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:C0042373 (vascular disease)
17,070 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Reduced, oxidized and protein-bound forms of homocysteine (Hcy), cysteine and cysteinylglycine in plasma interact via redox and disulphide exchange reactions, and these aminothiol species comprise a dynamic system referred to as redox thiol status. Notably, in plasma reduced cysteine is the most abundant low molecular weight sulfhydryl compound. Elevation of plasma Hcy (hyperhomocysteinemia) causes changes in redox thiol status. Protein-bound Hcy increases up to a maximum capacity of about 140 micromol/L, and there is a concurrent displacement of protein-bound cysteine. When the Hcy binding approaches saturation, free oxidized and reduced Hcy show a substantial increase. The resulting increase in reduced/total ratio for Hcy causes a parallel change in this ratio for the other aminothiols. These dynamics were observed during both chronic hyperhomocysteinemia (due to cobalamin deficiency or homocystinuria) and acute hyperhomocysteinemia (induced by methionine or Hcy loading). In addition, changes in redox thiol status have been observed in patients with vascular disease (decreased reduced/total ratio for cysteine), renal failure (low reduced/total ratio for aminothiols) or HIV infection (high level of reduced Hcy), which suggest primary imbalance between prooxidant and antioxidant processes in these patients. In conclusion, redox thiol status is a dynamic system which is probably linked to the extracellular antioxidant defence system. This must be taken into account when designing future experimental or epidemiological studies on Hcy and cardiovascular disease.
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PMID:Reduced, oxidized and protein-bound forms of homocysteine and other aminothiols in plasma comprise the redox thiol status--a possible element of the extracellular antioxidant defense system. 864 71

Homocysteine, an atherogenic amino acid, is either remethylated to methionine or metabolized to cysteine by the transsulfuration pathway. The biochemical conversion of homocysteine to cysteine is dependent upon two consecutive, vitamin B-6-dependent reactions. To study the effect of a selective vitamin B-6 deficiency on transsulfuration, we performed oral methionine load tests on 22 vitamin B-6-deficient asthma patients treated with theophylline (a vitamin B-6 antagonist) and 24 age- and sex-matched controls with a normal vitamin B-6 status. Both groups had normal circulating vitamin B-12 and folate concentrations. Methionine loading resulted in significantly higher increases in circulating total homocyst(e)ine (P < 0.01) and cystathionine (P < 0.05) concentrations in vitamin B-6-deficient patients compared with controls. 6 wk of vitamin B-6 supplementation (20 mg/d) significantly (P < 0.05) reduced post-methionine load increases in circulating total homocyst(e)ine concentrations in deficient subjects, but had no significant effect on the increase in total homocyst(e)ine concentrations in controls. The increases in post-methionine load circulating cystathionine concentrations were significantly (P < 0.01) reduced in both groups after vitamin supplementation. It is concluded that a vitamin B-6 deficiency may contribute to impaired transsulfuration and an abnormal methionine load test, which is associated with premature vascular disease.
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PMID:The effect of a subnormal vitamin B-6 status on homocysteine metabolism. 869 Aug 3

Elevated plasma homocyst(e)ine may predispose to complications of vascular disease. Homocysteine alters vasomotor regulatory and anticoagulant properties of cultured vascular endothelial cells, but little is known about effects of hyperhomocyst(e)inemia on vascular function in vivo. We tested the hypothesis that diet-induced moderate hyperhomocyst(e)inemia is associated with vascular dysfunction in cynomolgus monkeys. Plasma homocyst(e)ine increased from 4.O +/- O.2 microM when monkeys were fed normal diet to 10.6 +/- 2.6 microM when they were fed modified diet (mean +/- SE; P = 0.02). Vasomotor responses were assessed in vivo by quantitative angiography and Doppler measurement of blood flow velocity. In response to activation of platelets by intraarterial infusion of collagen, blood flow to the leg decreased by 42 +/- 9% in monkeys fed modified diet, compared with 14 +/- 11% in monkeys fed normal diet (P = 0.008), Responses of resistance vessels to the endothelium-dependent vasodilators acetylcholine and ADP were markedly impaired in hyperhomocyst(e)inemic monkeys, which suggests that increased vasoconstriction in response to collagen may be caused by decreased vasodilator responsiveness to platelet-generated ADP. Relaxation to acetylcholine and, to a lesser extent, nitroprusside, was impaired ex vivo in carotid arteries from monkeys fed modified diet. Thrombomodulin anticoagulant activity in aorta decreased by 34 +/- 15% in hyperhomocyst(e)inemic monkeys (P = 0.03). We conclude that diet-induced moderate hyperhomocyst(e)inemia is associated with altered vascular function.
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PMID:Vascular dysfunction in monkeys with diet-induced hyperhomocyst(e)inemia. 869 Aug 3

