Gene/Protein Disease Symptom Drug Enzyme Compound
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Mild hyperhomocysteinemia has been associated with an increased risk to develop premature coronary heart disease. Recently, the homocysteine concentration has been positively correlated with several main cardiovascular risk factors. We addressed the issue as to whether patients with coronary heart disease and a low cardiovascular risk profile also have a higher prevalence of hyperhomocysteinemia than matched controls. Ninety-five patients (aged 50.5 +/- 6.6 years) and 34 controls (50.0 +/- 6.7 years) less than 60 years of age were selected from a sample of patients after coronary angiography. Subjects with hypertension, diabetes, and moderate or severe hyperlipidemia were excluded. We determined plasma aminothiols (total homocysteine, cysteine, and glutathione), lipoprotein fractions, fibrinogen, and uric acid, the body mass index (weight in kilograms divided by height in meters squared), and the waist to hip ratio. Furthermore, 37 healthy subjects aged 30.8 +/- 7.5 years underwent aminothiol determinations. Patients and controls were similar with regard to age and primary cardiovascular risk factors. Total homocysteine concentrations in the patient group (9.2 +/- 2.4 micromol/L) were significantly higher than in the healthy subjects (8.0 +/- 2.0 micromol/L). However, they did not differ from the levels in the age-matched controls (9.3 +/- 3.0 micromol/L). Neither total cysteine nor glutathione concentrations were significantly different between patients and controls. Male patients (n = 85) had higher mean very-low-density lipoprotein (VLDL) triglycerides (1.36 +/- 0.90 mmol/L) and lower high-density lipoprotein 3 (HDL3) cholesterol (0.75 +/- 0.21 mmol/L) than male controls (n = 28; 1.01 +/- 0.62 and 0.88 +/- 0.26 mmol/L, respectively). Female patients did not have any significant differences in lipoprotein concentrations versus the controls. Among further cardiovascular risk factors, we found a higher prevalence of central obesity in male patients. In conclusion, there was not a higher incidence of hyperhomocysteinemia among patients with premature coronary heart disease and a low cardiovascular risk profile. The higher prevalence of hyperhomocysteinemia found in other studies may be related to the primary risk factors seen in these populations, and may therefore be an indicator of the global cardiovascular risk.
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PMID:Plasma total homocysteine levels in patients with early-onset coronary heart disease and a low cardiovascular risk profile. 950 May 62

The prevention of coronary artery disease is based on the control of several factors associated with a disease or clinical condition and suspected to play a pathogenetic role, defined as 'risk factors'. Smoking is a powerful risk factor for coronary artery disease, with risk of events increasing in relation to the number of cigarettes smoked daily. Smoking cessation is associated within 3-4 years, with a significant reduction in cardiovascular risk. Hyperlipidaemia is a powerful predictor of coronary disease with a strong, independent, continuous and graded positive association between cholesterol levels and risk of coronary events. Several large studies have shown the benefit of cholesterol reduction, and there is clear evidence of the efficacy of statins in the reduction of events in primary and secondary prevention. Hypertension is a significant, strong and independent risk factor for coronary artery disease morbidity and mortality and the reduction of events and mortality by antihypertensive treatment is well documented. Obesity is associated with an increase in all-cause mortality and cardiovascular mortality, with a particularly high risk for subjects with central obesity. Central obesity is also part of the so-called 'metabolic X syndrome' including insulin resistance, which appears to be associated with a particularly high risk of coronary artery disease. Type 1 and type 2 diabetes mellitus are associated with an increased risk of cardiovascular disease, especially in women. Several studies have shown that good metabolic control and multifactorial risk factor reduction significantly lower the coronary risk in these patients. Recent evidence is accumulating that some clotting factors (fibrinogen, factor VII, von Willebrand factor) and fibrinolytic factors (t-PA and PAI-1) are associated with an increased risk of coronary artery disease. The European Concerted Action on Thrombosis (ECAT) showed that the levels of fibrinogen, von Willebrand factor antigen, and t-PA antigen are independent predictors of subsequent coronary syndromes in patients with angina pectoris, and that low fibrinogen is associated with a low risk of events despite high cholesterol levels. Post-menopausal status is associated with increased risk of coronary artery disease, particularly when menopause is premature (before the age of 45) or abrupt (surgical). There is strong, thought not yet completely definite evidence that post-menopausal hormone replacement therapy may significantly reduce the risk of events and improve survival. Hyperhomocysteinaemia is an emerging risk factor independently associated with an increased risk of coronary artery disease, cerebral vascular disease, and peripheral vascular disease. The administration of vitamin B6, B12 or folate seems to be useful and is currently under further evaluation. Recently, attention has been focused on the correlation between coronary artery disease and genetic factors, such as ACE gene polymorphism or the gene polymorphism for the IIIa-moiety of the platelet fibrinogen receptor IIb-IIIa. In primary prevention, control of the major risk factors mainly in patients with clustered factors will substantially reduce the risk of ischaemic events. Secondary prevention of CHD is based on: aggressive behavioural advice, blood pressure reduction in hypertensives, good metabolic control of diabetes, and cholesterol reduction. Aspirin, beta-blockers, ACE inhibitors, and oral anticoagulants, may be useful in selected patients.
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PMID:Classical risk factors and emerging elements in the risk profile for coronary artery disease. 951 44

