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)

The JCR:LA-corpulent rat is a strain exhibiting marked obesity and metabolic derangements characterized by hyperlipidemia due to hypersecretion of very-low-density lipoprotein (VLDL) and severe insulin resistance. The corpulent male rats spontaneously develop atherosclerosis and ischemic myocardial lesions. Male corpulent rats were treated with acarbose in the presence and absence of sugar-supplemented diets. The acarbose-treated rats had lower body weights at 3 months of age with unaltered food consumption, and a similar effect was seen with a high-fructose diet. Fasting insulin concentrations were decreased significantly in acarbose-treated animals at both 3 and 9 months of age, and the rate of plasma glucose disappearance increased at 3 months of age. Acarbose treatment did not affect whole-serum triglyceride concentrations, but there were modest decreases in cholesterol levels. Sugar-supplemented diets caused no significant changes in insulin or glucose concentrations, and caused small increases in nonesterified cholesterol only. Fructose- but not sucrose-supplemented diets were associated with a significantly decreased frequency of old scarred myocardial lesions. The frequency of occurrence of such lesions was also decreased by acarbose treatment. This effect of acarbose treatment may reflect improvement in insulin and glucose metabolism in treated rats. The decrease in myocardial lesions in fructose-fed rats may be secondary to increased carbohydrate metabolism via the pathways leading from fructose to triglyceride.
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PMID:Beneficial effects of acarbose in the atherosclerosis-prone JCR:LA-corpulent rat. 847 19

We examined the effect of long-term (6 months) hyperinsulinemia on VLDL-triglyceride turnover in male Wistar rats. Hyperinsulinemia was induced in rats by daily s.c. injection of Ultralente insulin (6 U/day at 19:00). Fructose (F) or glucose (G) was supplied in the drinking water (10%) in order to prevent hypoglycemia. The rats were divided into 5 groups: (1) hyperinsulinemia with F water: group F + I; (2) hyperinsulinemia with G water: group G + I; (3) F water alone: group F; (4) G water alone: group G; and (5) control rats without sugar water group C. After 6 months of daily insulin injection triglyceride secretion rate (TGSR) was estimated using Triton WR1339 in all the rats. Groups F + I and G + I were obese and hypoglycemic compared to the other groups. Fasting plasma glucose level of group F was higher than any other group value. TGSR of group F + I was significantly higher than that of the control group, while that of group G + I was not, indicating that long-term hyperinsulinemia can stimulate hepatic triglyceride production when the rats were supplemented only with fructose. On the other hand, the rats in group G + I showed the lowest plasma free fatty acid level of all and their postheparin lipolytic activity was significantly elevated compared to that of the control rats. Moreover, they had suppressed plasma triglyceride levels and its fractional catabolic rate was significantly increased, suggesting that hyperinsulinemia can still stimulate triglyceride removal from the circulation of glucose supplemented rats even at month 6. In conclusion, exogenous hyperinsulinemia can stimulate hepatic triglyceride secretion even after 6 months duration when supplemented with fructose, while its stimulating effect on triglyceride removal from the circulation can be seen only with glucose supplementation. Thus, the effect of long-term hyperinsulinemia on plasma triglyceride turnover differs depending on the supplemented monosaccharides.
Atherosclerosis 1997 Feb 28
PMID:Effect of long-term exogenous hyperinsulinemia and fructose or glucose supplementation on triglyceride turnover in rats. 906 14

The present study was conducted in order to examine the role of low-density lipoprotein (LDL)-receptor activity in very-low-density lipoprotein (VLDL) triglyceride metabolism in vivo. Fructose-feeding (10% in drinking water) for 2 weeks resulted in elevated plasma triglyceride in heterozygote of Watanabe heritable hyperlipidemic (WHHL) rabbit (WHHLH) associated with suppressed fractional catabolic rate (FCR) of plasma triglyceride, whereas Japanese white (JW) rabbit with normal LDL receptor activity showed no remarkable change in plasma triglyceride turnover after fructose-feeding, suggesting an involvement of LDL receptor activity on triglyceride metabolism. Thereafter, in order to stimulate cellular LDL receptor activity, fluvastatin, a new 3-hydroxy-3-methylglutaryl-coenzyme-A (HMG-CoA) reductase inhibitor, was administered orally (1.52 +/- 0.26 mg/kg) to fructose-fed WHHLH. Significant suppression of triglyceride secretion rate (TGSR) was observed after treatment. However, since plasma triglyceride level was markedly suppressed, FCR of plasma triglyceride was significantly elevated by fluvastatin. Thus, it is speculated from the present data that LDL receptor activity is significantly involved in VLDL triglyceride metabolism in rabbits.
Atherosclerosis 1998 Feb
PMID:Triglyceride metabolism in heterozygote of Watanabe heritable hyperlipidemic rabbit. 954 4