In summary, we have shown that there is a high prevalence of Cbl deficiency in the elderly. This observation is based on an increase in the number of low and low normal serum Cbl levels, an increase in elevated serum total homocysteine levels that correct with Cbl therapy, and an increase in elevated serum methylmalonic acid levels that also correct with Cbl therapy. These observations may be of great clinical importance since Cbl deficiency may be a common and treatable cause of vascular disease.
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PMID:High prevalence of cobalamin deficiency in the elderly. 872 58

It has been shown that serum total homocysteine (HC) is a risk factor for vascular disease which characterizes endothelial damage. The incidence of vascular disease is increased in continuous ambulatory peritoneal dialysis (CAPD) patients. Our aim was to investigate: (1) whether concentration of HC correlates with atherosclerotic and inflammatory events, and (2) if fish oil therapy can retard the disturbance in lipid metabolism which promotes atherosclerosis. Fourteen patients with various degrees of impaired peritoneal clearance and lipid metabolism were observed. In all patients the serum HC was elevated. Seven patients were treated with fish oil for three months. The results indicate an average increase of HC (+18%), total cholesterol (+6.6%), aggregation of erythrocytes (+9%), and an average decrease of dialysate-to-plasma creatinine (D/P) ratio (-7%), deformability of erythrocytes (-8%), and normalization of elevated soluble interleukin-2 receptor (sIL-2R) values. Regression analysis of all data demonstrated a significant correlation between HC and parameters of lipid metabolism and hemorheology. There were no significant correlations between HC and peritoneal function and serum cytokine levels. We conclude that the treatment in CAPD patients with fish oil did not improve the lipid metabolism disturbances in atherosclerosis and peritoneal function. Elevated HC confirms the progression of the disease.
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PMID:Increased serum level of total homocysteine in CAPD patients despite fish oil therapy. 872 1

Mild hyperhomocysteinaemia is associated with increased risk for vascular disease. We studied homocysteine export from human umbilical vein endothelial cells (HUVECs) by measuring total homocysteine (tHcy) concentrations in the culture medium. Under standard culture conditions tHcy concentrations in the HUVEC culture medium increased by constant amounts after 24, 48 and 72 h [mean = 2.5 (SD +/- 0.7) mumol L-1 homocysteine every 24 h]. As the cells are the only source of homocysteine increase in the culture medium, we designate this as homocysteine export from HUVEC. Folic acid supplementation to the culture medium lowered the homocysteine export in a dose-dependent manner. Methyl-tetrahydrofolate (MeTHF) and folinic acid (a stable precursor of MeTHF) were in this respect about 10 times more effective than folic acid. A 50% reduction in the homocysteine export was seen with 10-30 nmol L-1 MeTHF supplementation; reduction to almost zero was seen with 100-300 nmol L-1 MeTHF. Additions to the culture medium of the other vitamins involved in the homocysteine metabolism, such as vitamin B12, vitamin B6 and flavin adenine dinucleotide, did not show any effect on homocysteine export. Because homocysteine export reflects an imbalance in the homocysteine metabolism, our observations showed a susceptible dependency of this metabolism on folic acid in endothelial cells.
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PMID:The effect of folic acid on the homocysteine metabolism in human umbilical vein endothelial cells (HUVECs). 873 88

1. Elevated plasma homocysteine concentration, either in the fasting state or after methionine loading, is an independent risk factor for vascular disease in man. Methionine loading has been used to investigate impaired methionine metabolism, especially of the trans-sulphuration pathway, but most studies have focused on changes in homocysteine. 2. We investigated the effect of methionine excess on total plasma homocysteine, 5-methyltetrahydrofolate (which is the active form of folate in the remethylation of homocysteine to methionine), S-adenosyl-methionine (the first metabolite of methionine) and S-adenosylmethionine) (the demethylated product of S-adenosylmethionine) over 24h in 12 healthy subjects. 3. As well as the expected increase in homocysteine (from 8.0 +/- 1.3 to 32.6 +/- 10.3 mumol/l, mean +/- SD, P < 0.001), S-adenosylmethionine showed a significant transient increase (from 37.9 +/- 25.0 to 240.3 +/- 109.2 nmol/l, P < 0.001), which correlated well with homocysteine (r2 = 0.92, P < 0.001). 5-Methyltetrahydrofolate values decreased significantly (from 23.2 +/- 7.2 to 13.1 +/- 2.9 nmol/l, P < 0.01), and gradually returned to baseline levels after 24h. No significant change over the time of measurement was found for S-adenosylhomocysteine. 4. The sequence of metabolic changes observed in this study strongly suggests that a change in either homocysteine or S-adenosylmethionine may cause a reduction in 5-methyltetrahydrofolate. This must be considered in evaluating the relationship between folate and homocysteine in vascular disease. The metabolic relationships illustrated in this study should be evaluated in the search for pathogenetic mechanisms of mild hyperhomocysteinaemia and vascular disease.
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PMID:Effect of methionine loading on 5-methyltetrahydrofolate, S-adenosylmethionine and S-adenosylhomocysteine in plasma of healthy humans. 877 64

