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:C0004153 (atherosclerosis)
77,401 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The oxygen and glucose uptake, lactate formation, ATP/ADP and NADH/NAD ratios and incorporation of [14C]acetate and [14C]linolenic acid into lipids of early fatty streaks and more advanced complicated atherosclerotic lesions of human aorta were determined during aerobic and hypoxic incubation. Compared with grossly normal appearing sections of the aorta in intima and media preparations of early fatty streaks the oxygen uptake was increased while that in further developed atheroma was slightly diminished. Under aerobic incubation conditions the metabolic state of fatty streaks and atheroma was characterized by increased lactate formation, NADH/NAD ratio and incorporation of [14C]acetate and [14C]linolenic acid into the lipids, but by a lowered ATP/ADP ratio. More pronounced changes in these metabolic parameters were observed when the aortic tissue segments were incubated under hypoxic conditions. The analysis by argentation TLC of fatty acid methylesters derived from total lipids of aerobically incubated fatty streaks revealed an increased incorporation of [14C]acetate into the highly unsaturated long-chain fatty acids. In developed atherosclerotic lesions and in hypoxia the incorporation of radioacetate into the polyunsaturated fatty acids and the formation of 20:4 fatty acid from [14C]linolenic acid were, in contrast to the above finding, decreased while the synthesis of eicosatrienoic acid was increased. This finding suggests a block in the desaturation step of linoleic into 20:4 fatty acid in further developed atheroma and in hypoxia. In aerobically incubated atherosclerotic lesions and in hypoxia the palmitic acid was synthesized mainly by chain elongation while in grossly normal areas of the aorta at least part of this acid was synthesized de novo.
Atherosclerosis 1976 Sep
PMID:Comparative studies on fatty acid synthesis in atherosclerotic and hypoxic human aorta. 18 99

The authors investigated enzymic systems and corresponding substrate cycles that transport hydrogen across the mitochondrial membrane in a myocardium with experimental cholesterol-induced atherosclerosis. Sensitive spectrophotometric methods were used for assessing the activities of cytoplasmic and mitochondrial enzymes: lactate and alpha-glycerphosphate dehydrogenases, and of characteristic mitochondrial enzymes: glutamate and beta-hydroxybutyrate dehydrogenases. Specific enzymological methods were used in determining the concentrations of lactic, pyruvic, glycerophosphoric, dihydroacetonephosphoric, malic, oxaloacetic, glutamic, alpha-ketoglutaric, acetoacetic, and beta-hydroxybutyric acids. The cytoplasmic NAD/NADH quotient was calculated. The investigators found a reduction of enzymic activities in the "shuttle" transport system studied, marked deviations from normal levels of their substrates, and a reduction of the NAD/NADH quotient by the factor 0.56. All these phenomena represent a biochemical background of a complex of symptoms characterizing severe myocardial lesion in experimental atherosclerosis.
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PMID:Biochemical background of atherosclerotic heart lesion in an experiment. 20 32

The authors investigated the dehydrogenase histochemistry of arterioles on 22 muscular biopsies from 14 male and 8 female patients with different clinical forms of atherosclerosis, and in 5 controls. There was a diminution with age of all the enzymes studied. In 3 of 6 cases with pathological lesions (thickening of endothelium, fragmentation of the internal elastic lamina, thrombosis) there was a regional diminution of NADH-diaphorase and NADPH-diaphorase activities parallel with an increase of the reaction for lactic dehydrogenase and glutamate dehydrogenase in the muscular cells and endothelium.
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PMID:Histoenzymology of muscular arterioles. 81 50

1. Nilvadipine (FK 235, FR 34235) suppressed ischemia (20 min)-reflow (20 min)-induced paw edema of mice (ED30:0.4 mg/kg i.v. and 2 mg/kg p.o.). Other calcium entry blockers of dihydropyridine-type also suppressed the edema, but 30-fold higher doses were required. 2. Oral dosing of nilvadipine suppressed carrageenan-induced paw edema (ED30:15 mg/kg in rats and 20 mg/kg in mice) at a potency corresponding to that of an anti-inflammatory drug, ibuprofen. Nifedipine, nicardipine and nimodipine resulted in a suppression of 30% only with 100 mg/kg oral dosing in rats. Nitrendipine, diltiazem and verapamil were without effect. 3. Nilvadipine inhibited superoxide radical (O-2production from xanthine oxidase (XOD) both with lactate dehydrogenase + NADH method and cytochrome c method (IC50:90 and 100 micrograms/ml, respectively). Nifedipine and nicardipine showed some inhibition, but the other calcium entry blockers failed to inhibit significantly even at 320 micrograms/ml. As uric acid formation was not reduced by the tested drugs, the inhibitory action might be due to their O-2scavenging effects. 4. Superoxide production of neutrophils from casein-induced peritoneal fluid in rats was most strongly inhibited by nilvadipine when the cells were stimulated by a calcium ionophore, A23187 (IC50:4 micrograms/ml). Inhibition by this drug when stimulated by f-methonyl-leucyl-phenylalanine and phorbol myristate acetate was less effective (IC50:20 and 30 micrograms/ml, respectively). Nifedipine and nicardipine inhibited neutrophil O-2production at higher concentrations (30-200 micrograms/ml) with all stimulants. Inhibitory actions by other drugs were weak. 5. Triggering of atherosclerosis depends largely on the oxidative stress on blood vessels after recently established concept.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Inhibition by nilvadipine of ischemic and carrageenan paw edema as well as of superoxide radical production from neutrophils and xanthine oxidase. 165 7

