UMLS:C0042373 - FACTA Search

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

While non-enzymatic glycation of long-lived tissue proteins such as collagen has been implicated in chronic complications of diabetes mellitus, its role in the aetiology of diabetic macroangiopathy has not been elucidated. To test the hypothesis that glycation of collagen abolishes the inhibitory effect of native collagen on the proliferation of human smooth muscle cells, we obtained smooth muscle cells from human gastric arteries and cultured them on dishes coated with glycated or non-glycated collagen. The proliferation of human smooth muscle cells in the presence of 10% fetal calf serum or platelet derived growth factor-BB (10 ng/ml) was inhibited by type 1 collagen coated on the dishes. Glycation of collagen with glucose 6-phosphate for 7 days abolished the growth-inhibitory effect of native collagen. Succinylation of collagen, which like glycation blocked the lysyl residues in collagen, also abolished the growth-inhibitory effect. Adhesion of human smooth muscle cells to collagen-coated dishes was not affected by glycation of collagen. Addition of glycated albumin to the medium did not affect the growth of human smooth muscle cells on plastic dishes. The inhibition of human smooth muscle cell proliferation by collagen was not reversed by the glycation of collagen in the presence of aminoguanidine. Results suggest that early glycation abolishes the inhibitory effect of collagen on human smooth muscle cell proliferation and may thus participate in the progression of macro-angiopathy in diabetes.
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PMID:Effect of glycated collagen on proliferation of human smooth muscle cells in vitro. 881 4

The objective of this review is to draw attention to those inherited metabolic traits which are potentially harmful also for the carrier, and to outline preventive measures, at least for obligate heterozygotes, i.e. parents of homozygous children. Concerning carriers of food-dependent abnormalities, early vascular disease in homocystinuria, hyperammonaemic episodes in ornithine transcarbamylase deficiency, presenile cataracts in galactosaemia as well as galactokinase deficiency, spastic paraparesis in X-linked adrenoleukodystrophy, and HELLP syndrome in mothers of babies with long-chain 3-hydroxyacyl-coenzyme A dehydrogenase deficiency have to be mentioned. In the group of food-independent disorders, clinical features in carriers may be paraesthesias and corneal dystrophy in Fabry disease, lens clouding in Lowe syndrome, lung and/or liver diseases in alpha 1-antitrypsin deficiency, and renal stones in cystinuria type II and III. Finally, two monogenic carrier states are known which in pregnant individuals could possibly afflict the developing fetus, i.e. heterozygosity for galactosaemia and for phenylketonuria. Elevated levels of galactose-1-phosphate have been found in red blood cells of infants heterozygous for galactosaemia born to heterozygous mothers. Aspartame in very high doses is reported to increase blood phenylalanine levels in heterozygotes for phenylketonuria, thus being a risk for the fetus of a heterozygous mother. For some of these carrier states preventive measures can be recommended, e.g. restriction of lactose in parents and heterozygous grandparents of children with galactosaemia and galactokinase deficiency as well as transiently in infants heterozygous for galactosaemia, dietary supplementation with monounsaturated fatty acids in symptomatic carriers for X-linked adrenoleukodystrophy, avoidance of smoking and alcohol in heterozygotes for alpha 1-antitrypsin deficiency, avoidance of episodes of dehydration in heterozygotes for cystinuria, and restriction of aspartame in pregnant women.
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PMID:Inherited metabolic diseases affecting the carrier. 906 62

There is now abundant evidence that elevated plasma total homocysteine is a risk factor for vascular disease in general and for cardiovascular disease in particular. Plasma concentrations of homocysteine are modulated by both genetic and environmental factors, among which inherited enzymatic defects and nutritional deficiencies respectively, are probably the most important. Other environmental factors such as smoking, also influence plasma homocysteine concentrations. The role of nutritional and other environmental factors had been underestimated until recently, when a final examination of the contribution of inherited defects became possible with the advent of DNA isolation and sequencing of large population samples. There is now consistent evidence from many studies that plasma homocysteine levels are inversely correlated with plasma folate, pyridoxal 5'-phosphate and cobalamin levels. This finding, together with that of significant lowering of homocysteine levels achieved with folate supplementation, constitutes a basis for optimism in reducing cardiovascular risk. As yet, no randomised control trial has been carried out to test this hypothesis.
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PMID:Homocysteine and vascular disease: nature or nurture? 991 71