Previous studies have shown that elevated basal homocysteine levels are correlated among family members of patients with coronary vascular disease and juvenile venous thrombosis. This suggests the possibility of the presence of inherited basal mild hyperhomocysteinemia (mHH). We studied homocysteine levels, fasting as well as after methionine load, among 96 family members of 21 post-load hyperhomocysteinemic vascular index patients, i.e. 6 parents, 27 offspring, 38 siblings, 19 uncles and aunts and 6 cousins. In 15 out of 21 screened families post-load mHH was established in at least one family member. Fasting and post-load mHH was observed in 19 out of 89 (21%) screened family members (fasting homocysteine levels not measured in seven family members), and 31 out of 96 screened family members (32%), respectively. In 40% of all family members, post-load mHH was not accompanied by fasting mHH. We conclude that both fasting and post-load mHH seems to be inherited in the majority of hyperhomocysteinemic vascular patients.
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PMID:Prevalence of familial mild hyperhomocysteinemia. 883 29

Maintenance dialysis patients experience an exceedingly high incidence of arteriosclerotic cardiovascular disease (CVD) events that are poorly predicted by traditional CVD risk factor indices. We evaluated the prevalence of three non-traditional CVD risk factors, i.e. hyperhomocysteinemia, hyperfibrinogenemia, and lipoprotein (a) Lp(a)) excess, and combined hyperhomocysteinemia, hyperfibrinogenemia, and Lp(a) excess, in maintenance dialysis patients. Fasting total plasma homocysteine (Hcy), fibrinogen, Lp(a), glucose, and total and HDL cholesterol levels, and traditional CVD risk factor (i.e. glucose tolerance, smoking, hypertension, dyslipidemia) prevalences were assessed in 71 dialysis patients and 71 age, sex, and race matched Framingham Study controls free of clinical renal disease, with normal serum creatinine (< or = 1.5 mg/dl). Mean plasma Hcy 23.7 vs. 9.9 microM, P = 0.0001), fibrinogen (457 vs. 309 mg/dl, P = 0.0001), and Lp(a) (30 vs. 17 mg/dl, P = 0.0070) levels were substantially increased in the dialysis patients. Matched odds ratios (with 95% confidence intervals), dialysis patients/controls, for hyperhomocysteinemia, hyperfibrinogenemia, and Lp(a) excess, alone or combined, were markedly greater in the dialysis patients, with no evidence of confounding by the traditional CVD risk factors: hyperhomocysteinemia, 105.0 (29.9-368.9); hyperfibrinogenemia, 16.6 (6.6-42.0); Lp(a) excess, 3.5 (1.5-8.4); all three combined 35.0 (5.7-199.8). Given in vitro evidence that Hcy, Lp(a), and fibrinogen interact to promote atherothrombosis, combined hyperhomocysteinemia, hyperfibrinogenemia, and Lp(a) excess may contribute to the high incidence of vascular disease sequelae experienced by dialysis patients, which is inadequately explained by traditional CVD risk factors. Controlled, prospective studies of well-characterized maintenance dialysis cohorts are urgently required to substantiate this hypothesis.
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PMID:Hyperhomocysteinemia, hyperfibrinogenemia, and lipoprotein (a) excess in maintenance dialysis patients: a matched case-control study. 883 31

Increased levels of homocysteine have been linked to both arterial and venous thromboembolic problems (1,2). Homocystinuria is a relatively rare disorder caused by a deficiency of cystathione synthase and is characterized by markedly increased levels of homocysteine and premature vascular disease (3-5). Epidemiological studies have suggested that mild elevations of homocysteine are also associated with vascular disease (2). Recent evidence suggests that a polymorphism of the gene encoding for 5,10-methylene tetrahydrofolate reductase (MTHFR) gives rise to a thermolabile form of the enzyme that is associated with increased levels of homocysteine when inherited as a homozygous trait (6). This polymorphism is due to a C --> T substitution at nucleotide 677 which converts an alanine to valine in a conserved portion of the molecule (6). The allele frequency for the thermolabile form of the enzyme was quite high (0.38) in a population of French Canadians. This polymorphism thus appears to be a common risk factor for increased plasma levels of homocysteine and vascular diseases. As the incidence of such genetic polymorphisms often varies among ethnic populations, we were interested in comparing the incidence of this polymorphism in Caucasians and African Americans.
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PMID:The incidence of the gene for thermolabile methylene tetrahydrofolate reductase in African Americans. 883 19


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