The identified main causes of inherited thrombophilia are deficiencies of antithrombin (AT), protein C, or protein S, resistance to activated protein C associated with Factor V Leiden mutation, mutant factor II, and inherited hyperhomocysteinemia. For women from symptomatic families, these defects may be associated with an increased risk of venous thrombosis during pregnancy and/or recurrent fetal loss. Inherited thrombophilia is common and appears to be a multigenic disorder. The thrombotic risk seems to be greatest for women who have AT deficiency or more than one thrombophilic defect. The abnormalities that are now recognized are only part of the genetic predisposition to thrombosis. When assessing thrombotic risk during pregnancy, acquired risk factors as well as genetic predisposition should be considered. Increasing age, obesity, immobility, and delivery by cesarean section are major acquired risk factors. Pregnancy should be planned as far as possible, and each patient should be managed individually. During pregnancy, heparin is the anticoagulant of choice, and treatment with warfarin should be avoided because of risks for the fetus. When patients receive long-term treatment with warfarin, pregnancy should be avoided or planned, and warfarin should be discontinued before conception or as soon as pregnancy is confirmed and before 6-weeks' gestation. For women who have AT deficiency, the incidence of thrombosis during pregnancy is between 20 and 40%. Adjusted-dose heparin throughout pregnancy is recommended, followed by warfarin for at least 3 months postpartum. For patients who have Factor V Leiden, mutant factor II, or a deficiency of protein C or protein S, treatment can be based on personal and family history. Thromboprophylaxis during late pregnancy and postpartum should be considered. Fetal loss may be increased for women with inherited thrombophilia. The risk appears to be greatest for women with AT deficiency and women with more than one thrombophilic defect. For women with recurrent fetal death and inherited thrombophilia, a number of case reports claim that prophylaxis with heparin during pregnancy has resulted in successful pregnancy.
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PMID:Inherited thrombophilia and pregnancy: the obstetric perspective. 984 Jun 92

Recurrent venous thrombotic and thromboembolic disease, once thought to be an uncommon entity, is increasingly being recognized. Etiologies of recurrent deep venous thrombosis usually include elements of Virchow's triad. Venous stasis (e.g., immobilization, congestive heart failure, acute myocardial infarction, obesity), hypercoagulability (e.g., malignancy, inflammatory bowel disease, hyperhomocysteinemia, protein C resistance, antithrombin III, protein C or S deficiency) and endothelial trauma (e.g., surgical trauma, venous trauma, in-dwelling venous instrumentation) are risk factors. Diagnosis is dependent on objective testing, including venography duplex Doppler (color) ultrasonography and impedance plethysmography. Treatment is usually started with heparin or low-molecular-weight heparin and advanced to warfarin (adjusted to international normalized ratio). Prophylaxis may continue using low-molecular-weight heparin, warfarin, venacaval interruption (Greenfield filter), or concomitant use of the platelet-active agent indobufen and graduated compression stockings.
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PMID:Clinical therapeutic conference: recurrent venous thrombotic and thromboembolic disease. 1009 38

The immune maladaptation hypothesis of preeclampsia is concordant with cytokine-mediated oxidative stress, chronology of endothelial activation, lipid changes, adverse effect of changing partners, and the protective effect of sperm exposure. Genetic factors may involve underlying hereditary thrombophilic disorders and hyperhomocysteinemia, essential hypertension and/or obesity, or control of the Th1/Th2 balance and thus affect the maternal response against fetal antigens. Placental ischemia and increased syncytiotrophoblast deportation are probably end-stage disease phenomena.
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PMID:The immunology of preeclampsia. 1010 68

