Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0011849 (diabetes)
277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Although diabetes is a major cause of chronic kidney disease (CKD), limited data describe the cardiovascular benefit of hydroxymethyl glutaryl CoA reductase inhibitors (statins) in people with both of these conditions. This study sought to determine whether pravastatin reduced the incidence of first or recurrent cardiovascular events in people with non-dialysis-dependent CKD and concomitant diabetes, using data from three randomized trials of pravastatin 40 mg daily versus placebo. CKD was defined by estimated GFR <60 or 60 to 89.9 ml/min per 1.73 m2 with proteinuria. Of 19,737 patients, 4099 (20.8%) had CKD but not diabetes at baseline, 873 (4.4%) had diabetes but not CKD, and 571 (2.9%) had both conditions. The primary composite outcome was time to myocardial infarction, coronary death, or percutaneous/surgical coronary revascularization. Median follow-up was 64 mo. After adjustment for trial and random treatment assignment, the incidence of the primary outcome was lowest in individuals with neither CKD nor diabetes (15.2%), intermediate in individuals with only CKD (18.6%) or only diabetes (21.3%), and highest in individuals with both characteristics (27.0%). Pravastatin reduced the relative likelihood of the primary outcome to a similar extent in subgroups defined by the presence or absence of CKD and diabetes. For example, pravastatin was associated with a significant reduction in the relative risk of the primary outcome by 25% in patients with CKD and concomitant diabetes and by 24% in individuals with neither characteristic. However, the absolute reduction in the risk of the primary outcome as a result of pravastatin use was highest in patients with both CKD and diabetes (6.4%) and lowest in individuals with neither characteristic (3.5%). In conclusion, stage 2 or early stage 3 CKD and diabetes both are associated with higher cardiovascular risk, and pravastatin reduces cardiovascular event rates in people with neither, one, or both characteristics. Given the high absolute benefit of pravastatin in patient with diabetes and stage 2 or early stage 3 CKD, this population in particular should be targeted for widespread use of statins. Additional studies are needed to determine whether these benefits apply to patients with more severe CKD, and recruitment to such studies should be given high priority.
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PMID:Effect of pravastatin in people with diabetes and chronic kidney disease. 1625 Dec 35

Pravastatin, irbesartan and captopril are frequently used in the treatment of patients with Type 2 diabetes. These drugs also exert beneficial metabolic effects, causing an improved glucose tolerance in patients, but the precise mechanisms by which this is achieved remain elusive. To this end, we have studied whether these drugs influence insulin secretion in vivo through effects on islet blood perfusion. Captopril (3 mg/kg of body weight), irbesartan (3 mg/kg of body weight) and pravastatin (0.5 mg/kg of body weight) were injected intravenously into anaesthetized female Wistar rats. Blood flow rates were determined by a microsphere technique. Blood glucose concentrations were measured with test reagent strips and serum insulin concentrations were measured by ELISA. Pancreatic blood flow was markedly increased by pravastatin (P<0.001), captopril (P<0.05) and irbesartan (P<0.01). Pancreatic islet blood flow was significantly and preferentially enhanced after the administration of captopril (P<0.01), irbesartan (P<0.01) and pravastatin (P<0.001). Kidney blood flow was enhanced significantly by pravastatin (P<0.01), irbesartan (P<0.05) and captopril (P<0.01). Captopril and pravastatin also enhanced late-phase insulin secretion and positively influenced glycaemia in intraperitoneal glucose tolerance tests. In conclusion, the present study suggests that a local pancreatic renin-angiotensin system and pravastatin treatment may be selectively controlling pancreatic islet blood flow, augmenting insulin secretion and thereby improving glucose tolerance. Our findings indicate significant gender-related differences in the vascular response to these agents. Since statins and renin-angiotensin system inhibitors are frequently used by diabetic patients, the antidiabetic actions of these drugs reported previously might occur, in part, through the beneficial direct islet effects shown in the present study.
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PMID:Vasoactive drugs enhance pancreatic islet blood flow, augment insulin secretion and improve glucose tolerance in female rats. 1702 May 39