Epidemiological studies have established that diabetes mellitus and hypertension are independent risk factors for atherosclerosis. One of the earliest abnormalities seen in atherogenesis is enhanced monocyte adherence to the endothelium. The mechanisms by which diabetes mellitus or hypertension enhances monocyte-endothelial cell interactions are incompletely characterized. It is not known whether there are additive interactions between these risk factors on endothelial adhesiveness for monocytes. Male Wistar-Kyoto (WKY) and spontaneously hypertensive (SHR) rats were fed a normal or fructose-enriched diet. In some cases, animals were injected with streptozotocin (35 mg/kg body weight) to induce diabetes. After 2 weeks, plasma was drawn for biochemical measurements, and thoracic aortas were harvested, opened longitudinally, and exposed to fluorescently labeled mouse monocytoid cells (WEHI 78/24, 2 x 10(6)/mL) for 30 minutes on a rocking platform. Adherent cells were counted by epifluorescence microscopy. WEHI 78/24 binding to aortic segments from SHR animals was elevated compared with segments from WKYs. Fructose feeding alone had no effect on endothelial adhesiveness. When WKYs were made hyperglycemic by STZ injection, monocyte binding was 160% of the control value. Elevated monocyte binding was also observed in aortas derived from SHR animals injected with STZ, indicating an additive effect of hypertension and hyperglycemia. To determine whether alterations in oxidative state played a role in the endothelial adhesiveness, aortic segments were exposed to lucigenin (250 micromol/L) for measurement of superoxide anion. Aortic segments from SHR elaborated 120% more superoxide anion than did controls. Elevated free-radical production was also observed in aortas from diabetic WKYs. Furthermore, thoracic aortas derived from diabetic SHR animals elaborated more superoxide anion than did any of the other groups (374%, P<0.05). Immunohistochemical staining for monocyte chemotactic protein-1 demonstrated increased expression in aortas isolated from diabetic WKY and SHR compared with control vessels. These studies demonstrate that both diabetes and hypertension lead to increased monocyte adherence to the endothelium. This abnormality is associated with increased vascular superoxide production and monocyte chemotactic protein-1 expression. Furthermore, there appears to be an additive interaction between hyperglycemia and hypertension in their effects on endothelial adhesiveness and its determinants.
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PMID:Interaction of diabetes and hypertension on determinants of endothelial adhesiveness. 963 36

The aim of this study was to evaluate the proliferative behavior of vascular smooth muscle cells in primary culture (pC-SMC) and the endothelial nitric oxide synthase (eNOS) activity in the endothelial lining of the aorta of fructose-fed rats (FFR). This is an experimental model of syndrome X, a cluster of cardiovascular risk factors including hyperinsulinemia, insulin resistance, and hypertension that has been suggested to be of pathophysiologic importance for the development of atherosclerosis. Male Wistar rats were used: Control (n = 12) and FFR (n = 12). After receiving fructose in drinking water (10% w/v) during 8 weeks, biochemical parameters, systolic blood pressure (SBP) and relative heart weight (RHW) were determined. The proliferative effect of 10% fetal calf serum (FCS) was examined in aortic pC-SMC by [3H]thymidine incorporation and by cell counting. Ca2+/calmodulin-dependent NOS activity was estimated in aortic endothelial lining and in heart tissue homogenates by conversion of [3H]arginine into [3H]citrulline. Fructose-fed rats showed hyperinsulinemia (P = .0263), altered glucose tolerance test (P < .001), higher SBP (P < .0001), and RHW (P = .0145), compared to control rats. These animals also showed an increase of 10% FCS-induced [3H]thymidine incorporation (P < .0001) and cell number of aortic pC-SMC (P = .0049) and decreased eNOS activity in both aortic endothelium (P = .0147) and cardiac tissue (P < .0001). These data support the hypothesis that syndrome X is associated to changes in SMC proliferation and endothelial dysfunction, which could be involved in the onset or progression of the atherogenic process.
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PMID:Aortic smooth muscle cell proliferation and endothelial nitric oxide synthase activity in fructose-fed rats. 1172 13

