Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.6.99.3 (diaphorase)
 5,903 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A detailed procedure for subcellular fractionation of the smooth muscle from pig coronary arteries based on dissection of the proper tissue, homogenization, differential centrifugation and sucrose density gradient centrifugation is described. A number of marker enzymes and Ca2+ uptake in presence or absence of oxalate, ruthenium red and azide were studied. The ATP-dependent oxalate-independent azide- or ruthenium red-insensitive Ca2+ uptake, and the plasma membrane markers K+-activated ouabain-sensitive p-nitrophenylphosphatase, 5'-nucleotidase and Mg2+-ATPase showed maximum enrichment in the F2 fraction (15-28% sucrose) which was also contaminated with the endoplasmic reticulum marker NADPH: cytochrome c reductase, and to a small extent with the inner mitochondrial marker cytochrome c reductase, and also showed a small degree of oxalate stimulation of the Ca2+ uptake. F3 fraction (28-40% sucrose) was maximally enriched in the ATP- and oxalate-dependent azide-insensitive Ca2+ uptake and the endoplasmic reticulum marker NADPH: cytochrome c reductase but was heavily contaminated with the plasma membrane and the inner mitochondrial markers. The mitochondrial fraction was enriched in cytochrome c oxidase and azide- or ruthenium red-sensitive ATP-dependent Ca2+ uptake but was heavily contaminated with other membranes. Electron microscopy showed that F2 contained predominantly smooth surface vesicles and F3 contained smooth surface vesicles, rough endoplasmic reticulum and mitochondria. The ATP-dependent azide-insensitive oxalate-independent and oxalate-stimulated Ca2+ uptake comigrated with the plasma membrane and the endoplasmic reticulum markers, respectively, and were preferentially inhibited by digitonin and phosphatidylserine, respectively. This study establishes a basis for studies on receptor distribution and further Ca2+ uptake studies to understand the physiology of coronary artery vasodilation.
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PMID:Subcellular fractionation of pig coronary artery smooth muscle. 299 88

The translocation of phosphatidate phosphohydrolase between the cytosol and the microsomal membranes was investigated by using a cell-free system from rat liver. Linoleate, alpha-linolenate, arachidonate and eicosapentenoate promoted the translocation to membranes with a similar potency to that of oleate. The phosphohydrolase that associated with the membranes in the presence of [14C]oleate or 1mM-spermine coincided on Percoll gradients with the peak of rotenone-insensitive NADH-cytochrome c reductase, and in the former case with a peak of 14C. Microsomal membranes were enriched with the phosphohydrolase activity by incubation with [14C]oleate or spermine and then incubated with albumin. The phosphohydrolase activity was displaced from the membranes by albumin, and this paralleled the removal of [14C]oleate from the membranes when this acid was present. Chlorpromazine also displaced phosphatidate phosphohydrolase from the membranes, but it did not displace [14C]oleate. The effects of spermine in promoting the association of the phosphohydrolase with the membranes was inhibited by ATP, GTP, CTP, AMP and phosphate. ATP at the same concentration did not antagonize the translocating effect of oleate. From these results and previous work, it was concluded that the binding of long-chain fatty acids and their CoA esters to the endoplasmic reticulum acts as a signal for more phosphatidate phosphohydrolase to associate with these membranes and thereby to enhance the synthesis of glycerolipids, especially triacylglycerol. The translocation of the phosphohydrolase probably depends on the increased negative charge on the membranes, which could also be donated by the accumulation of phosphatidate. Chlorpromazine could oppose the translocation by donating a positive charge to the membranes.
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PMID:Regulation of the translocation of phosphatidate phosphohydrolase between the cytosol and the endoplasmic reticulum of rat liver. Effects of unsaturated fatty acids, spermine, nucleotides, albumin and chlorpromazine. 300 6

An accelerated method is developed for isolating a fraction of plasma membranes of pig myometrium using ultracentrifugation within the sucrose density gradient (15% and 30%). The membranes possessed the high activity of 5'-nucleotidase and Na+, K+-ATPase and the low activity of rhotenon-insensitive NADH-cytochrome c reductase. The vesicularized preparations of plasma membranes are able of ATP-dependent accumulation of Ca2+ (7.5 +/- 0.3 nmol. 45Ca2+ per 1 mg of protein for 15 min). Phosphate increases the calcium accumulation in the presence of ATP and Mg2+. Ionophore A 23187 promotes a complete and rapid release of the previously active-accumulated calcium. The release of 45Ca2+ accumulated by the membrane fraction may be reached by introduction of 1 mM EGTA or DS-Na into the incubation medium, that evidences for the cation accumulation inside closed structures. Using concanavalin-A-sepharose 4B it is shown that 60% of membrane vesicles are turned inside out. The low saponine concentrations (0.0005%) which inhibit Ca2+-accumulation by plasma membranes but not by the endoplasmic reticulum inhibit this process by 60-70% in preparations of the isolated membrane fraction. The method has certain advantages over the previously applied methods used for isolating of plasma membrane fragments from smooth muscles.
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PMID:[Isolation and characteristics of the plasma membrane fraction from the swine myometrium]. 301 62