Guidelines from the National Cholesterol Education Program (NCEP) Adult Treatment Panel III (ATP III) focus the need for the most intensive efforts to lower low-density lipoprotein cholesterol (LDL-C) in the patients at greatest risk of a major future clinical coronary heart disease event. Major clinical trials, such as Pravastatin or Atorvastatin Evaluation and Infection Therapy and the Heart Protection Study, demonstrated the value of lowering LDL-C levels in high-risk patients to well below the ATP III target of <100 mg/dL. In 2004, the NCEP writing group suggested that a more aggressive LDL-C goal of <70 mg/dL is an option when treating high-risk patients, particularly those with the presence of established cardiovascular disease plus major multiple risk factors (especially diabetes), severe and poorly controlled risk factors (ie, cigarette smoking), multiple criteria of the metabolic syndrome, or an acute coronary syndrome. With stricter targets, high-risk patients are less likely to achieve their cholesterol goals than lower risk patients. Recent large trials comparing rosuvastatin with other statin monotherapies have shown a greater LDL-C reduction and better attainment of goals with rosuvastatin. In addition, the MERCURY [Measuring Effective Reductions in Cholesterol Using Rosuvastatin Therapy] trials demonstrate that switching to rosuvastatin significantly increased the percentage of patients who achieved their ATP III LDL-C targets.
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PMID:Rising to the challenge of treating high-risk patients. 1704 74

Reduced incidence of type-2 diabetes has been shown in patients treated with pravastatin. Adiponectin can exhibit beneficial effects on glucose metabolism. We investigated whether pravastatin could improve glucose tolerance associated with increasing adiponectin levels in patients with impaired glucose tolerance (IGT). This study consisted of 40 coronary artery disease (CAD) patients with IGT assessed by oral glucose tolerance test (OGTT). Patients were randomized to receive pravastatin (n=20) or no lipid-lowering medications (control group, n=20) for 6 months, after which OGTT was repeated and adiponectin levels were measured. Pravastatin treatment significantly decreased levels of total cholesterol (16%), low-density lipoprotein cholesterol (23%) and high-sensitivity C-reactive protein (37%) (p<0.01, respectively). At 2h in OGTT, pravastatin significantly improved hyperglycemia (-14%) and hyperinsulinemia (-23%). Pravastatin treatment significantly elevated plasma adiponectin levels (35%; p<0.001) but not in the control group. The glucose reduction at 2h post-OGTT was significantly associated with increased levels of adiponectin (r=-0.462; p=0.003). Pravastatin treatment is an independent predictor for improvement of post-loaded hyperglycemia (odds ratio; 5.7; 95% confidence interval 1.7-19.3; p=0.003) and achieved beneficial conversion from IGT to normal glucose tolerance (40%; p=0.03). Pravastatin exhibits beneficial effects on glucose metabolism especially in the postprandial state associated with increasing plasma adiponectin levels in CAD patients with IGT.
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PMID:Pravastatin improved glucose metabolism associated with increasing plasma adiponectin in patients with impaired glucose tolerance and coronary artery disease. 1711 29

In the West of Scotland Coronary Prevention Study (WOSCOPS), treatment of hypercholesterolemic men with pravastatin, an inhibitor of 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase, reduced their likelihood to progress to diabetes mellitus by 30%. However, the mechanism of this effect of pravastatin has not been investigated. In the current study, we examined the effect of pravastatin on the development of diabetes in obese diabetic mice, and on the insulin-induced glucose uptake and adiponectin production. Pravastatin treatment attenuated the development of diabetes in db/db and high fat/high sucrose diet-fed C57BL/6J mice. An in vivo glucose transport assay showed that pravastatin upregulated glucose uptake in adipose tissue. Insulin-stimulated glucose uptake was enhanced in primary adipocytes isolated from pravastatin-treated mice. Pravastatin treatment increased adiponectin production in 3T3-L1 adipocytes. Plasma adiponectin levels were significantly increased in pravastatin-treated mice. Analyses of plasma samples from the WOSCOPS biobank indicated a significant increase of plasma adiponectin levels with pravastatin treatment (placebo -0.28+/-0.34 microg/ml versus pravastatin +1.47+/-0.33 microg/ml, p=0.0003). Taken together, our findings suggest that pravastatin may have beneficial effects on adipose tissue, which may partly explain the reduction of the development of diabetes by pravastatin treatment.
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PMID:Effect of pravastatin on the development of diabetes and adiponectin production. 1739 75