A novel animal model of insulin resistance, the fructose-fed Syrian golden hamster, was employed to investigate the efficacy and mechanisms of action of rosuvastatin, a HMG-CoA reductase inhibitor, in ameliorating metabolic dyslipidemia in insulin-resistant states. Fructose feeding for a 2-week period induced insulin resistance and a significant increase in hepatic secretion of VLDL. This was followed by a fructose-enriched diet with or without 10 mg/kg rosuvastatin for 14 days. Fructose feeding in the first 2 weeks caused a significant increase in plasma total cholesterol and triglyceride in both groups (n=6, p<0.001). However, there was a significant decline (30%, n=8, p<0.05) in plasma triglyceride levels following rosuvastatin feeding (10 mg/kg). A significant decrease (n=6, p<0.05) was also observed in VLDL-apoB production in hepatocytes isolated from drug-treated hamsters, together with an increased apoB degradation (n=6, p<0.05). Similar results were obtained in parallel cell culture experiments in which primary hepatocytes were first isolated from chow-fed hamsters, and then treated in vitro with 15 microM rosuvastatin for 18 h. Rosuvastatin at 5 microM caused a substantial reduction in synthesis of unesterified cholesterol and cholesterol ester (98 and 25%, n=9, p<0.01 or p<0.05) and secretion of newly synthesized unesterified cholesterol, cholesterol ester, and triglyceride (95, 42, and 60% reduction, respectively, n=9, p<0.01 or p<0.05). This concentration of rosuvastatin also caused a significant reduction (75% decrease, n=4, p<0.01) in the extracellular secretion of VLDL-apoB100, accompanied by a significant increase in the intracellular degradation of apoB100. There was a 12% reduction (not significant, p>0.05) in hepatic MTP and no changes in ER-60 (a chaperone involved in apoB degradation) protein levels. Taken together, these data suggest that the assembly and secretion of VLDL particles in hamster hepatocytes can be acutely inhibited by rosuvastatin in a process involving enhanced apoB degradation. This appears to lead to a significant amelioration of hepatic VLDL-apoB overproduction observed in the fructose-fed, insulin-resistant hamster model.
Atherosclerosis 2006 Mar
PMID:Effect of rosuvastatin on hepatic production of apolipoprotein B-containing lipoproteins in an animal model of insulin resistance and metabolic dyslipidemia. 1600 78

This study was performed to investigate whether the plasma concentration of phosphatidylcholine hydroperoxide (PCOOH), which is a marker of oxidized stress in the blood, increased in cholesterol-fed rabbits, and fructose ingestion promoted this process and aggravated atherosclerosis. Male Japanese white rabbits (age: 12 weeks, and body weight: around 2.0 kg, n = 15) were divided into three groups, (1) a NN group as a normal control fed a standard diet (n = 5), (2) a CN group fed 1.0% cholesterol, and (3) a CF group given both 1.0% cholesterol and 10% fructose-containing tap water. During 8 weeks, plasma PCOOH levels increased significantly in the CN and CF groups compared to the NN group and fructose further raised the PCOOH level. The atherosclerosis was significantly promoted and the deposition of advanced glycation end products (AGEs) was marked in the CF group compared to the CN group. Fructose worsened the atheromatous lesions caused by cholesterol feeding. The mechanism is most likely through lipid peroxidation, which was increased by cholesterol feeding-induced hyperlipidemia, and the formation of AGEs.
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PMID:Fructose ingestion enhances atherosclerosis and deposition of advanced glycated end-products in cholesterol-fed rabbits. 1620 22

