• Title/Summary/Keyword: $Na^+-K^+$-ATPase

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Seasonal Variation in the $Na^+$,$K^+$-ATPase Activity in Frog (Rana dybowskii) Brain (개구리 뇌에서 $Na^+$,$K^+$- ATPase 특성의 계절적 변화)

  • 김미승;임욱빈
    • The Korean Journal of Zoology
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    • v.38 no.4
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    • pp.449-456
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    • 1995
  • Seasonal changes in the activity and charaderistics of brain Na+, K+-ATPase and Mg2+-AWase were investigated in frog (Rana dybowskii) The brain Na+, K+-ATPase adivity during hibernation was similar to that in active period in frogs. The Na+, K+-AWase activity increased in December and March, when the frogs enter into and awake from the hibernation. Over 5-35$^{\circ}C$ temperature range, Na+, K+-ATPase showed non4inear Arrhenius kinetics throughout the year. The brain Mg2+-ATPase activity decreased during hibernation, but markedly increased in March. The Arrhenius plots for Mg2+-AWase activity were linear in frogs both in torpid and active state. The ratio of Na+, K+-AWase activity at 15~C to at 35~C did not change during hibernation. The sensitivity of Na+, K+-AWase to ouabain was also unchanged throughout the year. These results indicate that the activity and charaderistics of brain Na+, K+-AWase remain unchanged during hobernadon in frog.

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Effect of Vanadate on Na-K-ATPase Activity of Rabbit Kidney Cortex (Vanadate가 가토신피질 Na-K-ATPase활성에 미치는 영향)

  • Woo, Jong-Ryeol;Han, Bok-Ki;Lee, Sang-Ho
    • The Korean Journal of Physiology
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    • v.17 no.2
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    • pp.161-168
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    • 1983
  • Studies on the effects of vanadate for Na-K-ATPase activity were carried out with rabbit renal cortex. 1) Na-K-ATPase activity was inhibited with the concentrations of vanadate in incubation medium. The vanadate concentration at which activity was inhibited by 50%$(ID_{50})$ was $10^{-6}M$ and Hill coefficient was 1.00. 2) The fractional inhibition by constant concentration of vanadate decreased with increasing enzyme concentration. 3) Increasing $K^+$ and $Na^+$ concentrations in incubation medium diminished the ability to inhibit Na-K-ATPase by vanadate whereas increasing $K^+$ and $Mg^{2+}$ concentrations potentiated the inhibition of Na-K-ATPase by vanadate. 4) Vanadate didn't inhibit Na-K-ATPase at pH 6.6. Increasing pH potentiated the inhibition of Na-K-ATPase activity. 5) Vanadate inhibited Na-K-ATPase activity reversibly in all range of concentrations in dilution experiment. These results show that vanadate inhibits Na-K-ATPase activity with interacting at $KE_2$ state reversibly.

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The Effect of $Mg^#$, $Ca^#$, $Na^+$, $K^+$ and Creatine Phosphate on the ATPase Activity of Microsomal Fraction from Rabbit Uterus (가토자궁근(家兎子宮筋)에서 분리(分離)한 Microsome 분획내(分劃內) Adenosinetriphosphatase 활성도(活性度)에 미치는 $Mg^#$, $Ca^#$, $Na^+$, $K^+$ 및 Creatine phosphate의 영향(影響))

  • Choi, Sin-Jyoung
    • The Korean Journal of Pharmacology
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    • v.2 no.2
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    • pp.35-42
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    • 1966
  • The author investigated the effect of $Mg^#$, $Ca^#$, $Na^+$, $K^+$ and creatine phosphate on the ATPase activity of microsomal fraction isolated from rabbit uterus and obtained the following results : 1) The uterine microsomal fraction contained the $Na^+-$ and $K^+-$ activated ATPase in the presence of $Mg^#$. The ATPase activity increased with protein content in the fraction. 2) The maximum ATPase activity was obtained at $Na^+$ and $K^+$ concentraction of 100 mM respectively. 3) In the absence of $Mg^#$, the ATPase was not activated by $Na^+$ and $K^+$, but inhibited. 4) Car stimulated the $Na^+-$ and $K^+-$ activated ATPase in the presence of $Mg^#$. However, in the absence of $Mg^#$, the ATPase was not activated by $Ca^#$. 5) The $K^+-$ activated ATPase activity was greater than the $Na^+-activated$ ATPase under all conditions. 6) The $Na^+-$ and $K^+$ activated ATPase activity was increased by addition of creatine phosphokinase and creatine phosphate to the reaction mixture.

