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Query: EC:3.6.1.3 (
ATPase
)
65,361
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Erythrocytes of diabetic subjects (non-insulin dependent) were found to have eight- to ten-fold higher levels of endogenously formed thiobarbituric acid reactive malonyldialdehyde (MDA), thirteen-fold higher levels of phospholipid-MDA adduct, 15-20% reduced Na(+)-K(+)-
ATPase
activity with unchanged Ca+2-
ATPase
activity, as compared with the erythrocytes from normal healthy individuals. Incubation of normal erythrocytes with elevated concentrations (15-35 mM) of glucose, similar to that present in diabetic plasma, led to the increased lipid peroxidation, phospholipid-MDA adduct formation, reduction of Na(+)-K(+)-
ATPase
(25-50%) and Ca+2-
ATPase
(50%) activities. 2-doxy-glucose was 80% as effective as glucose in the lipid peroxidation and lipid adduct formation. However, other sugars, such as fructose,
galactose
,
mannose
, fucose, glucosamine and 3-O-methylmannoside, and sucrose, tested at a concentration of 35 mM, resulted in reduced (20-30%) lipid peroxidation without the formation of lipid-MDA adduct. Kinetic studies show that reductions in Na(+)-K(+)-
ATPase
and Ca+2-
ATPase
activities precede the lipid peroxidation as the enzyme inactivation occur within 30 min of incubation of erythrocytes with high concentration (15-35 mM) of glucose, while lipid peroxidation product, MDA appears at 4 hr and lipid-MDA adducts at 8 hr. The lipoxygenase pathway inhibitors, 5,8,11-eicosatriynoic acid and Baicalein (5,6,7-trihydroxyflavone), reduced the glucose-induced lipid peroxidation by 30% and MDA-lipid adduct formation by 26%. Indomethacin, a cyclooxygenase pathway inhibitor, had no discernible effect on the lipid peroxidation in erythrocytes. However, the inhibitors of lipid peroxidation, 3-phenylpyrazolidone, metyrapone, and the inhibitors of lipoxygenase pathways did not ablate the glucose-induced reduction of Na(+)-K(+)-
ATPase
and Ca+2-
ATPase
activities in erythrocytes. Erythrocytes produce 15-HETE (15-hydroxy-eicosatetraenoic acid), which is augmented by glucose. These results suggest that the formation of lipoxygenase metabolites potentiate the glucose-induced lipid peroxidation and that the inactivation of Na(+)-K(+)-
ATPase
and Ca+2-
ATPase
occurs as a result of non-covalent interaction of glucose with these enzymes.
...
PMID:Glucose induces lipid peroxidation and inactivation of membrane-associated ion-transport enzymes in human erythrocytes in vivo and in vitro. 165 8
Nerve polyol content and (Na+,K+)-
adenosine triphosphatase
(
ATPase
) activity of nerve homogenates were studied in a colony of rats fed diets containing either 0%, 10%, 20%, or 40%
galactose
for 4 months. Nerve water and dulcitol content exhibited dose-dependent increases, whereas nerve myo-inositol content declined with increasing dietary
galactose
. Homogenate (Na+,K+)-
ATPase
activity increased with increasing
galactose
consumption of up to 20% dietary intake and thereafter remained consistently elevated at twice the activity of 0%
galactose
-fed values. Nerves of rats fed 40%
galactose
were also examined at the light microscope level and showed evidence of both edema and myelin splitting. These data demonstrate that increased nerve water content, dulcitol accumulation, and myo-inositol depletion parallel the previously reported dose-related increase of endoneurial fluid sodium and chloride in nerves of
galactose
-fed rats and suggest that elevated nerve homogenate (Na+,K+)-
ATPase
activity may be related to one or more of these consequences of exaggerated polyol pathway flux.
...
