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1.
目的:探讨苦参碱拮抗哇巴因诱导的心律失常的作用机制。方法:应用全细胞膜片钳技术记录哇巴因对单个豚鼠心室肌细胞的Na+电流和动作电位时程作用后,观察苦参碱对哇巴因诱导Na+电流和动作电位时程改变的恢复作用。结果:1 5μmol·L-1哇巴因延长APD50从给药前476±40.7 ms增加到744±62.9 ms(n=6,P0.05),APD90从给药前499±84.9 ms增加到775±87.7 ms(n=6,P0.01),100μmol·L-1苦参碱恢复APD50至603±79.0 ms(n=6,P0.05),APD90至630±81.6 ms(n=6,P0.05);2 5μmol·L-1哇巴因可增加钠电流的峰值,在-20 m V电压条件下,5μmol·L-1哇巴因增加INa,由正常-40.9±2.32 p A/p F增加到-55.2±2.26 p A/p F(n=8,P0.05),100μmol·L-1苦参碱减少INa至-34.6±2.14 p A/p F(n=8,P0.05);5μmol·L-1哇巴因右移钠通道的激活曲线,并左移钠通道的失活曲线从而改变通道动力学特性;100μmol·L-1苦参碱可抑制哇巴因诱导的INa的增加,并恢复Na+通道动力学特性接近正常。结论:苦参碱拮抗哇巴因诱导的心律失常机制与其抑制哇巴因诱发细胞水平Na+电流的增加,缩短哇巴因诱发APD的延长有关。 相似文献
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Georgina Rodríguez de Lores Arnaiz 《Neurochemical research》1993,18(6):655-661
In previous papers, the isolation of brain soluble fractions able to modify neuronal Na+, K+-ATPase activity has been described. One of those fractions-peak I-stimulates membrane Na+, K+-ATPase while another-peak II-inhibits this enzyme activity, and has other ouabain-like properties. In the present study, synaptosomal membrane Na+, K+-ATPase was analyzed under several experimental conditions, using ATP orp-nitrophenylphosphate (p-NPP) as substrate, in the absence and presence of cerebral cortex peak II. Peak II inhibited K+-p-NPPase activity in a concentration dependent manner. Double reciprocal plots indicated that peak II uncompetitively inhibits K+-p-NPPase activity regarding substrate, Mg2+ and K+ concentration. Peak II failed to block the known K+-p-NPPase stimulation caused by ATP plus Na+. At various K+ concentrations, percentage K+-p-NPPase inhibition by peak II was similar regardless of the ATP plus Na+ presence, indicating lack of correlation with enzyme phosphorylation. Na+, K+-ATPase activity was decreased by peak II depending on K+ concentration. It is postulated that the inhibitory factor(s) present in peak II interfere(s) with enzyme activation by K+. 相似文献
4.
Maria Ida De Michelis Franca Rasi-Caldogno Maria Chiara Pugliarello C. Olivari 《Plant biology (Stuttgart, Germany)》1991,104(4):265-271
The effect of fusicoccin (FC) on the activity of the PM H+-ATPase was investigated in a plasma membrane (PM) fraction from radish seedlings purified by the phase-partitioning procedure. FC stimulated the PM H+-ATPase activity by up to 100 %; the effect was essentially on Vmax with only a slight decrease of the apparent KM of the enzyme for ATP. FC-induced stimulation of the PM H+-ATPase was evident within the first minute and maximal within five minutes of membrane treatment with the toxin indicating that transmission of the signal from the activated receptor to the PM H+-ATPase is very rapid. Both FC-induced stimulation of the PM H+-ATPase and FC binding to its receptor decreased dramatically upon incubation of the membranes in ATPase assay medium at 33 °C in the absence of FC, due to the lability of the free FC receptor. FC-induced stimulation of the PM H+-ATPase was strongly pH dependent: absolute increase of activity was maximal at pH 7, while percent stimulation increased with the increase of pH up to pH 7.5; FC binding was scarcely influenced by pH in the pH range investigated. Taken as a whole, these results indicate that FC binding is a condition necessary, but not sufficient, for FC-induced stimulation of the PM H+-ATPase. 相似文献
5.
The auxin sensitivity of the plasma-membrane H+-ATPase from tobacco leaves (Nicotiana tabacum L. cv. Xanthi) depends on the physiological state of the plant (Santoni et al., 1990, Plant Sci. 68, 33–38). Results based on the study of auxin sensitivity according to culture conditions which accelerate or delay tobacco development demonstrate that the highest auxin sensitivity is always associated with the end of the period of induction to flowering. Auxin stimulation of H+-translocation activity corresponds to an increase of the apparent ATPase affinity for ATP. The plasma-membrane H+-ATPase content, measured with an enzyme-linked immunosorbent assay using a specific anti-H+-ATPase antibody, varies according to plant development, and was found to increase by 100% during floral induction. The specific molecular ATPase activity also changes according to plant development; more particularly, the decrease in molecular ATPase activity upto and during the floral-induction period parallels the increase of sensitivity to indole-3-acetic acid.Abbreviations ELISA
enzyme-linked immunosorbent assay
- PAGE
polyacrylamide gel electrophoresis
- SDS
sodium dodecyl sulfate
Authors are grateful to Mrs. Grosclaude (Lab. Virologie, INRA, Jouy-en-Josas, France) and Mrs. Boudon (Lab. Mycoplasmes, INRA, Dijon, France) for support and advice in the preparation of antibodies. This work was supported by grants No. 89/512/6 from the E.P.R of Bourgogne and No. 89 C 0662 from M.R.T. 相似文献
6.