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The Effects of Diphenylhydantoin and Ouabain on ATPase Activity in Rat Erythrocyte Membranes (Diphenylhydantoin 및 Ouabain 이 흰쥐 적혈구세포막 ATPase에 미치는 영향)

  • Park, Chan-Woong
    • The Korean Journal of Pharmacology
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    • v.6 no.1
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    • pp.1-7
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    • 1970
  • The effects of ouabain and diphenylhydantoin on ATPase activity in rat erythrocyte membranes were studied and also influence of K on ATPase activity was studied. The ATPase activity of rat erythrocyte membrane has been shown to consist of two components. The first component requires the Mg but occurs in the absence of Na or K (Mg-ATPase) and is not inhibited by ouabain and stimulated by diphenylhydantoin. The second component requires the presence of Mg and also Na or K (Na-K-Mg-ATPase). It is inhibited by ouabain and is stimulated by diphenylhydantoin in low Na concentration and inhibited in high Na concentration. K inhibit Na-K-Mg-ATPase which is inhibited by ouabain. Ouabain and diphenylhydantoin show reversed effect to Na-K-Mg-ATPase activity. It suggest that the therapeutic effect of diphenylhydantoin on digitalis induced cardiac arrhythmia may be resulted from their effect on ion transport mechanism of cell membrance. And the relevance of these findings to the action of ouabain and diphenylhydantoin on membrane transport mechanism is discussed.

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Immunochemical Studies for the Characterization of Purified $(Na^+,\;K^+)-ATPase$ and Its Subunits with a Special Reference of Their Effect on Monovalent Cation Transport in Reconstituted $(Na^+,\;K^+)-ATPase$ Vesicles

  • Rhee, H.M.;Hokin, L.E.
    • The Korean Journal of Pharmacology
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    • v.26 no.1
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    • pp.35-49
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    • 1990
  • A highly purified $(Na^+,\;K^+)-ATPase$ from the rectal gland of Squalus acanthias and from the electric organ of Electrophorus electricus has been used to raise antibodies in rabbits. The 97,000 dalton catalytic subunit and glycoprotein derived from the rectal gland of spiny shark were also used as antigens. The two $(Na^+,\;K^+)-ATPase$ holoenzymes and the two shark subunits were antigenic. In Ouchterlony double diffusion experiments, these antibodies formed precipitation bands with their antigens. Antibodies prepared against the two subunits of shark holoenzyme also formed precipitation bands with their antigens and shark holoenzyme, but not with eel holoenzyme. These observations are in good agreement with inhibitory effect of these antibodies on the catalytic activity of $(Na^+,\;K^+)-ATPase$ both from the shark and the eel, since there is very little cross-reaction between the shark anticatalytic subunit antibodies and the eel holoenzyme. The maximum antibodies titer of the anticatalytic subunit antibodies is found to be 6 weeks after the initial single exposure to this antigen. Multiple injections of the antigen increased the antibody titer. However, the time required to produce the maximum antibody titer was approximately the same. These antibodies also inhibit catalytic activity of $(Na^+,\;K^+)-ATPase$ vesicles reconstituted by a slow dialysis of cholate after solubilization of the enzyme in a presonicated mixture of cholate and phospholipid. In these reconstituted $(Na^+,\;K^+)-ATPase$ vesicles, effects of these antibodies on the fluxes of $Na^+$, $Rb^+$, and $K^+$ were investigated. Control or preimmune serum had no effect on the influx of $^{22}Na^+$ or the efflux of $^{86}Rb^+$. Immunized sera against the shark $(Na^+,\;K^+)-ATPase$ holoenzyme, its glycoprotein or catalytic subunit did inhibit the influx of $^{22}Na^+$ and the efflux of $^{86}Rb^+$. It was also demonstrated that these antibodies inhibit the coupled counter-transport of $Na^+$ and $K^+$ as studied by means of dual labeling experiments. However, this inhibitory effect of the antibodies on transport of ions in the $(Na^+,\;K^+)-ATPase$ vesicles is manifested only on the portion of energy and temperature dependent alkali metal fluxes, not on the portion of ATP and ouabain insensitive ion movement. Simultaneous determination of effects of the antibodies on ion fluxes and vesicular catalytic activity indicates that an inhibition of active ion transport in reconstituted $(Na^+,\;K^+)-ATPase$ vesicles appears to be due to the inhibitory action of the antibodies on the enzymatic activity of $(Na^+,\;K^+)-ATPase$ molecules incorporated in the vesicles. These findings that the inhibitory effects of the antibodies specific to $(Na^+,\;K^+)-ATPase$ or to its subunits on ATP and temperature sensitive monovalent cation transport in parallel with the inhibitory effect of vesicular catalytic activity by these antibodies provide direct evidence that $(Na^+,\;K^+)-ATPase$ is the molecular machinery of active cation transport in this reconstituted $(Na^+,\;K^+)-ATPase$ vesicular system.