Young patients with diabetes but without established vascular disease have altered conduit and resistance artery reactivity. Early endothelial dysfunction is an initial step in atherogenesis: reductions in nitric oxide (NO) production in these vascular beds are implicated. The study aim was two-fold: first, to detect baseline abnormalities in cardiac function, conduit vessels and the microcirculation using applanation tonometry, brachial artery ultrasound and laser Doppler fluximetry, respectively; and second, to investigate any modification in these parameters with the use of pravastatin. Nine young men with diabetes and normoalbuminuria were randomised in a double-blind cross-over fashion to placebo or pravastatin (40 mg) treatment for two weeks. They underwent scans on three separate occasions. Control patients (n=12) underwent a baseline scan but were not given any drug treatment. It was found that patients with diabetes had significantly higher systolic and diastolic blood pressures, heart rate and Buckberg index (propensity to myocardial ischaemia). Brachial artery reactivity and microcirculatory dilation were both reduced. Levels of von Willebrand Factor, a marker of endothelial damage, were also elevated. Pravastatin treatment restored these sub-clinical abnormalities towards normal levels. In conclusion, pravastatin improves vascular abnormalities in young male patients with diabetes through alterations in microcirculation and conduit vessel function, with secondary myocardial effects. This may be of benefit in preventing end-organ injury.
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PMID:Two-week treatment with pravastatin improves ventriculo-vascular haemodynamic interactions in young men with type 1 diabetes. 1746 45

Liver allograft recipients are at increased risk of death from cerebrovascular and cardiovascular disease. We propose the following strategy of risk-reduction, based on currently available literature. Lifestyle: standard advice should be given (avoidance of smoking, excess alcohol and obesity, adequate exercise, reduction of excess sodium intake). Hypertension: target blood pressure should be 140/90 mmHg or lower, but for those with diabetes or renal disease, 130/80 mmHg or lower. For patients without proteinuria, antihypertensive therapy should be initiated with a calcium channel blocker and for those with proteinuria, an angiotensin-converting enzyme (ACE) inhibitor or angiotensin II receptor blocker. If monotherapy fails to achieve adequate response, calcium channel blockers and ACE-inhibitors or angiotensin II receptor blockers should be combined. If hypertension remains uncontrolled, an alpha-blocker may be added. Consideration should be given to changing immunosuppression and avoiding use of calcineurin inhibitors. Diabetes: recipients should be regularly screened for diabetes. For patients with new-onset diabetes after transplant, stepwise therapy should be guided by HbA1c concentrations, as with type II diabetes mellitus. Hyperlipidemia: annual screening of lipid profile should be undertaken, with treatment thresholds and targets based on those advocated for the high risk general population. Dietary intervention is appropriate for all patients. A statin should be considered as the first line treatment to achieve specified targets. In patients receiving a calcineurin inhibitor, Pravastatin should be commenced at a dose of 10 mg/day. In patients receiving other forms of immunosuppression, pravastatin may be commenced at a dose of 20 mg/day. Liver tests should be monitored and patients warned to report myalgia. If monotherapy is inadequate, ezetimibe or a fibrate may be added. Consideration may be given to change in immunosuppression if combination lipid-lowering therapy proves inadequate.
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PMID:Reducing the risks of cardiovascular disease in liver allograft recipients. 1749 26

An association between hypercholesterolaemia and ischaemic stroke has not yet been clearly defined by observational studies. In clinical trials, however, cholesterol-lowering treatments appear to consistently reduce stroke risk. Data are now available from various primary prevention studies - ALLHAT-LLT (Antihypertensive and Lipid-Lowering treatment to prevent Heart Attack, Lipid-Lowering Therapy), ASCOT-LLA (Anglo-Scandinavian Cardiac Outcomes Trial, Lipid-Lowering Arm), CARDS (Collaborative Atorvastatin Diabetes Study, WOSCOPS (West of Scotland COronary Prevention Study) - and secondary prevention studies - 4S (Scandinavian Simvastatin Survival Study), CARE (Cholesterol and Recurrent Events), GREACE (GREek Atorvastatin and Coronary-heart-disease Evaluation), HPS (Heart Protection Study), LIPID (Long-term Intervention with Pravastatin in Ischaemic Disease), MIRACL (Myocardial Ischemia Reduction with Aggressive Cholesterol Lowering), SPARCL (Stroke Prevention by Aggressive Reduction in Cholesterol Levels), TNT (Treating to New Targets) - confirming the ability of statins to reduce stroke risk. Regarding primary prevention, post hoc analyses showed pravastatin reduced the relative risk of stroke by 9-11% (not statistically significant) in the ALLHAT-LLT and WOSCOPS trials, whereas atorvastatin reduced this risk by 27-48% in the ASCOT-LLA (p = 0.024) and CARDS trials. It remains to be established in prospective studies whether cholesterol-lowering is effective in the primary prevention of stroke. Regarding secondary prevention, in five placebo-controlled studies (4S, CARE, HPS, LIPID, MIRACL) involving a total of >40 000 patients with coronary heart disease (CHD), statin therapy reduced the relative risk of fatal or nonfatal stroke by 19-50% (p < or = 0.048); the largest decrease was produced by atorvastatin in the MIRACL study (-50%, p = 0.045). In addition, high-dosage atorvastatin reduced stroke risk by 25% (p = 0.02) relative to lower-dosage therapy in the TNT trial, and by 47% (p = 0.034) relative to 'usual' care in the GREACE study. A post hoc analysis of data for 3280 HPS study participants who had had a previous stroke revealed that simvastatin reduced major vascular events by 20% (p = 0.001).The SPARCL study assessed the secondary preventive efficacy of atorvastatin versus placebo in 4731 patients with a history of stroke or transient ischaemic attack (TIA), but without CHD. Atorvastatin reduced the adjusted relative risk of fatal or nonfatal stroke by 16% (p = 0.03), and that of fatal stroke alone by 43% (p = 0.03). Among secondary study endpoints, atorvastatin reduced the relative risks of stroke and TIA (-23%; p < 0.001), TIA alone (-26%; p = 0.004), and ischaemic stroke (-22%; p = 0.01). Overall, SPARCL study findings suggest that intensive atorvastatin therapy should be started immediately after a stroke or TIA. In summary, atorvastatin has developed a well defined role in the primary and secondary prevention of cerebrovascular disease, and appears to have a particularly prominent place in preventing such disease in CHD patients, and in the post-stroke and post-TIA setting in patients without CHD.
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PMID:Atorvastatin: its clinical role in cerebrovascular prevention. 1791 May 21

