EC:3.6.1.3 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Cation-dependent ATPase activities of rat liver plasmamembranes incubated "in vitro" with 4-hidroxy-2,3-nonenal (HNE, an aldehyde from peroxidative decomposition of biological membrane lipid moieties) are investigated. Mg++-ATPase activity is inhibited significantly by all the doses of HNE used (13,9, 4,1,1,2, 0,35 and 0,10 microM). Evidences for the inhibition of Mg++- Na+- K+- ATPase activity are also presented. Ca++- ATPase activity is strongly increased when rat liver plasmamembranes are incubated in presence of HNE 13,9 microM. Our results suggest that HNE may play a role in the control of intracellular cation levels acting directly on mechanisms of plasmamembranes ion transport.
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PMID:[Changes in the adenosinetriphosphatase activity in plasma membranes incubated in vitro in the presence of 4-hydroxy-2,3-nonenal]. 612 8

4-Hydroxynonenal binds rapidly to Na(+)-K(+)-ATPase, and this was accompanied by a decrease in measurable sulfhydryl groups and a loss of enzyme activity. The I50 value for Na(+)-K(+)-ATPase inhibition by 4-hydroxynonenal was found to be 120 microM. Although the sulfhydryl groups could be completely restored with beta-mercaptoethanol during the reaction of the Na(+)-K(+)-ATPase-HNE-adduct, the Na(+)-K(+)-ATPase activity was only partially restored by this reducing agent. A combination of hydroxylamine and beta-mercaptoethanol yielded the greatest recovery of enzyme activity, 85% of original. Thus, 4-hydroxynonenal binding to Na(+)-K(+)-ATPase led to an irreversible decrease of enzyme activity under the conditions employed. It is hypothesized that 4-hydroxynonenal reacts with sulfhydryls at sites on the enzyme that are inaccessible by beta-mercaptoethanol. Furthermore, evidence was obtained that 4-hydroxynonenal reacts with other amino acids such as lysine to form adducts that also interfere with protein function.
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PMID:4-hydroxynonenal inhibits Na(+)-K(+)-ATPase. 874 42

Structural and functional alterations of cell membranes caused by free radicals leading to lipid peroxidation and increases in intracellular Ca2+ concentrations have been implicated in atherogenesis. The objective of this study was to directly measure the effects of a major aldehydic lipid peroxidation product, 4-OH-nonenal (HNE), on plasma membrane Ca2+ regulatory mechanisms. This was attained by measuring passive Ca2+ permeability, primary active Ca2+-transport, and (Ca2+ + Mg2+)-ATPase activity in a human red cell model system. Using this three-pronged approach it could be shown that HNE increases passive Ca2+ permeability significantly beyond the typically low basal flux, while at the same time inhibiting the active Ca2+ extrusion pump and associated (Ca2+ + Mg2+)-ATPase activity. We conclude that this deleterious combination of effects by HNE in this plasma membrane model system may be indicative of plasma membrane changes in cells directly involved in atheroma formation and thus may represent causative factors in the early stages of atherogenesis.
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PMID:Effects of 4-OH-2,3-trans-nonenal on human erythrocyte plasma membrane Ca2+ pump and passive Ca2+ permeability. 920 74

4-OH-2,3-trans-nonenal (HNE), a major aldehydic lipid peroxidation product, has been shown to cause cellular toxicities and has been linked to a number of pathophysiological processes including atherogenesis. Specifically, in vitro exposure of erythrocyte plasma membrane preparations to HNE resulted in the inhibition of membrane transport function and integrity. To characterize the nature of the inhibitory effects of HNE on plasma membrane regulatory mechanisms, we investigated its effects on substrate and calmodulin (CaM) stimulation on erythrocyte Ca2+ transport and (Ca2+ + Mg2+)-ATPase activities. Concentration-effect relationship analysis in erythrocyte membrane "ghosts" and inside-out vesicles (IOVs) yielded purely noncompetitive kinetics for Ca2+, ATP, and CaM activation of (Ca2+ + Mg2+)-ATPase and Ca2+ transport. Reductions of Vmax from direct addition of 0.1 mM HNE to the assay incubation mixtures ranged from 23 to 41%. Similarly, pretreatment with HNE of both membrane ghosts and IOVs resulted in a concentration-dependent inactivation of ATPase and transport activities without changes in affinity for Ca2+, ATP, or CaM. Conversely, pretreatment of CaM itself did not impair its ability to stimulate (Ca2+ + Mg2+)-ATPase activity threefold. Moreover, HNE-pretreated membranes exhibited unaltered acetylcholinesterase activity compared to sham-pretreated membranes. Together, these results suggest that HNE may structurally, and thus irreversibly, modify one or more functionally important sites on the transport protein itself.
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PMID:Irreversible inhibition of plasma membrane (Ca2+ + Mg2+)-ATPase and Ca2+ transport by 4-OH-2,3-trans-nonenal. 988 53