TNF-alpha (so-called cachectin), IL-1 and 6 are important regulating agents in the homeostasis of energy in the organism, as among others they control processes of apoptosis and thus also the volume of adipose and muscular tissues. They are produced not only in immunocompetent cells but also in adipocytes and muscle cells. The cytokine system is then activated not only in tumours and infections but elevated values were found also in obesity, NIDDM, in myocardial infarction and in advanced decompensated cardiac patients. By acting on phosphorylation of IRS-1 and PI-3 kinase TNF-alpha promotes significantly insulin resistance, causes deterioration of diabetes, as well as elevated body temperature, sleepiness and anorexia. In a group of 65 patients, mostly with android obesity, in hyperleptinaemic and insulin resistant probands with coronarographically confirmed microvascular angina pectoris (n = 22) or IHD, mostly after a myocardial infarction (n = 43) with one or more significant stenoses on the epicardial coronary arteries in half the patients positive or elevated TNF-alpha was found and in 28% also IL-6. This increase did not correlate however with BMI, the percentage of body fat, IRI and C peptide levels nor with cortisol and leptin levels. Insulin resistant subjects had more frequently elevated homocysteine and Lp(a) values which are further two independent risk factors of atherothrombogenesis. Hyperhomocysteinaemia can be favourably influenced by vitamin fortification of the diet or by administration of folate and pyridoxine (1 tablet per day) involving negligible financial costs.
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PMID:[Relation between cytokines (TNF-alpha, IL-1 and 6) and homocysteine in android obesity and the phenomenon of insulin resistance syndromes]. 1042 20

The identified main causes of inherited thrombophilia are deficiencies of antithrombin, protein C and protein S, activated protein C (APC) resistance and the factor V Leiden mutation, mutant factor II, and inherited hyperhomocysteinemia. In women from symptomatic families these defects may be associated with an increased risk of venous thrombosis in pregnancy and recurrent fetal loss. Inherited thrombophilia is common and appears to be a multigene disorder. The thrombotic risk would seem to be greatest in women with antithrombin deficiency and more than one thrombophilia defect. The abnormalities that are now recognized represent only part of the genetic predisposition to thrombosis. In assessing thrombotic risk in pregnancy, acquired risk factors as well as genetic predisposition should be considered. Increasing age, obesity, immobility, and delivery by cesarean section are major risk factors. Pregnancy should be planned, and each patient should be managed on an individual basis. In pregnancy, heparin is the anticoagulant of choice, and as far as possible, treatment with warfarin should be avoided because of the risks to the fetus. When patients are on long-term treatment with warfarin, pregnancy should be avoided, and warfarin should be discontinued prior to embarking on a pregnancy or as soon as pregnancy is suspected and before 6 weeks' gestation. In women from symptomatic families with antithrombin deficiency, adjusted dose heparin throughout pregnancy is recommended and warfarin for at least 3 months post partum. In protein C and protein S deficiency, factor V Leiden, or mutant factor II, treatment can be based on personal and family history. Thromboprophylaxis in late pregnancy and post partum should be considered. Fetal loss may be increased in women with inherited thrombophilia. The risk appears greatest in women with antithrombin deficiency and women with more than one thrombophilia defect. A number of reports have claimed that prophylactic treatment with heparin during pregnancy has resulted in successful pregnancy in women with recurrent fetal death and inherited thrombophilia.
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PMID:Perinatal aspects of inherited thrombophilia. 1062 6