We examined Na(+)-K(+)-ATPase activity and the levels of alpha I-, alpha II-, and beta-subunit mRNA and protein in aortic cells of diabetic rats. Diabetes was induced by streptozocin. Na(+)-K(+)-ATPase activity was significantly reduced on the 2nd day of diabetes (9.4 +/- 1.3 vs. 17.5 +/- 2.1 mumol NADH.mg-1 protein.h-1, P less than 0.05) and remained depressed on days 7 and 14. The levels of 5.3-kilobase (kb) mRNA band of the catalytic alpha II-subunit of Na(+)-K(+)-ATPase were also decreased on the 2nd day of diabetes, whereas the second band, 3.4 kb, was not affected. Both bands were significantly decreased on days 7 and 14. This was followed by a reduction in the levels of alpha II-protein (day 14). The levels of alpha I- and beta-subunit mRNA and alpha I- protein were not affected by diabetes. A decrease in Na(+)-K(+)-ATPase activity was accompanied by a significant (P less than 0.001) increase in the cytosolic free Ca2+ concentrations [( Ca2+]i) in diabetic aortic cells (221 +/- 18 nM on the 7th day and 242 +/- 17 nM on the 14th day vs. 153 +/- 7 nM in controls). These findings are consistent with the hypothesis that decreased Na(+)-K(+)-ATPase activity and gene expression in vascular smooth muscle cells with accompanied rises in [Ca2+]i may be an important pathogenetic factor in the development of hypertension and atherosclerosis in diabetes.
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PMID:Effect of diabetes on cytosolic free Ca2+ and Na(+)-K(+)-ATPase in rat aorta. 165 71

To test the hypothesis of altered energy production in aortic sites predisposed to lesion formation, both coupled oxidative phosphorylation (evaluated from P/O ratios) and control of the energy-linked (ATP) NADH transhydrogenase were examined in muscular cushions at the celiac artery bifurcation. Comparisons were made between atherosclerosis-susceptible White Carneau (WC) and atherosclerosis-resistant Show Racer (SR) pigeons at ages up to early atherogenesis in WC (1 day to 6 months of development). From 1 day to 12 weeks of age, mitochondria from cushions of both breeds tightly coupled phosphorylation to the oxidation of either beta-hydroxybutyrate or succinate. However, by 6 months of age, WC celiac cushions had significantly (P less than 0.05) lower P/O ratios than the SR cushions with either substrate, suggesting uncoupled respiratory-chain phosphorylation. Aortic submitochondrial A-particles from celiac cushions of susceptible pigeons showed no ATP regulation of NADH transhydrogenation at 6 weeks and subsequent ages. This defect is believed to enhance lipid biosynthesis and may be involved in exacerbation of the biochemical arteriopathy in WC. These findings are discussed in terms of relationships between oxidative energy production, lipid accumulation, hypoxic stress, and atherosclerotic involvement.
Atherosclerosis 1980 Jun
PMID:Focal differences in bioenergetic metabolism of atherosclerosis-susceptible and -resistant pigeon aortas. 740 50

Vascular remodeling is a key process in the pathophysiology of atherosclerosis. Recent evidence suggests that high glucose levels may function as a vascular smooth muscle growth and proliferation-promoting substance. To explore the role of the polyol pathway in this process, we examined the effect of an aldose reductase inhibitor (ARI), epalrestat, on the growth characteristics of cultured rat vascular smooth muscle cells (VSMCs). Epalrestat (10 nmol/L, 1 mumol/L) significantly suppressed the high glucose-induced proliferative effect as measured by [3H]thymidine incorporation by 67% and 82% in cell number, suggesting ARI as an antimitogenic factor. In VSMCs, epalrestat (10 nmol/L, 1 mumol/L) significantly suppressed the high glucose-induced incorporation of [3H]leucine by 45% and 58% with the concomitant reduction of the cell size estimated by flowcytometry. Epalrestat (1 mumol/L) also suppressed high glucose-induced intracellular NADH/NAD+ increase and membrane-bound protein kinase C activation. These results indicate that this ARI possesses an antiproliferative and antihypertrophic action on VSMCs induced by high glucose possibly through protein kinase C suppression.
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PMID:Aldose reductase inhibitor prevents hyperproliferation and hypertrophy of cultured rat vascular smooth muscle cells induced by high glucose. 748 44