The effect of LiCl on melanoma cell growth and differentiation was studied in mouse and human melanoma cell lines. LiCl markedly inhibited B16 and HT-144 melanoma cell growth in vitro. Clonogenicity in soft agar of the melanoma cells was also markedly inhibited by LiCl. Pretreatment of B16 mouse melanoma cells with LiCl delayed the appearance of melanoma tumours in syngeneic mice. Growth inhibition of cells was accompanied by morphological and biochemical alterations. LiCl induced cell enlargement and formation of dendrite-like structures. The activity of NADPH cytochrome c reductase, an enzymatic marker of endoplasmic reticulum was significantly (2-3 fold) increased. Addition of myo-inositol to cell cultures partially reversed the anti-proliferative and morphological effects of LiCl on melanoma cells. This finding may suggest that the anti-proliferative effect of LiCl is related to its effect on phosphatidylinositol metabolism.
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PMID:The anti-proliferative effect of lithium chloride on melanoma cells and its reversion by myo-inositol. 302 60

The activity of cholinephosphotransferase was measured in the subcellular fractions of guinea-pig lung. The specific activity of the enzyme was highest in a fraction, intermediate in density between mitochondria and microsomes. Similar subcellular distribution patterns were observed for both cholinephosphotransferase and rotenone-insensitive NADH-cytochrome c reductase, an enzyme associated with the outer membrane of mitochondria and endoplasmic reticulum, suggesting that cholinephosphotransferase may be localized in both of these organelles. The distribution of cholinephosphotransferase activity in the subfractions of mitochondria and the intermediate fractions recovered by linear density gradient paralleled that of the mitochondrial outer membrane marker enzyme, monoamine oxidase. RNA content of a subfraction enriched in cholinephosphotransferase and monoamine oxidase was not typical to that of either rough or smooth endoplasmic reticulum. The results of this study suggest that in guinea-pig lung, cholinephosphotransferase is localized in both the outer membrane of mitochondria, and the endoplasmic reticulum.
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PMID:The localization of cholinephosphotransferase in the outer membrane of guinea-pig lung mitochondria. 303 55

Preexposure of rats to sublethal levels of hyperoxia or ozone reduces morbidity and mortality when the animals are subsequently exposed to lethal levels of either oxidant stress. Lung homogenates and isolated type II pneumocytes from rats exposed to these oxidant stresses demonstrate enhanced antioxidant enzyme activities. Antioxidant enzymes, superoxide dismutase, catalase, and glutathione peroxidase are responsible for the detoxification of partially reduced oxygen species, superoxide and hydrogen peroxide, to less reactive states. Potential pulmonary cellular loci of partially reduced oxygen include mitochondrial NADH dehydrogenase, endoplasmic reticulum-derived NADPH cytochrome c reductase, and cytosolic xanthine oxido reductase. Thus partially reduced oxygen species are hypothesized to mediate hyperoxia and ozone-induced pulmonary damage. This damage may be attenuated by enhanced intracellular antioxidant enzyme activities. Pharmacologic augmentation of pulmonary antioxidant enzymes may be accomplished via intratracheal or intravascular delivery of liposomes containing antioxidant enzymes. Rats pretreated with liposomes containing both superoxide dismutase and catalase, when subsequently exposed to lethal levels of hyperoxia, demonstrate enhanced survival compared with control animals or with animals treated with control liposomes or native antioxidant enzymes. Finally, knowledge obtained from in vitro investigations optimizing liposomal delivery to specific pulmonary cell types may further aid in reducing in vivo pulmonary damage to hyperoxia and ozone.
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PMID:Pulmonary metabolism of reactive oxygen species. 306 93

When incubated with 3H-astemizole, a potent antagonist of H1 receptor, cultured rat hepatocytes, which do not express specific receptors for this ligand, avidly take up 3H-label proportionally to the drug concentration. HPLC analysis indicates that at 10 ng 3H-astemizole/ml, cells almost entirely deplete the culture medium of the drug within 4 hr of incubation. At 37 degrees, astemizole is metabolized and released into the culture medium mainly under the form of glucuronoconjugated metabolites. Differential centrifugation of homogenates from hepatocytes incubated with 3H-astemizole indicates that astemizole and unconjugated metabolites are found in the particulate fraction, whereas astemizole and conjugated metabolites are present in the cytosol. Isopycnic centrifugation on sucrose gradient shows that the major part of the 3H-label in the particulate fraction distributes like phospholipids and NADPH cytochrome c reductase, suggesting an association with membranes and, in particular, with the endoplasmic reticulum. Chloroquine, a drug accumulating within lysosomes and acidic endosomes, decreases the uptake of 3H-astemizole by hepatocytes and induces, during isopycnic centrifugation of a particulate fraction, a shift of the 3H-label towards lower densities where it closely accompanies cathepsin B. This suggests that a minor part of astemizole accumulated in the hepatocytes could be trapped within lysosomes. These results could support the hypothesis that aspecific binding of astemizole to cellular membranes and, to a lesser extent, trapping in lysosomes could play a role in the pharmacokinetics of the drug.
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PMID:Uptake, subcellular distribution and biotransformation of 3H-labelled astemizole in cultured rat hepatocytes. 312 Jul 32