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Possible Implication for an Indirect Interaction between Basic Fibroblast Growth Factor and (Na,K)ATPase

  • Oh, Ji-Hyun;Lee, Kyung-Lim
    • Archives of Pharmacal Research
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    • v.21 no.6
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    • pp.707-711
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    • 1998
  • The (Na,K)ATPase is responsible for generating the ionic gradients and membrane potentials by the exchange of intracellular $Na^+$ for $K^+$. It has been recentl y shown that (Na,K)ATPase is involved in the exocytic pathway of basic fibroblast growth factor (bFGF), although it is not known that bFGF is secreted to the outside of cell through direct interaction with (Na,K) ATPase. To understand the role for (Na,K)ATPase in the secretary pathway of bFGF, we have sought to identify the cytoplasmic domains of the alpha1 isoform of (Na,K)ATPase interacting with bFGF by yeast two-hybrid system. We have also investigated the interaction between the alpha2 isoform of (Na,K)ATPase and bFGF to find out whether the interaction is isoform-specific. We found that none of the cytoplasmic domains of (Na,K)ATPase isoforms interacted with bFGF. The result suggests that the interaction between bFGF and (Na,K)ATPase might be indirect, thus requiring other proteins which are involved in the formation of protein complexes for the interaction, although we cannot exclude the possibility that the interaction requires the element of the whole alpha subunit structure that was not present in the isolated alpha subunit cytoplasmic domains.

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A Study on the Effect of Ginseng Saponin on Rat Intestinal Mucosal $Na^+,K^+$-ATPase (인삼 사포닌이 백서 장점막 $Na^+,K^+$-ATPase에 미치는 영향에 관한 연구)

  • 조윤성;김낙두;권용화
    • YAKHAK HOEJI
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    • v.22 no.3
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    • pp.120-127
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    • 1978
  • We have studied the effect of ouabain, tool ginseng saponin, panax saponin C (protopanaxatriol derivative) and ginsenoside $Rb_{1}$ (protopanaxadiol derivative) on $Na^+,K^+$-ATPase and $Mg^{++}$-ATPase activities were determined by the method of Robinson and ATPase activities were determined by the method of King. The $Na^+,K^+$-ATPase activities were inhibitied by 90.1% and 51.1% respectively at the concentration of $10^{-3}M$ and $10^{-4}M$ ouabain. The results are consistent with those of Robinson. The $Na^+,K^+$-ATPase activities were increased by 14.3% and 10.0% respectively at the concentration of $10^{-4}$g/ml and $10^{-5}$g/ml total ginseng saponin. Panax saponin C obtained by the method of Han and ginsenoside $Rb_{1}$ obtained by the method of Shibata were used. The $Na^+,K^+$-ATPase activities were increased in the presence of panax saponin C and the increased activity with panax saponin C was greater than that with total ginseng saponin. On the other hand ginsenoside $Rb_{1}$ showed an inhibitory effect on $Na^+,K^+$-ATPase. Total ginseng saponin, panax saponin C and ginsenoside $Rb_{1}$ had no effect on $Mg^{++}$-ATPase. Therefore, it may be concluded that total ginseng saponin has dual effects on microsomal $Na^+,K^+$-ATPase, that is, panax saponin C exhibits stimulatory action, whereas ginsenoside $Rb_{1}$ shows inhibitory action.