Homocysteine is a sulfur amino acid whose metabolism stands at the intersection of two pathways: remethylation to methionine, which requires folate and vitamin B12 (or betaine in an alternative reaction); and transsulfuration to cystathionine, which requires pyridoxal-5'-phosphate. The two pathways are coordinated by S-adenosylmethionine, which acts as an allosteric inhibitor of the methylenetetrahydrofolate reductase reaction and as an activator of cystathionine beta-synthase. Hyperhomocysteinemia, a condition that recent epidemiological studies have shown to be associated with increased risk of vascular disease, arises from disrupted homocysteine metabolism. Severe hyperhomocysteinemia is due to rare genetic defects resulting in deficiencies in cystathionine beta synthase, methylenetetrahydrofolate reductase, or in enzymes involved in methyl-B12 synthesis and homocysteine methylation. Mild hyperhomocysteinemia seen in fasting conditions is due to mild impairment in the methylation pathway (i.e. folate or B12 deficiencies or methylenetetrahydrofolate reductase thermolability). Post-methionine-load hyperhomocysteinemia may be due to heterozygous cystathionine beta-synthase defect or B6 deficiency. Early studies with nonphysiological high homocysteine levels showed a variety of deleterious effects on endothelial or smooth muscle cells in culture. More recent studies with human beings and animals with mild hyperhomocysteinemia provided encouraging results in the attempt to understand the mechanism that underlies this relationship between mild elevations of plasma homocysteine and vascular disease. The studies with animal models indicated the possibility that the effect of elevated homocysteine is multifactorial, affecting both the vascular wall structure and the blood coagulation system.
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PMID:Homocysteine metabolism. 1044 23

We hypothesized that elevated plasma homocysteine concentrations (hyperhomocysteinemia) exist in patients receiving antiepileptic drugs (AED), and a long-term administration of AED may result in an increased risk of occlusive vascular disease in these patients. A total of 62 patients who received AED monotherapy (phenytoin, lamotrigine, carbamazepine or valproate) participated in this study. Blood concentrations of homocysteine, folate, vitamin B-12 and pyridoxal-5'-phosphate (PLP, a coenzyme form of vitamin B-6) were measured, and thermolabile genotypes of 5, 10-methylenetetrahydrofolate reductase (MTHFR) were also determined. Of 62 patients, only seven (11.4%) had hyperhomocysteinemia. Of 20 patients who received phenytoin, three (15.0%) had hyperhomocysteinemia, whereas 85% of these had plasma folate concentrations below the normal range. However, erythrocyte folate concentrations were abnormally low in only 25% of the patients who received phenytoin. Valproate administration increased serum vitamin B-12 concentrations. Over 55% of the entire patients had PLP concentrations below the normal range, although the reason is unknown. Only three patients had the homozygous thermolabile genotype of MTHFR; therefore, meaningful statistical analysis was not possible in this study. However, one patient with homozygous genotype who received phenytoin therapy had hyperhomocysteinemia with poor folate nutritional status, and the other two had normal homocysteine concentrations with normal folate status. Our data suggest that hyperhomocysteinemia is not a serious clinical concern in epileptic patients when folate nutriture is adequate.
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PMID:Homocysteine, folate, vitamin B-12 and vitamin B-6 in patients receiving antiepileptic drug monotherapy. 1077 Dec 53

The endothelium is a newly recognized target organ of parathyroid hormone (PTH) and may contribute to its effects on vascular tone and blood pressure regulation. Flow-mediated vasodilation (FMD), brachial and carotid intima-media thickness (IMT) were studied in patients with primary hyperparathyroidism (pHPT) and controls to evaluate endothelial function and structural arterial vessel wall alterations. Sixteen patients with pHPT (mean +/- SEM, age 44 +/- 5 years; PTH 229 +/- 72 ng/L; serum calcium 3.0 +/- 0.06 mmol/L; serum phosphate 2.0 +/- 0.2 mg/L) and 16 normocalcemic control subjects matched for age, sex, and blood pressure were included. Diabetes, hypertension, and vascular disease were excluded in both groups. End-diastolic diameter, flow-mediated (FMD) and nitroglycerin-mediated (NMD) dilation of the brachial artery were measured by a multigate pulsed Doppler system (echo-tracking). IMT was determined using automatic analysis of the M-line signal. Endothelium-dependent FMD was impaired in patients compared to controls (4.6 +/- 1.6% v 19.2 +/- 3.9%, P < .001). NMD (23.8 +/- 3.1% v. 22.4 +/- 2.8%, P = NS), carotid and brachial IMT (0.60 +/- 0.04 mm v 0.64 +/- 0.06 mm, P = NS, and 0.46 +/- 0.04 mm v 0.47 +/- 0.08 mm, P = NS, respectively) and artery diameters were not different. Endothelium-dependent vasodilation is impaired in patients with primary hyperparathyroidism despite normal IMT. Endothelial dysfunction may contribute to increased cardiovascular morbidity and mortality in pHPT.
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PMID:Studies on flow-mediated vasodilation and intima-media thickness of the brachial artery in patients with primary hyperparathyroidism. 1093 66