We have examined the membrane topography of cholesterol biosynthesis in cultured human fibroblasts. We fed the cells with radioacetate and then interrupted the biosynthetic pathway so as to trap labeled intermediates in their subcellular locations. We analyzed homogenates of human fibroblasts labeled biosynthetically from radioacetate by centrifugation to equilibrium on sucrose gradients. The following two methods were used to interrupt cholesterol biosynthesis: incubation at 10 degrees C and treatment with 4,4,10 beta-trimethyl-trans-decal-3 beta-ol, a specific inhibitor of oxidosqualene cyclase. Incubation at 10 degrees C caused the accumulation of radiolanosterol at the expense of cholesterol. The lanosterol appeared predominantly at an unusually buoyant density (20% (w/w) sucrose; d = 1.08 g/cm3) as well as at the density normally labeled at 37 degrees C (30% sucrose; d = 1.13 g/cm3). 4,4,10 beta-Trimethyl-trans-decal-3 beta-ol treatment caused the accumulation of labeled squalene and squalene 2,3-oxide. Reversal of the block permitted the label to progress rapidly as a wave into lanosterol and ultimately into cholesterol. The profiles of the three precursors did not coincide, suggesting that they were mostly in different membranes. Squalene was uniquely confined to a density of 1.18 g/cm3 (40% sucrose) while squalene 2,3-oxide appeared in peaks of density 1.08 g/cm3 and 1.13 g/cm3 (20% and 30% sucrose). Lanosterol was in a peak of density 1.13 g/cm3. Pulse-chase experiments showed that lanosterol synthesized in the membranes at 20% sucrose moved rapidly to the membranes at 30% sucrose where it was converted to cholesterol. The density gradient profiles of the following organelle markers also were monitored: plasma membrane, cholesterol mass; Golgi apparatus, galactosyltransferase; endoplasmic reticulum, RNA, 3-hydroxy-3-methylglutaryl-coenzyme A reductase and cytochrome c reductase; peroxisomes, catalase. None of these markers appeared at the buoyant density of 1.08 g/cm3. We conclude that 1) cholesterol biosynthesis may be topographically heterogeneous and 2) newly synthesized squalene 2,3-oxide resides in a buoyant membrane fraction distinct from markers for the major organelles.
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PMID:Topographic heterogeneity in cholesterol biosynthesis. 313 62

In this study we utilized the analytical cell fractionation approach in combination with immunoblotting techniques and immunoelectron microscopy to test for the presence of NADPH cytochrome P-450 reductase and NADH cytochrome c (b5) reductase in rat liver peroxisomes. Highly purified peroxisomes from clofibrate-treated rats exhibited both NADPH cytochrome P-450 reductase activity and NADH cytochrome c reductase activity (using cytochrome c as an electron acceptor). These activities were inhibited by the respective reductase antibodies made against the endoplasmic reticulum (ER) enzymes. Immunoblot data in combination with immunoelectron microscopy indicated that the peroxisomal NADPH cytochrome P-450 reductase is localized in the matrix of the organelle and has a subunit of molecular weight similar to that of the ER enzyme, whereas the NADH cytochrome c (b5) reductase is localized in the membranes of the peroxisomes. Again, the subunit molecular weight was similar to that of the ER enzyme. The presence of these reductases in peroxisomes further supports the role of this organelle in bile acid synthesis and cholesterol metabolism.
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PMID:Demonstration of cytochrome reductases in rat liver peroxisomes: biochemical and immunochemical analyses. 313 3

Lipid is first observed electron microscopically in the rough endoplasmic reticulum of intestinal epithelial cells during active lipid absorption. We have been able to isolate this subcellular fraction by using discontinuous sucrose gradients of 0.25/0.86/1.11 M sucrose. A preliminary low speed centrifugation of mucosal homogenate removed the heavier subcellular organelles. The resulting supernatant was centrifuged at 5.25 x 10(6) x g.min. The pellet from this centrifugation was placed on top of the gradient and the fractions isolated at the density interfaces after centrifugation at 25.5 x 10(6) x g.min. The isolated fractions were characterized enzymatically and electron microscopically. Electron microscopically, the fractions were predominantly composed of rounded vesicles decorated with ribosomes. Most contained lipid droplets whose diameters were 453 nm in the lighter membranes and 245 nm in the membranes isolated from the heavier density region. The vesicles contained NADPH cytochrome c reductase and glucose-6-phosphatase activity indicative of the presence of microsomes. Contamination with other subcellular organelles was minimal. These studies demonstrate a method which enables the isolation of vesicles containing chylomicron-sized particles which are from the earliest phase of chylomicron formation. Isolation of chylomicrons from these vesicles will enable a better understanding of the maturation process of chylomicrons as they traverse the intestinal epithelial cell.
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PMID:Isolation of the early phase of chylomicron formation in intestinal epithelial cells of rats. 314 19


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