Incubation of rat striatal synaptosomes in ascorbic acid induced the production of thiobarbituric acid reactive substances, a marker of lipid peroxidation, and 4-hydroxynonenal (4-HNE), a lipid peroxidation aldehydic product. Incubations with 4-HNE, used at a range of concentrations comparable to those obtained during peroxidation, induced a simultaneous, dose-dependent decrease of dopamine (DA) uptake and Na+/K+ ATPase activity and a loss of sulfhydryl (SH) groups. Similar results were observed in a previous study when lipid peroxidation was induced after incubation of synaptosomes in ascorbic acid. Taken together, these data suggest that 4-HNE is an important mediator of oxidative stress and may alter DA uptake after binding to SH groups of the DA transporter and to Na+/K+ ATPase. These toxic events may contribute to the onset and progression of Parkinson's disease.
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PMID:Effects of 4-hydroxynonenal, a lipid peroxidation product, on dopamine transport and Na+/K+ ATPase in rat striatal synaptosomes. 1009 23

Previous experiments reported that an incubation of striatal synaptosomes with 4-hydroxynonenal (4-HNE) resulted in an inhibition of dopamine (DA) uptake and Na+/K+ adenosine triphosphate (ATPase) activity. The present work investigated whether theses inhibitions are related to a 4-HNE binding to the DA transporter (DAT) and the Na+/K+ ATPase. The number of specific [125I]-PE21 binding sites on the DAT was significantly reduced after incubation with 4-HNE. The Na+/K+ ATPase activity decrease induced by 4-HNE was partially reversed, in a dose-dependent manner, by veratridine, a pump stimulator agent. Our previous data (Morel, P., Tallineau, C., Pontcharraud, R., Piriou, A. and Huguet, F., Effects of 4-hydroxynonenal, a lipid peroxidation product, on dopamine transport and Na+/K+ ATPase in rat striatal synaptosomes. Neurochem. Int., 33 (1999) 531-540) combining with the data observed in this study suggest that changes in DA uptake in striatal synaptosomes are directly related to 4-HNE binding to the DAT, whereas the decrease in Na+/K+ ATPase activity resulted only partially from 4-HNE binding to the pump and is mainly secondary to membrane lipid disruption.
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PMID:Origin of 4-hydroxynonenal incubation-induced inhibition of dopamine transporter and Na+/K+ adenosine triphosphate in rat striatal synaptosomes. 1062 17

We have recently demonstrated that a previously known Ral-binding GTPase activating protein, RLIP76, can also catalyze ATP-dependent transport of various structurally unrelated xeno- and endobiotics irrespective of their net charge (Awasthi et al., 2000, Biochemistry, 39: 9327). RLIP76 is a non-ATP binding cassette (ABC) protein but it has two ATP-binding sites and shows basal ATPase activity which is stimulated in the presence of its transport substrates (allocrites) such as doxorubicin (DOX) and S-(2,4-dinitrophenyl) glutathione (DNP-SG). Proteoliposomes reconstituted with purified RLIP76 catalyze ATP-dependent, saturable transport of DOX, as well as of glutathione-conjugates including leukotrienes (LTC4) and the GSH-conjugate of 4-hydroxynonenal (GS-HNE). In erythrocytes the majority of transport activity for DOX, GS-HNE, and LTC4 is accounted for by RLIP76. Cells exposed to mild oxidative stress show a rapid and transient induction of RLIP76 resulting in an increased efflux of GS-HNE and acquire resistance to oxidative stress mediated toxicity and apoptosis. Cells transfected with RLIP76 acquire resistance to DOX through increased efflux of the drug suggesting its possible role in the mechanisms of drug-resistance. In this article, we discuss the significance of transport functions of RLIP76 highlighting its role in the defense mechanisms against oxidative injury, and modulation of signaling mechanisms.
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PMID:Transport functions and physiological significance of 76 kDa Ral-binding GTPase activating protein (RLIP76). 1254 92