Numerous studies have shown that moderate drinking protects against coronary disease, but no mechanism for this effect has been established. In the present study we show that the B1 isoenzyme of alcohol dehydrogenase (ADH) is expressed in human blood vessels. Polymerase chain reaction (PCR) employing total human aortic cDNA as a template detected a 0.6 kb band, the nucleotide sequence of which is an identical match to the low Km (50 microM) B1 ADH isoenzyme nucleotide sequence. Immunoblot of vascular homogenates shows a 40 KDa band, i.e., the size of the B1 ADH subunit, and immunohistochemical studies of vessel sections demonstrate high density staining with anti-human ADH (Class I) but not control sera. These studies identify within blood vessels the existence of a metabolic pathway sensitive to low substrate concentrations and capable of producing a reductive (NADH) environment that could antagonize lipoprotein oxidation and hence could account for a protective effect of ethanol on atherosclerosis.
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PMID:Cardioprotective effects of alcohol: mediation by human vascular alcohol dehydrogenase. 794 38

Mitochondria in the heart play two roles essential for cell survival: ATP synthesis and maintenance of Ca2+ homeostasis. These two processes are driven by the same energy source, the H+ electrochemical gradient (delta microH). Under aerobic physiologic conditions, mitochondria do not contribute to the beat-to-beat regulation of cytosolic Ca2+, although a Ca2+ transient in mitochondrial matrix has been described. Micromolar increases in mitochondrial Ca2+ concentration stimulate the Krebs cycle and the NADH redox potential and, therefore, ATP synthesis. Trimetazidine has been shown to improve the calcium transient and, in so doing, the overall myocardial energy production. Under pathologic conditions, mitochondrial Ca2+ overload causes a series of vicious cycles that lead to irreversible cell damage. During ischemia, an alteration in intracellular Ca2+ homeostasis occurs and mitochondria are able to buffer cytosolic Ca2+, suggesting that they retain the Ca(2+)-transporting capacity. Accordingly, once isolated, even after prolonged ischemia the majority of the mitochondria are able to use oxygen for ATP phosphorylation. When isolated after reperfusion, mitochondria are structurally altered, contain large quantities of Ca2+, and produce an excess of oxygen free radicals. Their membrane pores are stimulated and the capacity for oxidative phosphorylation is irreversibly disrupted. The role of mitochondrial DNA damage in progressive human diseases such as coronary atherosclerosis is receiving growing interest. The sequence of ischemia and reperfusion, through increased production of oxygen free radicals, causes mitochondrial deletions in several areas of the mitochondrial genome. This cumulative mitochondrial DNA damage is associated with induction of nuclear oxidative phosphorylation gene mRNA. These observations support the hypothesis that mitochondria and mitochondrial DNA damage play important roles in ischemic heart disease.
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PMID:The role of mitochondria in ischemic heart disease. 889 65

Previously, our laboratory reported that lactosylceramide (LacCer) stimulated human aortic smooth muscle cell proliferation via specific activation of p44 mitogen-activated protein kinase (MAPK) in the p21(ras)/Raf-1/MEK2 pathway and induced expression of the transcription factor c-fos downstream to the p44 MAPK signaling cascade (Bhunia A. K., Han, H., Snowden, A., and Chatterjee S. (1996) J. Biol. Chem. 271, 10660-10666). In the present study, we explored the role of free oxygen radicals in LacCer-mediated induction of cell proliferation. Superoxide levels were measured by the lucigenin chemiluminescence method, MAPK activity was measured by immunocomplex kinase assays, and Western blot analysis and c-fos expression were measured by Northern blot assay. We found that LacCer (10 microM) stimulates endogenous superoxide production (7-fold compared with control) in human aortic smooth muscle cells specifically by activating membrane-associated NADPH oxidase, but not NADH or xanthine oxidase. This process was inhibited by an inhibitor of NADPH oxidase, diphenylene iodonium (DPI), and by antioxidants, N-acetyl-L-cysteine (NAC) or pyrrolidine dithiocarbamate. NAC and DPI both abrogated individual steps in the signaling pathway leading to cell proliferation. For example, the p21(ras).GTP loading, p44 MAPK activity, and induction of transcription factor c-fos all were inhibited by NAC and DPI as well as an antioxidant pyrrolidine dithiocarbamate or reduced glutathione (GSH). In contrast, depletion of GSH by L-buthionine (S, R)-sulfoximine up-regulated the above described signaling cascade. In sum, LacCer, by virtue of activating NADPH oxidase, produces superoxide (a redox stress signaling molecule), which mediates cell proliferation via activation of the kinase cascade. Our findings may explain the potential role of LacCer in the pathogenesis of atherosclerosis involving the proliferation of aortic smooth muscle cells.
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PMID:Redox-regulated signaling by lactosylceramide in the proliferation of human aortic smooth muscle cells. 918 53


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