impaired ACh-induced relaxation more than HF or Sed alone (P = 0.0002). Relaxation to high doses of bradykinin (BK) was impaired by HF (P = 0.0002). Ex significantly improved ACh-induced relaxation (P = 0.01) and tended to improve relaxation to BK (P = 0.38). To determine the mechanism(s) by which HF and Ex affected relaxation to ACh and BK, relaxation was assessed in the presence of N(G)-nitro-l-arginine methyl ester (l-NAME; to inhibit NO synthase), indomethacin (Indo; to inhibit cyclooxygenase), or l-NAME + Indo. In the presence of l-NAME, Indo, or l-NAME + Indo, ACh-induced relaxation was no longer different between HF and NF arteries; however, relaxation remained greater in Ex than in Sed arteries. In the presence of l-NAME or Indo, BK-induced relaxation was no longer altered by HF but was enhanced by Ex. In the presence of l-NAME + Indo, BK-induced relaxation was enhanced by HF and Ex. These data indicate that hyperlipidemia impairs ACh- and BK-induced relaxation by impairing NO- and PGI(2)-mediated relaxation. Ex attenuates the effects of HF by enhancing a vasodilator mechanism independent of NO and PGI(2).
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PMID:Exercise training preserves endothelium-dependent relaxation in brachial arteries from hyperlipidemic pigs. 1267 52

The endothelial cell layer displays the features of a distributed organ and has a variety of biological functions such as keeping the balance between coagulation and fibrinolysis, expression of adhesion molecules for cells in the immune system, metabolism of noradrenaline and 5-hydroxytryptamine, and conversion of angiotensin I and bradykinin. The endothelium also regulates the underlying smooth muscle layer and vascular tone by release of endothelium-derived relaxing factors such as nitric oxide (NO), prostaglandins, and endothelium-derived hyperpolarizing factor (EDHF) as well as vasoconstricting factors such as endothelin, superoxide (O(2)(-)), and thromboxane. We have reviewed the nature, mechanisms of action, and role of these factors in regulation of vascular tone, with special emphasis on NO. By a process catalyzed by NO synthase, NO and citrulline is formed from the substrates molecular O(2) and L-arginine. The main receptor for NO is guanylyl cyclase leading to formation of smooth muscle cyclic guanosinmonophosphate and relaxation. EDHF is an endothelium-derived factor causing vasorelaxation of the underlying smooth muscle layer by hyperpolarization. The nature of EDHF is still unknown, but several candidates for EDHF have been proposed such as potassium ions, hydrogen peroxide, and epoxyeicosatrienoic acids. Prostaglandins such as prostacyclin and prostaglandin E2 binds to specific receptors followed by increases in cyclic adenosinmonophosphate and vasorelaxation, while contractile prostaglandins constrict vessels by activation of thromboxane and endoperoxidase receptors. Superoxide anions induce contraction of vascular smooth muscles cells by scavenging NO. Endothelin is a potent endothelium-derived contractile factor. The synthesis of endothelin-1 is induced by hypoxia, thrombin, interleukin-1, transforming growth factor-beta1, vasopressin, and catecholamines. Cardiovascular risk factors like age, hypertension, and hyperlipidemia are associated with impaired endothelium-dependent vasodilation either as a consequence of increased inactivation of endothelium-derived vasodilators or increased formation of endothelium-derived contracting factors. This imbalance of endothelium-derived factors plays a role for development of atheroslerosis and ischemic vascular diseases.
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PMID:[Role of nitric oxide and other endothelium-derived factors]. 1273 1

Neutral endopeptidase (NEP), a membrane-bound metallopeptidase enzyme that degrades neuropeptides, bradykinin, atrial natriuretic factor, enkephalins, and endothelin may regulate response to injury. We have previously demonstrated increased NEP localization and enzyme activity in diabetic wounds and skin compared with normal controls. We hypothesized that hyperlipidemia and hyperglycemia associated with type 2 diabetes mellitus may induce excessive NEP activity and thereby diminish normal response to injury. Human microvascular endothelial cells were treated with five different fatty acids (40 microM) with varying degrees of saturation, including oleic acid, linoleic acid, palmitic acid, stearic acid, and linolenic acid and/or glucose (40 mM) for 48 h. The effect of the antioxidative agents vitamin E and C on NEP enzyme activation was determined by treating the cultured cells with alpha-tocopherol succinate and/or L-ascorbic acid. Cell membrane preparations were assayed for NEP activity by incubation with glutaryl-Ala-Ala-Phe-4-methoxy-beta naphthylamide to generate a fluorescent degradation product methoxy 2 naphthylamine. High glucose or fatty acid concentration upregulated NEP activity. The highest NEP activity was observed with combined elevated glucose, linoleic acid, and oleic acid (P < 0.05). Antioxidant vitamin E and C treatment significantly reduced NEP enzyme activity after fatty acid exposure (P < 0.05). Thus, hyperglycemia and hyperlipidemia associated with type 2 diabetes mellitus may increase endothelial cell NEP activity and thereby decrease early pro-inflammatory responses. The modulator effect of vitamin E and C on NEP membrane enzyme activity after exposure to fatty acid stimulation suggests that lipid oxidation may activate NEP.
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PMID:Fatty acids and glucose increase neutral endopeptidase activity in human microvascular endothelial cells. 1278 4


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