The hexosamine biosynthetic pathway has been hypothesized to be involved in the development of insulin resistance and diabetic vascular complications. In particular, it was demonstrated that hyperglycemia-induced production of transforming growth factor-beta (TGF-beta1), a prosclerotic cytokine causally involved in the development of diabetic nephropathy. Several lines of evidence indicate that TGF-beta1 induction is mediated by the hexosamine pathway. In cultured mesangial cells, high glucose levels induce TGF-beta1 production. This effect is eliminated by inhibition of glutamine: fructose-6-phosphate-amidotransferase (GFAT), the rate-limiting enzyme of this pathway. Furthermore, stable overexpression of GFAT increased levels of TGF-beta1 protein, mRNA, and promoter activity. Inasmuch as stimulation or inhibition of GFAT increased or decreased high glucose-stimulated activity of protein kinase C (PKC), respectively, the observed effects appear to be transduced by PKC. In similar experiments, involvement of the hexosamine pathway in hyperglycemia-induced production of cytokines (TGF-alpha and basic fibroblast growth factor [bFGF]) was demonstrated in vascular smooth muscle cells. These studies also revealed a rapid increase in GFAT activity by treatment with agents that elevated levels of cyclic adenosine 3',5' monophosphate (cAMP), thus indicating that GFAT activity is tightly regulated by cAMP-dependent phosphorylation. Using immunohistochemistry and in situ hybridization, high expression of GFAT was found in human adipocytes, skeletal muscle, vascular smooth muscle cells, and renal tubular epithelial cells. whereas glomerular cells remained essentially unstained. However, significant staining occurred in glomerular cells of patients with diabetic nephropathy. Current data indicate that the flux through the hexosamine pathway, regulated by GFAT, may be causally involved in the development of diabetic vascular disease, particularly diabetic nephropathy.
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PMID:Role of the hexosamine biosynthetic pathway in diabetic nephropathy. 1099 85

The less rigorous attention to the management of the complications of chronic renal insufficiency (CRI) and its comorbid conditions has potentially tragic consequences. In fact, with early recognition and intervention, many of the complications of CRI and its comorbid conditions can be ameliorated or prevented. We review here the most prevalent, troublesome, and potentially preventable complications and comorbidities of CRI with a view toward developing high-quality, cost-effective strategies for delivering early interventional care. Complications of CRI include malnutrition, anemia, disorders of divalent ion metabolism and osteodystrophy, metabolic acidosis, and dyslipidemia. Important comorbid conditions of CRI are hypertension, diabetes mellitus, and cardiovascular disease. Clinical intuition suggests that early intervention will avert morbidity related to the hypoalbuminemia and other nutritional disorders of CRI, the metabolic acidosis, and the dyslipidemias, but prospective data are lacking at present. Correction of anemia, usually with recombinant human erythropoietin, may be key to the prevention of cardiac disease and other comorbidities of CRI. Incipient disorders of bone and mineral metabolism are managed prospectively using such measures as protein restriction to reduce phosphorus intake, phosphate binders, calcium supplementation, and vitamin D analogues. Hypertension, whatever its original etiology, is clearly an important risk factor for the progression of kidney failure and for the development of diffuse vascular disease; appropriate and aggressive treatment is essential. In patients with diabetic nephropathy, the principles of both primary and secondary prevention have been validated in several large trials of glycemic and blood pressure control. The seeds of these insidious, challenging, and costly comorbid conditions are sown very early in CRI, at a time when they are-in theory-most amenable to intervention. We therefore must be as proactive as possible in the timely implementation of relatively simple therapies that have the potential to prevent some of these adverse outcomes of CRI.
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PMID:Complications of chronic renal insufficiency: beyond cardiovascular disease. 1111 56