The lipid peroxidation product 4-hydroxynonenal (4-HNE) has been shown to interfere with protein function. The goal of this study was to determine the effects of substrate modification by 4-HNE on protein degradation. Equine liver alcohol dehydrogenase (ADH, EC 1.1.1.1) treated with 2-fold molar excess 4-HNE was degraded by a rabbit reticulocyte lysate (RRL) system approximately 1.5-fold faster than control, while treatment with concentrations up to 100-fold molar excess aldehyde were inhibitory to degradation. Involvement of the 26S proteasome (EC 3.4.99.46) was demonstrated through the use of specific proteasome and ATPase inhibitors, and confirmed by measuring the extent of ADH polyubiquitination. Tryptic digestion and LC/MS analysis of 4-HNE-treated ADH identified modification of two zinc chelating Cys residues. Through molecular modeling experiments a conformational shift in both zinc-containing regions was predicted, with an approximate doubling of the distance between the structural zinc and its respective chelating residues. Modification of residues in the active site zinc binding motif resulted in less pronounced alteration in protein structure. The data presented here demonstrate accelerated ubiquitination and proteasomal degradation of ADH modified with 4-HNE, and suggest a conformational change after 4-HNE docking as a mechanism behind these observations.
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PMID:4-Hydroxynonenal regulates 26S proteasomal degradation of alcohol dehydrogenase. 1545 82

A proteomic approach was applied to liver cytosol from rats fed a diet consisting of high fat and ethanol to identify 4-hydroxy-2-nonenal (4-HNE)-modified proteins in vivo. Cytosolic Hsp72, the inducible variant of the Hsp70 heat shock protein family, was consistently among the proteins modified by 4-HNE. Despite 1.3-fold induction of Hsp72 in the livers of ethanol-fed animals, no increase in Hsp70-mediated luciferase refolding in isolated heptocytes was observed, suggesting inhibition of this process by 4-HNE. A 50% and 75% reduction in luciferase refolding efficiency was observed in rabbit reticulocyte lysate (RRL) supplemented with recombinant Hsp72 which had been modified in vitro with 10 and 100 microM 4-HNE, respectively. This observation was accompanied by a 25% and 50% decrease in substrate binding by the chaperone following the same treatment; however, no effect on complex formation between Hsp72 and its co-chaperone Hsp40 was observed. Trypsin digest and mass spectral analysis of Hsp72 treated with 10 and 100 microM 4-HNE consistently identified adduct formation at Cys267 in the ATPase domain of the chaperone. The role of this residue in the observed inhibition was demonstrated through the use of DnaK, a bacterial Hsp70 variant lacking Cys267. DnaK was resistant to 4-HNE inactivation. Additionally, Hsp72 was resistant to inactivation by the thiol-unreactive aldehyde malondialdehyde (MDA), further supporting a role for Cys in Hsp72 inhibition by 4-HNE. Finally, the affinity of Hsp72 for ATP was decreased 32% and 72% following treatment of the chaperone with 10 and 100 microM 4-HNE, respectively. In a model of chronic alcoholic liver injury, induction of Hsp72 was not accompanied by an increase in protein refolding ability. This is likely the result of 4-HNE modification of the Hsp72 ATPase domain.
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PMID:Inhibition of Hsp72-mediated protein refolding by 4-hydroxy-2-nonenal. 1554 Sep 44

Previous studies have shown that the induction of P450 cytochrome 2E1 (CYP2E1) is associated with the loss of proteasomal activities. To correlate the loss of proteasomal activity with CYP2E1 induction, ethanol was fed intragastrically for 1, 3, 7, and 15 days. The maximum induction of CYP2E1 (3.5-fold) occurred after 15 days of ethanol feeding. However, there was no significant decrease in the 26 S chymotrypsin-like and trypsin-like activity over this period of time. When ethanol was given to rats for 1 month, CYP2E1 was significantly induced, and the proteasomal activity was significantly decreased. These results indicate that proteasomal activity was not directly affected by ethanol or CYP2E1 induction. Since 4-hydroxynonenal (4-HNE) concentration was significantly increased at 1 month of ethanol feeding, it was suspected that 4-HNE adduct formation with proteasome subunits could be the mechanism of proteasome inhibition. Using an antibody to 4-HNE adducted proteins in Western blot analysis of the 26 S proteasome fraction isolated from the liver of alcohol fed rats, one extra band appeared around 44 kDa. When the antibody to an ATPase Rpt4 was used to stain the stripped membrane, the same band that was detected with the 4-HNE antibody was detected with the Rpt4 antibody. An adduct of 4-HNE formed with the Rpt4 subunit of 26 S could impede the association of 19 S and 20 S and thus account for the observed decrease of proteasomal activity.
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PMID:The effect of ethanol-induced CYP2E1 on proteasome activity: the role of 4-hydroxynonenal. 1571 35

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