Hyperhomocysteinemia (HH) and hyperinsulinemia are both risk factors for cardiovascular disease. To examine the effects of hyperinsulinemia on homocysteine metabolism, we fed rats a high-fat-sucrose (HFS) diet and then measured the hepatic mRNA and activity of 2 key enzymes involved in this metabolic pathway: 5,10-methylenetetrahydrofolate reductase (MTHFR) and cystathionine-beta-synthase (CbetaS). Fischer rats made insulin-resistant by a HFS diet were examined at 6 months and 2 years of age and compared with control rats fed a low-fat, complex-carbohydrate (LFCC) diet. At the end of 6 months, the HFS rats were heavier than the LFCC rats (214 +/- 3.4 v 188 +/- 1.4 g, P < .01). There were no differences in blood glucose between HFS and LFCC rats; however, plasma insulin and homocysteine concentrations were elevated in HFS rats (insulin, 56 +/- 12 v 14.5 +/- 2.9 microU/mL; homocysteine, 10.77 +/- 0.9 v 6.89 +/- 0.34 micromol/L, P < .01). Hepatic CbetaS enzyme activity was significantly lower in HFS compared with LFCC rats (0.45 v 0.64 U/mg, P = .0001), and this decrease was reflected in a decrease of the CbetaS mRNA concentration. In contrast, hepatic MTHFR enzyme activity and mRNA concentration were significantly elevated in the HFS group compared with controls (HFS and LFCC, 8.62 and 4.8 nmol/h/mg protein, respectively, P = .0001). These changes in plasma homocysteine, CbetaS, and MTHFR were significantly correlated with the degree of obesity and hyperinsulinemia. Fasting plasma insulin correlated significantly and positively with plasma homocysteine (r = .51, P < .01) and MTHFR activity (r = .48, P < .01) and negatively with CbetaS activity (r = -.54, P < .001). CbetaS and MTHFR activities were inversely correlated with each other (r = -.58, P < .001). In conclusion, rats fed a HFS diet are hyperinsulinemic, and the hyperinsulinemia is associated with an elevated homocysteine concentration and changes in 2 key enzymes in homocysteine metabolism.
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PMID:Effects of a high-fat-sucrose diet on enzymes in homocysteine metabolism in the rat. 1087 98

Liver transplant recipients have an increased risk for cardiovascular disease because of a high incidence of obesity, arterial hypertension, diabetes mellitus, and hyperlipidemia. Hyperhomocysteinemia has been found to be an important risk factor for cardiovascular disease in large studies. Fasting serum levels of homocysteine were measured in 105 liver transplant recipients, and hyperhomocysteinemia was defined as a fasting serum homocysteine level greater than 13 micromol/L. Patients with versus without hyperhomocysteinemia were compared. The possible association of hyperhomocysteinemia with age, sex, cause of liver disease, time elapsed since liver transplantation, immunosuppressive therapy, folic acid level, liver function test results, renal function, and other cardiovascular risk factors was investigated. Patients with serum homocysteine levels greater than 15 micromol/L were treated with folic acid, 10 mg/d, and serum homocysteine levels were measured again 1 to 3 months later in 10 patients. Hyperhomocysteinemia was detected in 28 patients (27%). In univariate analysis, it was associated with hepatitis C virus infection, treatment with mycophenolate mofetil, and greater serum levels of alkaline phosphatase, gamma-glutamyl transpeptidase, urea, and creatinine. In multivariate analysis, only greater serum levels of creatinine (P =.006) were associated with hyperhomocysteinemia. Treatment with folic acid resulted in a decrease in fasting serum homocysteine levels in 9 of the 10 patients tested (P =.01). Hyperhomocystinemia, associated with renal dysfunction, is a frequent finding in liver transplant recipients. Treatment with folic acid may reduce fasting homocysteine levels.
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PMID:Hyperhomocysteinemia in liver transplant recipients: prevalence and multivariate analysis of predisposing factors. 1098 61

Atherosclerosis starts in childhood, and is accelerated in some individuals. A cluster of clinical and biochemical factors constitute the risk profile for many of them, perhaps most important being metabolic insulin resistance syndrome. Insulin resistance and its components for children and adolescents, especially obesity and dyslipidemia, are generators of hypertension, glucose intolerance and complications of atherosclerosis in adulthood. Some individuals are genetically predisposed, particularly those with the family history of such disorders. For many subjects, there is 'tracking' of metabolic and lifestyle factors from early age to adulthood. Several new risk factors of atherosclerosis (e.g. level of lipoprotein (a), procoagulant state, hyperhomocysteinemia, low birth weight and adverse in-utero environment, and possibly inflammatory markers) are current and potentially future areas of research concerning children and young individuals. Definition of and research on new and hitherto not investigated factors and formulation of strategies to neutralize the known factors are of paramount importance for primary prevention of atherosclerosis. Simple and effective measures for prevention include increasing awareness of the diseases, maintenance of ideal body weight, regular physical exercise, avoidance of smoking and chewing of tobacco, eating a balanced diet, and early periodic monitoring of blood pressure and metabolic status. These measures, starting from childhood, should be applied to all and in particular to the susceptible offspring, predisposed individuals, and populations.
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PMID:Risk factors for atherosclerosis in young individuals. 1100 92


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