PMID:Dose-dependent alterations in nerve polyols and (Na+,K+)-ATPase activity in galactose intoxication. 165 47
Known functions of the RPE include glucose, water and retinoid transports; an ion transport mechanism utilizing a Na(+)-K(+)-
ATPase
pump located in the apical membrane has been proposed. Recent studies with cultured RPE cells of cat and bovine indicate that the RPE takes up ascorbate by an active mechanism. In this study we use a mounted bullfrog RPE preparation to study unidirectional and net fluxes of radiolabeled (14C)-ascorbic acid (AA), (14C)-dehydroascorbic acid, (3H)-L-glucose(L-glu) and (14C)-3-O-methyl-
D-glucose
(mD-glu) in an effort to explore the mechanism whereby AA moves across this tissue. Comparative flux studies with AA indicated that the retina to blood side (apical to basal:AB) flux of AA was more than 6x that of L-glu, a passive marker of comparable size. The reverse BA flux of AA was not significantly different from that of L-glu. Flux studies of L-glu, mD-glu and dehydroascorbic acid revealed no "net" flux across the mounted RPE; significantly, only AA demonstrated a net flux from retina to choroid (AB). The AB flux of reduced ascorbate was significantly greater than that of dehydroascorbic acid indicating specificity of carrier mediation. Apical ouabain (10(-4) M) and sodium replacement in the bathing medium reduced the AB and net flux of AA significantly suggesting the requirement of a functioning Na(+)-K(+)-
ATPase
on the apical side membrane of the RPE. Energy blocker, dinitrophenol decreased unidirectional AB and net AA fluxes.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Active transport of ascorbic acid across the retinal pigment epithelium of the bullfrog. 165 72
Iodolipids are the possible mediators of excess iodide in thyroid autoregulation. Previous work from our laboratory has shown that 14-iodo-15-hydroxy-5,8,11 eicosatrienoic acid (I-HO-A) and its omega lactone (IL-w) mimic the inhibitory action of excess iodide upon several parameters of thyroid metabolism. The present experiments were performed in order to study the mechanism of the inhibitory effect of I-HO-A and IL-w on 2-deoxy-
D-glucose
(DOG) and aminoisobutyric acid (AIB) uptake by calf slices. I-HO-A, IL-w and KI 0.1 mM caused a 33, 31 and 25% inhibition, respectively, of AIB uptake. The presence of 0.1 mM methimazole (MMI) only reversed the effect of KI. The transport of DOG was inhibited by both compounds: I-HO-A caused a 62% decrease, while IL-w produced a 64% inhibition; and MMI failed to relieve their action. On the contrary, the 33% inhibition caused by KI disappeared when MMI was present. Taking into account that AIB and DOG transport across the membrane requires energy, supplied by Na-K-
ATPase
, changes in its activity were studied. TSH (10 mU/ml) produced a 74% increase in the enzyme activity which was significantly blocked by KI (82%), I-HO-A (100%) and IL-w (100%). Basal enzyme activity was impaired by IL-w (33%), but not by KI. These results were correlated with the decrease of DOG uptake produced by 1 mM ouabain. Tissue specificity effect of iodoarachidonates was demonstrated by the absence of action on DOG transport in kidney and liver.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Thyroid autoregulation: evidence for an action of iodoarachidonates and iodide at the cell membrane level. 166 78
In isolated hepatic microsomal vesicles the heavy metals Cd2+, Cu2+, and Zn2+ inhibit Ca2+ uptake and evoke a prompt efflux of Ca2+ from preloaded vesicles in a dose-dependent manner. N-Ethylmaleimide also inhibits Ca2+ uptake and causes Ca2+ release, but it is less effective in these respects than the heavy metals. Measurement of
mannose
-6-phosphatase activity indicate that the heavy metal-induced Ca2+ efflux is not caused by a general increase in membrane permeability. Heavy metals also inhibit the Ca2(+)-
ATPase
activity and the formation of the phosphorylated intermediate of the enzyme. In contrast, the sulfhydryl modifying reagent, N-ethylmaleimide inhibits the Ca2(+)-
ATPase
activity while it has a relatively small effect on Ca2+ release. Thus, the effects of these agents on Ca2+ sequestering and Ca2(+)-
ATPase
activity are not strictly proportional. The sulfhydryl group reducing agent dithiothreitol protects the microsomes from the effects of heavy metals, while glutathione is less protective. Addition of vanadate to vesicles, at a concentration which completely blocked the activity of the Ca2(+)-
ATPase
, resulted in a small and slow release of the accumulated Ca2+. Subsequent additions of heavy metals evoked a massive Ca2+ release. Thus, the effects of heavy metals on Ca2+ efflux cannot be due entirely to their inhibition of the Ca2+ pump. The heavy metal-induced Ca2+ efflux is not inhibited either by ruthenium red or tetracaine.
...