The consumption of fructose, primarily from high-fructose corn syrup (HFCS), has increased considerably in the United States during the past several decades. Intake of HFCS may now exceed that of the other major caloric sweetener, sucrose. Some nutritionists believe fructose is a safer form of sugar than sucrose, particularly for people with diabetes mellitus, because it does not adversely affect blood-glucose regulation, at least in the short-term. However, fructose has potentially harmful effects on other aspects of metabolism. In particular, fructose is a potent reducing sugar that promotes the formation of toxic advanced glycation end-products, which appear to play a role in the aging process; in the pathogenesis of the vascular, renal, and ocular complications of diabetes; and in the development of atherosclerosis. Fructose has also been implicated as the main cause of symptoms in some patients with chronic diarrhea or other functional bowel disturbances. In addition, excessive fructose consumption may be responsible in part for the increasing prevalence of obesity, diabetes mellitus, and non-alcoholic fatty liver disease. Although the long-term effects of fructose consumption have not been adequately studied in humans, the available evidence suggests it may be more harmful than is generally recognized. The extent to which a person might be adversely affected by dietary fructose depends both on the amount consumed and on individual tolerance. With a few exceptions, the relatively small amounts of fructose that occur naturally in fruits and vegetables are unlikely to have deleterious effects, and this review is not meant to discourage the consumption of these healthful foods.
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PMID:Adverse effects of dietary fructose. 1636 38

Nonalcoholic fatty liver disease (NAFLD) is now thought to be the most common liver disease worldwide. Cardiovascular complications are a leading cause of mortality in NAFLD. Fructose, a common nutrient in the westernized diet, has been reported to be associated with increased cardiovascular risk, but its impact on adolescents with NAFLD is not well understood. We designed a 4-week randomized, controlled, double-blinded beverage intervention study. Twenty-four overweight Hispanic-American adolescents who had hepatic fat >8% on imaging and who were regular consumers of sweet beverages were enrolled and randomized to calorie-matched study-provided fructose only or glucose only beverages. After 4 weeks, there was no significant change in hepatic fat or body weight in either group. In the glucose beverage group there was significantly improved adipose insulin sensitivity, high sensitivity C-reactive protein (hs-CRP), and low-density lipoprotein (LDL) oxidation. These findings demonstrate that reduction of fructose improves several important factors related to cardiovascular disease despite a lack of measurable improvement in hepatic steatosis. Reducing dietary fructose may be an effective intervention to blunt atherosclerosis progression among NAFLD patients and should be evaluated in longer term clinical trials.
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PMID:Dietary fructose reduction improves markers of cardiovascular disease risk in Hispanic-American adolescents with NAFLD. 2511 Nov 23

Klotho is a transmembrane protein, expressed mainly in the kidneys and the choroid plexus. The extracellular domain of klotho is composed of 2 internal repeats, KL1 and KL2, which can be cleaved and act as hormones. Klotho-deficient mice develop a phenotype resembling human aging. Laboratory and clinical data suggest a favorable effect of klotho on atherosclerosis, high blood pressure, and metabolic syndrome. Therefore, we aimed to study the effect of klotho treatment on atherogenesis, blood pressure, and metabolic parameters in experimental rodent models. Fructose-fed Sprague-Dawley rats (metabolic syndrome model) and apolipoprotein E (apoE -/-) knock-out mice (atherosclerosis model) were treated with either klotho or its active domain KL1. In apoE -/- mice, klotho unexpectedly elevated plasma cholesterol and triglyceride levels compared to the control group. Yet, it did not increase the aortic sinus atherosclerotic lesion area. In fructose-fed Sprague-Dawley rats, klotho treatment did not lower blood pressure or plasma triglyceride levels. Although KL1 treatment did not lower blood pressure or plasma insulin levels, it significantly reduced the elevation of total plasma triglyceride levels (from 2.3-fold to 1.6-fold, p<0.05) due to lower triglyceride-rich VLDL levels. Klotho did not show any beneficial effects on atherosclerosis and components of the metabolic syndrome and was associated with increased plasma cholesterol levels. On the other hand, treatment with KL1 may lower plasma triglyceride levels independent of insulin. Additional studies are required in order to decipher the complex role of klotho and its active domains in the regulation of plasma lipid levels.
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PMID:The Effect of Klotho Treatment on Atherogenesis, Blood Pressure, and Metabolic Parameters in Experimental Rodent Models. 2595 21


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