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Effects of Ijingtang fractions on activities of NaK ATPase and Ca ATPase in rat brain synaptosome (이진탕 분획엑스가 synaptosomal NaK ATPase와 Ca ATPase의 활성도에 미치는 영향)

  • Jo, Yeong-Uk;Han, Seung-Ho;Kim, Chang-Ju;Min, Byeong-Il;Lee, Tae-Hui;Yun, Sang-Hyeop;O, Su-Myeong
    • The Journal of Korean Medicine
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    • v.18 no.1
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    • pp.198-207
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    • 1997
  • To explore the action mechanism of Ijintang in the brain, the authors investigated the effects of Ijintang fractions on MgNaK ATPase and MgCa ATPase in rat brain synaptosomes prepared from cerebral cortex. The activities of MgNaK ATPase and MgCa ATPase were assayed by the level of inorganic phosphate liberated from the hydrolysis of ATP. Fraction WH-95-7 at the concentration of $10^{-2}%$ decreased the activity of MgNaK ATPase about 34.1% and also reduced the activity of MgCa ATPase about 49.3% But, other fractions (WB-95-7, WC-95-7, MB-95-7, MC-95-7, MH-95-7) did not significantly changed the activities of the MgNaK ATPase and MgCa ATPase The decreased activity of MgNaK ATPase by WH-95-7 will decrease the rate of $Ca^{2+}$ efflux, probably via an Na-Ca exchange mechanism and will increase the rate of $Ca^{2+}$ entry by the depolarization of nerve terminals. The reduced activity of MgCa ATPase by WH-95-7 will result in the decreased efflux of $Ca^{2+}$. As a conclusion, it can be speculated that lithium elevates the intrasynaptosomal $Ca^{2+}$ concentration via inhibition of the activities of MgNaK ATPase and MgCa ATPase. and this increased $[Ca^{2+}]i$ will cause the release of neurotransmitters.

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Estrogen Effect on the Na,K-ATPase Activity Repressed by IgE-Dependent Histamine-Releasing factor in HeLa Cells (HeLa 세포에서 Estrogen이 Na,K-ATPase활성에 미치는 영향)

  • Lee Si-Nae;Kim Hwa-Jung;Lee Kyunglim
    • Microbiology and Biotechnology Letters
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    • v.33 no.4
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    • pp.322-326
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    • 2005
  • IgE-dependent histamine-releasing factor (HRF) is found extracellularly to regulate the degranulation process of histamine in mast cells and basophils and known to play a predominant role in the pathogenesis of chronic allergic disease. HRF has been also identified in the intracellular region of the cell. Previously, we reported that HRF interacts with the 3rd cytoplasmic domain of the alpha subunit of Na,K-ATPase and inhibits Na,K-ATPase activity. Since it is known that estroaen activates the sarcolemmal Na,K-ATPase, we tested whether estrogen recovers the Na,K-ATPase activity repressed by HRF. In this study, we showed that estrogen activates Na,K-ATPase repressed by HRF. RT-PCR and western blot analysis showed that estrogen doesn't reduce the expression level of HRF in HeLa cell, suggesting that this recovery effects of estrogen probably occur via indirect mechanism on HRF and Na,K-ATPase.

Action of Acetylcholine on Sodium-Potassium Activated ATPase in Rabbit Red Cell Membrane (Acetylcholine이 토끼 적혈구막의 NaK ATPase의 활성도에 대한 작용)

  • Koh, Il-Sup
    • The Korean Journal of Physiology
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    • v.10 no.2
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    • pp.1-10
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    • 1976
  • The action of acetylcholine on the sodium plus potassium activated ATPase activity in the rabbit red cell membrane has been investigated and the experiments were also designed to determine the mechanism of action of acetylcholine on the ATPase activity. The following results were observed. 1. The activity of the NaK ATPase from red cell membrane is inhibited by acetylcholine. 2. The ratio of inhibition of NaK ATPase by acetylcholine is decreased by raising the potassium concentration, and is increased by raising the sodium concentration. 3. The ATPase activity is increased by small amounts of calcium but inhibited by larger amounts. The ratio of inhibition of the enzyme by acetylcholine is increased by raising the calcium concentration. 4. The inhibitory action of acetylcholine on the NaK ATPase activity was not related to the sulfhydryl group of cysteine, the hydroxyl group of threonine, or the carboxyl group of aspartic acid. 5. The inhibitory action of acetylcholine on the ATPase activity is due to amino group of the enzyme of NaK ATPase.

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