Vitamin B6, is necessary for normal membrane function and stability. Here we studied both the function and ultrastructure of aortic and arterial endothelial cells (ECs) in vitamin B6 deficient mice induced by vitamin B6 antagonists, 4-deoxypyridoxine x HCl (dPN x HCl), and isonicotinylhydrazide (INH). Mice were fed with normal laboratory chow and divided into three groups according to their drinking water. Mice in group I had distilled water and served as a control; group II had 0.1 mg dPN x HCl/mL H2O; and group III had 0.4 mg INH/mL H2O. After 5 mo, plasma concentrations of B6 vitamers pyridoxal-5'-phosphate (PLP) and pyridoxal (PL) were analyzed by HPLC. With the arachidonic acid (AA) as a precursor, prostacyclin (PGI2) production from ECs assayed by thin-layer chromatography (TLC) was used as an indicator of endothelial function. Aorta and arteriole from foot pad were removed, stained with osmium tetraoxide, and examined under transmission electron microscopy (TEM) to study the ultrastructure of ECs. The results showed that plasma concentrations of PLP, PL, and total B6 were the lowest for mice fed with INH. followed by that with dPN x HCl, compared with that of control. PGI2 production was paralleled with the plasma vitamin B6 status, with the lowest level for INH, followed by the dPN-treated group. Abnormalities in the ultrastructure of ECs were found in both dPN x HCl and INH groups, including cells detached from underlying elastic tissue, with prominent pinocytotic vesicles and swelling and/or indistinct cristae of mitochondria. These results suggest that vitamin B6 antagonists induce a deficient status that alters the function and the ultrastructure of ECs detrimental to vascular disease.
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PMID:Vitamin B6 antagonists alter the function and ultrastructure of mice endothelial cells. 1118 49

Recent studies have demonstrated associations between occlusive vascular disease and hyperhomocysteinemia of both genetic and nutritional origin. In the present study we analyzed plasma samples from the 20th biannual examination of the Framingham Heart Study cohort to determine distribution of plasma homocysteine concentrations with emphasis on relationships to vitamins that serve as coenzymes in homocysteine metabolism and to prevalence of carotid artery stenosis. Results showed that homocysteine exhibited strong inverse association with plasma folate and weaker associations with plasma vitamin B12 and pyridoxal-5'-phosphate. We saw similar inverse associations between homocysteine and intakes of folate and vitamin B6, but not vitamin B12. Prevalence of high homocysteine (> 14 mumol/L) was 29.3% in this cohort, and was greatest among subjects with low folate status. Inadequate plasma concentrations of one or more B vitamins appear to contribute to 67% of the cases of high homocysteine. Prevalence of stenosis > or = 25% was 43% in men and 34% in women, with an odds ratio of 2.0 for individuals in the highest homocysteine quartile (> or = 14.4 mumol/L) compared with those in the lowest quartile (< or = 9.1 mumol/L), after adjustment for sex, age, HDL cholesterol, systolic blood pressure, and cigarette smoking (Ptrend < 0.001). Plasma concentrations of folate and pyridoxal-5'-phosphate and folate intake were inversely associated with extracranial carotid stenosis after adjustment for age, sex, and other risk factors. Studies using samples from the Framingham Study Offspring Cohort have shown that the US-mandated folic acid fortification of flour and cereal grain products resulted in an increase in the mean folate concentrations from 4.8 to 10.0 ng/mL (P < 0.001) and prevalence of low folate (< 3 ng/mL) decreased from 22.0 to 1.7% (P < 0.001) between the baseline and follow-up visits. Mean homocysteine concentration decreased from 10.1 to 9.4 microM (P < 0.001), and prevalence of high homocysteine (> 13 mumol/L) decreased from 18.7 to 9.8% (P < 0.001) between study visits. There were no statistically significant changes in the control group for folate or homocysteine between examinations. These data indicate a high prevalence of hyperhomocysteinemia in the Framingham Study population, the majority of which can be attributed to vitamin status and that this hyperhomocysteinemia is clinically relevant because of its association with increased risk of occlusive extracranial carotid stenosis. Insufficient levels of folate, and to a lesser extent vitamin B6, appear to predict part of this elevated risk through their role in homocysteine metabolism. These studies also indicate that the recently-implemented fortification of grain and cereal products with folic acid resulted in a substantial decline in plasma homocysteine. The impact of fortification on the US population is likely to be similar; however it awaits the next survey for further confirmation.
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PMID:Relationship between plasma homocysteine and vitamin status in the Framingham study population. Impact of folic acid fortification. 1141 Dec 65

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