PMID:Effects of heavy metal on rat liver microsomal Ca2(+)-ATPase and Ca2+ sequestering. Relation to SH groups. 168 49
We have investigated in intact chromaffin secretory vesicles the kinetics, specificity, and mechanism of intragranular ascorbic acid regeneration by extragranular ascorbic acid. The apparent Km of internal ascorbic acid regeneration for external ascorbic acid was 280 microM by Lineweaver-Burk analysis and 287 microM by Eadie-Hofstee analysis. Intragranular ascorbic acid regeneration was specifically mediated by extragranular ascorbic acid or its isomer isoascorbic acid; the reducing agents glutathione, thiourea, homocysteine, NADH, and NADPH did not support regeneration. The structural analog
D-glucose
did not inhibit regeneration by external ascorbic acid, suggesting specificity at the membrane site of electron transfer. The driving force for regeneration of intragranular ascorbic acid was independent of membrane potential, absolute intragranular and extragranular pH, and
ATPase
activity, but might be coupled to the pH difference across the chromaffin granule membrane. Since the apparent Km of regeneration was approximately 10-fold below the cytosolic concentration of ascorbic acid, the reaction may proceed at Vmax in situ.
...
PMID:Ascorbic acid regeneration in chromaffin granules. In situ kinetics. 182 97
Secretory vesicles that accumulate in the temperature-sensitive sec6-4 strain of yeast have been shown to contain a vanadate-sensitive
ATPase
, presumably en route to the plasma membrane (Walworth, N. C., and Novick, P. J. (1987) J. Cell Biol. 105, 163-174). We have now established this enzyme to be a fully functional form of the PMA1 [H+]
ATPase
, identical in its catalytic properties to that found in the plasma membrane. In addition, the secretory vesicles are sealed tightly enough to permit the measurement of ATP-dependent proton pumping with fluorescent probes. We have gone on to exploit the vesicles as an expression system for site-directed mutants of the
ATPase
. For this purpose, a sec6-4 strain has been constructed in which the chromosomal PMA1 gene is under control of the GAL1 promoter; the mutant pma1 allele to be studied is introduced on a centromeric plasmid under the control of a novel heat shock promoter. In
galactose
medium at 23 degrees C, the wild-type
ATPase
is produced and supports normal vegetative growth. When the cells are switched to glucose medium at 37 degrees C, however, the wild-type gene turns off, the mutant gene turns on, and secretory vesicles accumulate. The vesicles contain a substantial amount of newly synthesized, plasmid-encoded
ATPase
(5-10% of total vesicle protein), but only traces of residual wild-type PMA1
ATPase
and no detectable mitochondrial ATPase, vacuolar ATPase, or acid or alkaline phosphatase. To test the expression strategy, we have made use of pma1-105 (Ser368----Phe), a vanadate-resistant mutant previously characterized by standard methods (Perlin, D. S., Harris, S. L., Seto-Young, D., and Haber, J. E. (1989) J. Biol. Chem. 264, 21857-21864). In secretory vesicles, as expected, the plasmid-borne pma1-105 allele gives rise to a mutant enzyme with a reduced rate of ATP hydrolysis and a 100-fold increase in Ki for vanadate. Proton pumping is similarly resistant to vanadate. Thus, the vesicles appear well suited for the production and characterization of mutant forms of the PMA1 [H+]
ATPase
. They should also aid the study of other yeast membrane proteins that are essential for growth as well as heterologous proteins whose appearance in the plasma membrane may be toxic to the cell.
...
PMID:Expression of the yeast plasma membrane [H+]ATPase in secretory vesicles. A new strategy for directed mutagenesis. 182 8
Adult rats injected with streptozotocin during the neonatal period displayed in the fed state moderate hyperglycemia. However, the percentages of glycated hemoglobin in erythrocytes and glycated lactate dehydrogenase in liver and pancreatic islets, as well as the sorbitol and glycogen content of the islets, were not significantly increased. Likewise, in intact islets, the ouabain-sensitive inflow of 86Rb+, and the ratio between 3H2O production from D-[2-3H]glucose and D-[5-3H]glucose were not different in control and streptozotocin-injected rats. These findings suggest that the alteration in both the mitochondrial catabolism of
D-glucose
and secretory response to the hexose previously documented in the islets of the latter animals are not attributable to factors such as the excessive nonenzymatic glycation of cytosolic proteins, sorbitol or glycogen accumulation, or impaired Na+, K(+)-
adenosine triphosphatase
(
ATPase
) activity. Although a contributive role of glucotoxicity in the impaired function of beta cell in this model of non-insulin-dependent diabetes should not be ruled out, it is speculated that streptozotocin might also cause a long-term damage of key mitochondrial dehydrogenases in the pancreatic beta cells and, possibly, their precursor cells.
...