A number of patients with hyperlipidemia are prescribed 3-hydroxy-3-methylglutaryl-CoA reductase inhibitors that are concomitantly used along with the treatment of diabetes mellitus. The effects of atorvastatin and pravastatin on insulin-induced glucose uptake and the related signal transduction in 3T3L1 adipocytes were studied. 3T3L1 fibroblasts were differentiated into adipocytes, pretreated with atorvastatin or pravastatin, and then exposed to insulin. Glucose uptake and the amount of insulin signal proteins were measured. Atorvastatin significantly decreased insulin-stimulated 2-deoxyglucose uptake in 3T3L1 adipocytes associated with the prevention of translocation of GLUT4 into the plasma membrane. The amounts of Rab4 and RhoA that required lipid modification with farnesyl or geranylgeranyl pyrophosphate, in the membrane fraction were decreased by atorvastatin. Insulin-induced tyrosine phosphorylation of IRS-1 and serine/threonine phosphorylation of Akt were reduced by atorvastatin. Pravastatin did not modify these insulin-induced changes in the signal transduction. Inhibitors of the RhoA/Rho kinase system, C3 and Y27632, as well as atorvastatin reduced insulin-induced changes in signal transduction. Atorvastatin and pravastatin did not affect messenger RNA expression, protein level, and tyrosine phosphorylation of insulin receptors. In conclusion, hydrophobic atorvastatin decreases the glucose uptake by 3T3L1 adipocytes since it can enter the cell and prevents lipid modification of some proteins that are involved in the insulin signal transduction process.
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PMID:Effects of atorvastatin and pravastatin on signal transduction related to glucose uptake in 3T3L1 adipocytes. 1846

The combination of diabetes and hyperlipidemia promotes the development of atherosclerosis. Therefore, it is important for diabetic patients to control blood fat. 3-Hydroxy-3-methylglutaryl enzyme A (HMG-CoA) reductase inhibitors (statins), like pravastatin, are frequently administered to diabetic patients for this purpose. Although the alterations of metabolic enzymes and transporters in the diabetic liver maybe change the disposition of pravastatin, the effect has not been fully investigated. In the present study, we investigated the disposition of pravastatin and the mRNA expression of transporters in the liver. Pravastatin (5 mg.kg(-1) body weight) was administered intravenously to diabetic rats, and the pravastatin concentrations in the plasma, urine, and bile were measured by high-performance liquid chromatography. Changes in the mRNA expressions of multidrug resistance-associated protein 2 (MRP2) and organic anion transporting polypeptide 2 (OATP2) in the liver were also estimated using reverse transcriptase-polymerase chain reaction (RT-PCR). We found that the plasma pravastatin concentration was lower in the diabetic rat because the transportation of pravastatin into hepatocytes was promoted along with increased expression of OATP2. The biliary excretion ratio of pravastatin was significantly lower in the diabetic rat because the pravastatin transportation into bile was reduced along with the decreased expression of MRP2. To clarify these phenomena, the analysis of mRNA expression using real-time PCR and the measurement of the amount and the activity of proteins are necessary in future study.
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PMID:The disposition of pravastatin in a rat model of streptozotocin-induced diabetes and organic anion transporting polypeptide 2 and multidrug resistance-associated protein 2 expression in the liver. 2004 56


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