Gene/Protein
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Symptom
Drug
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Compound
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Target Concepts:
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Query: EC:4.2.1.22 (
cystathionine beta-synthase
)
965
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Homocyst(e)ine [H(e)], the sum of homocysteine, homocystine, and the homocysteine-cysteine mixed disulfide, free and protein-bound, has been shown to be associated in retrospective case control studies, and in one prospective study, with vascular disease, including coronary artery disease (CAD), cerebrovascular disease, and
peripheral vascular disease
. Elevated levels of homocyst(e)ine severe enough to cause homocystinuria are seen in severe nutritional deficiencies of vitamin B12, folic acid and vitamin B6. Rare genetic disorders of vitamin B12 synthesis of 5'-10'-methylene tetrahydrofolate reductase, or the pyridoxal phosphate-dependent enzyme
cystathionine beta-synthase
may cause severe hyperhomocyst(e)inemia and homocystinuria. The clinical manifestation of these disorders are mental retardation, neurological disorders, and widespread thromboembolic phenomena. The measurement of H(e) is currently performed using high-pressure liquid chromatography with fluorescence detection. Other methods, especially mass spectroscopy, are also used. Internal standards using increasing concentrations of homocystine and acetylcysteine and several external standards are used to ensure accuracy of the assay. Milder elevations of H(e) have recently been associated with vascular disease, in both men and women. The strength of this association appears to be stronger for peripheral and cerebrovascular disease than for CAD. Nevertheless, several case control studies in Europe, Canada, and the United States have shown that H(e) levels are elevated in CAD patients compared with controls, and H(e) levels are independent of the conventional cardiovascular risk factors (age, gender, lipid and lipoprotein cholesterol levels, hypertension, or cigarette smoking). One prospective study, the Physicians' Health Study, has shown that H(e) levels are slightly but significantly higher in CAD cases vs controls in a population of US physicians.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Measurement of homocyst(e)ine in the prediction of arteriosclerosis. 762 74
The high incidence of vascular complications in severe hyperhomocysteinaemia in homozygotes for
cystathionine beta-synthase
deficiency has focused attention upon homocysteine as an atherogenic and thrombophilic agent. For two decades there has been accumulating evidence of mild hyperhomocysteinaemia as risk factor of vascular disease. Pooled data on hundreds of coronary, cerebrovascular and peripheral arterial disease patients show that mild hyperhomocysteinaemia was detectable in about 20-30%. In a recent meta-analysis of 27 studies up to 1994, including about 4000 patients and as many controls, it is calculated that the summary odds ratio of elevated homocysteine levels was 1.7, with 95% confidence interval (CI) 1.5-1.9, for coronary heart disease; it was 2.5, with 95% CI 2.0-3.0, for cerebro-vascular disease; and it was 6.8, with 95% CI 2.9-15.8, for
peripheral vascular disease
. The relevance of this newly recognized risk factor will be demonstrated by the outcome of the European Comac study on 'Hyperhomocysteinaemia and Vascular Disease', a multicentre case-control study on 800 vascular patients and 750 controls. Despite the selection for epidemiological reasons of a relatively low cut-off level as the criterion for mild hyperhomocysteinaemia in this study-the upper 20% of the distribution of control levels-the relative risk of thus-defined hyperhomocysteinaemia for arterial disease is about 2. This equals the relative risk of hypercholesterolaemia and of smoking; hypertension leads to a higher excess risk. The observed synergistic interaction between hyperhomocysteinaemia and hypertension and smoking may warrant a change in the now generally followed procedure of screening for hyperhomocysteinaemia only if conventional risk factors have not been detected in the patient. Those vascular patients with combined risk factors leading to synergism in their joint effect may profit most from homocysteinelowering intervention.
...
PMID:The case for mild hyperhomocysteinaemia as a risk factor. 921 Dec 2
Elevated plasma homocysteine is associated with a variety of diseases in humans including coronary heart disease, stroke,
peripheral vascular disease
, and birth defects. However, the mechanism by which plasma homocysteine affects cells is unknown. We have examined the growth of isogenic wild-type and
cystathionine beta-synthase
(
CBS
) deficient yeast in response to homocysteine and its immediate metabolic precursor, S-adenosylhomocysteine (SAH).
CBS
deficient yeast export significantly more homocysteine into the media than wild-type yeast and have elevated internal pools of homocysteine and SAH. We found that 5 mM homocysteine added to the media had very little effect on the growth of wild-type or
CBS
deficient yeast, although intracellular homocysteine concentrations increased five- to tenfold. In contrast, as little as 25 microM S-adenosylhomocysteine inhibited the growth of
CBS
deficient yeast, but had no effect on wild-type yeast. Measurements of the intracellular S-adenosylmethionine (SAM) and SAH indicate that
CBS
deficient yeast contain reduced SAM/SAH ratios relative to wild-type, and this ratio is further reduced by adding SAH to the media. Growth inhibition by SAH in
CBS
deficient yeast can be totally reversed by addition of SAM to the media, indicating that the ratio and not absolute level is critical for cell growth. These results suggest that
CBS
plays a key role in the regulation of the SAM/SAH ratio inside cells and that excessive perturbations of this ratio can inhibit growth. We hypothesize that elevated extracellular homocysteine present in humans may reflect an altered intracellular SAM/SAH ratio and that this may be related to disease pathogenesis.
...
PMID:S-adenosylhomocysteine, but not homocysteine, is toxic to yeast lacking cystathionine beta-synthase. 1205 65
Hyperhomocysteinemia (HHcy) is an independent risk factor for cardiovascular disease, including ischemic heart disease, stroke, and
peripheral vascular disease
. Mutations in the enzymes responsible for homocysteine metabolism, particularly
cystathionine beta-synthase
(
CBS
) or 5,10-methylenetetrahydrofolate reductase (MTHFR), result in severe forms of HHcy. Additionally, nutritional deficiencies in B vitamin cofactors required for homocysteine metabolism, including folic acid, vitamin B6 (pyridoxal phosphate), and/or B12 (methylcobalamin), can induce HHcy. Studies using animal models of genetic- and diet-induced HHcy have recently demonstrated a causal relationship between HHcy, endothelial dysfunction, and accelerated atherosclerosis. Dietary enrichment in B vitamins attenuates these adverse effects of HHcy. Although oxidative stress and activation of proinflammatory factors have been proposed to explain the atherogenic effects of HHcy, recent in vitro and in vivo studies demonstrate that HHcy induces endoplasmic reticulum (ER) stress, leading to activation of the unfolded protein response (UPR). This review summarizes the current role of HHcy in endothelial dysfunction and explores the cellular mechanisms, including ER stress, that contribute to atherothrombosis.
...
PMID:Role of hyperhomocysteinemia in endothelial dysfunction and atherothrombotic disease. 1524 79