PMID:Neonatal streptozotocin injection: a model of glucotoxicity? 183 15
myo-Inositol uptake by culture neuroblastoma cells at a concentration of myo-inositol less than 50 microM was largely Na+ dependent. Exposing neuroblastoma cells to media supplemented with increasing concentrations of myo-inositol resulted in an increase in myo-inositol accumulation and intracellular content, but myo-inositol incorporation into phospholipids was not increased. The data indicate that myo-inositol exists as separate pools in neuroblastoma cells, and one or more of these pools may contribute to phospholipid synthesis. Exposing neuroblastoma cells to an increased concentration of glucose caused a decrease in myo-inositol uptake by two separate mechanisms. Acute exposure of the cells to 30 mM glucose caused a myo-inositol concentration-dependent decrease in Na(+)-dependent myo-inositol uptake. We propose that the acute inhibition of myo-inositol uptake by glucose is likely due to a competitive type of inhibition. Chronic exposure of cells to media containing 30 mM glucose or 30 mM
galactose
also caused decreases in myo-inositol uptake and incorporation into inositol phospholipids and intracellular myo-inositol content. This decrease in myo-inositol metabolism persisted at a higher concentration of external myo-inositol than the acute inhibition. Supplementing media containing 30 mM glucose or 30 mM
galactose
with 250 microM myo-inositol restored myo-inositol metabolism and content. The inhibition of myo-inositol uptake by cells chronically exposed to increased concentrations of glucose or
galactose
was due to a noncompetitive type of inhibition that was blocked by the addition of sorbinil. Chronic exposure of neuroblastoma cells to media containing 30 mM glucose or 30 mM
galactose
caused a decrease in Na(+)-K(+)-
ATPase
transport activity and resting membrane potential.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Restoration of Na(+)-K+ pump activity and resting membrane potential by myo-inositol supplementation in neuroblastoma cells chronically exposed to glucose or galactose. 184 27
Cultured mouse cerebral microvessel endothelial cells have a large intracellular myo-inositol content and rapidly take up extracellular myo-inositol. Myo-inositol uptake occurs by a high- and low-affinity transport system. Both transport systems appear to be Na(+)-dependent. The high- and low-affinity transport systems have a Km of 11 and 198 mumol/L and a Vmax of 47 and 381 pmol/min/mg protein, respectively. Acute exposure of cultured cells to 30 mmol/L
D-glucose
or D-
galactose
causes a decrease in myo-inositol uptake. The acute effect of glucose and
galactose
on myo-inositol uptake is sensitive to the extracellular myo-inositol concentration. The acute effect of glucose is apparently due to a competitive inhibition of high-affinity myo-inositol transport and has a Ki of 21 mmol/L.
L-Glucose
is more effective than
D-glucose
in decreasing myo-inositol uptake. In contrast, 2-deoxyglucose or 3-0-methylglucose does not acutely inhibit myo-inositol uptake. This suggests that the hydroxyl groups on carbons 2 and 3 of glucose are necessary for inhibitory activity. Chronic exposure of cells to media containing 136.4 mumol/L myo-inositol and 30 mmol/L glucose has no effect on myo-inositol accumulation from the extracellular fluid, myo-inositol incorporation into inositol phospholipids, or total myo-inositol content. Chronic exposure of the cells to media containing 30 mmol/L glucose causes only a small increase in the intracellular sorbitol content. In contrast, chronic exposure of the cells to media containing 30 mmol/L
galactose
causes a large increase in galactitol content and a decrease in myo-inositol accumulation, myo-inositol incorporation into inositol phospholipids, and intracellular myo-inositol content. Sorbinil treatment of the
galactose
-supplemented media protects the cells form changes in myo-inositol metabolism and content. Chronic exposure of the cells to media containing 30 mmol/L glucose or 30 mmol/L
galactose
causes a decrease in ouabain-sensitive Na+/K(+)-
ATPase
transport activity, which is corrected by the addition of sorbinil to the media. Chronic exposure of the cells to media containing 45 mmol/L glucose, but not
galactose
, causes an increase in PGE2 production. These studies suggest that acute or chronic exposure of cultured microvessel endothelial cells to increased concentrations of glucose or
galactose
causes a decrease in myo-inositol uptake by different mechanisms. Chronic exposure of the cells to increased concentrations of glucose or
galactose
causes alterations in endothelial cell properties, including Na+/K(+)-
ATPase
transport activity and eicosanoid synthesis. The data are not clearly supportive of polyol accumulation and myo-inositol depletion as being responsible for the decrease in Na+/K+ pump activity.
...
PMID:Acute and chronic exposure of mouse cerebral microvessel endothelial cells to increased concentrations of glucose and galactose: effect on myo-inositol metabolism, PGE2 synthesis, and Na+/K(+)-ATPase transport activity. 184 18
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