Gül Şimşek Richard D. Vaughan-Jones Pawel Swietach H. Burak Kandilci 《Journal of cellular physiology》2019,234(4):4681-4694
The heart is highly active metabolically but relatively underperfused and, therefore, vulnerable to ischemia. In addition to acidosis, a key component of ischemia is hypoxia that can modulate gene expression and protein function as part of an adaptive or even maladaptive response. Here, using cardiac-derived HL-1 cells, we investigate the effect of various hypoxic stimuli on the expression and activity of Na+/H + exchanger 1 (NHE1), a principal regulator of intracellular pH. Acute (10 min) anoxia produced a reversible decrease in the sarcolemmal NHE1 activity attributable to NHE1 internalization. Treatment with either 1% O 2 or dimethyloxaloylglycine (DMOG; 1 mM) for 48-hr stabilized hypoxia-inducible factor 1 and reduced the sarcolemmal NHE1 activity by internalization, but without a change in total NHE1 immunoreactivity or message levels of the coding gene ( SLC9A1) determined in whole-cell lysates. Unlike the effect of DMOG, which was rapidly reversed on washout, reoxygenation after a prolonged period of hypoxia did not reverse the effects on NHE1, unless media were also supplemented with a membrane-permeant derivative of glutathione (GSH). Without a prior hypoxic episode, GSH supplementation had no effect on the NHE1 activity. Thus, posthypoxic NHE1 reinsertion can only take place if cells have a sufficient reservoir of a reducing agent. We propose that oxidative stress under prolonged hypoxia depletes intracellular GSH to an extent that curtails NHE1 reinsertion once the hypoxic stimulus is withdrawn. This effect may be cardioprotective, as rapid postischaemic restoration of the NHE1 activity is known to trigger reperfusion injury by producing an intracellular Na +-overload, which is proarrhythmogenic. 相似文献
7.
Michael Habeck Haim Haviv Adriana Katz Einat Kapri-Pardes Sophie Ayciriex Andrej Shevchenko Haruo Ogawa Chikashi Toyoshima Steven J. D. Karlish 《The Journal of biological chemistry》2015,290(8):4829-4842
The activity of membrane proteins such as Na,K-ATPase depends strongly on the surrounding lipid environment. Interactions can be annular, depending on the physical properties of the membrane, or specific with lipids bound in pockets between transmembrane domains. This paper describes three specific lipid-protein interactions using purified recombinant Na,K-ATPase. (a) Thermal stability of the Na,K-ATPase depends crucially on a specific interaction with 18:0/18:1 phosphatidylserine (1-stearoyl-2-oleoyl-sn-glycero-3-phospho-l-serine; SOPS) and cholesterol, which strongly amplifies stabilization. We show here that cholesterol associates with SOPS, FXYD1, and the α subunit between trans-membrane segments αTM8 and -10 to stabilize the protein. (b) Polyunsaturated neutral lipids stimulate Na,K-ATPase turnover by >60%. A screen of the lipid specificity showed that 18:0/20:4 and 18:0/22:6 phosphatidylethanolamine (PE) are the optimal phospholipids for this effect. (c) Saturated phosphatidylcholine and sphingomyelin, but not saturated phosphatidylserine or PE, inhibit Na,K-ATPase activity by 70–80%. This effect depends strongly on the presence of cholesterol. Analysis of the Na,K-ATPase activity and E1-E2 conformational transitions reveals the kinetic mechanisms of these effects. Both stimulatory and inhibitory lipids poise the conformational equilibrium toward E2, but their detailed mechanisms of action are different. PE accelerates the rate of E1 → E2P but does not affect E2(2K)ATP → E13NaATP, whereas sphingomyelin inhibits the rate of E2(2K)ATP → E13NaATP, with very little effect on E1 → E2P. We discuss these lipid effects in relation to recent crystal structures of Na,K-ATPase and propose that there are three separate sites for the specific lipid interactions, with potential physiological roles to regulate activity and stability of the pump. 相似文献
8.
The inhibition of membrane ATPase from the marine alkalotolerant bacterium Vibrio alginolyticus by DCCD, triphenyltin and venturicidin was studied. DCCD proved to be an irreversible inhibitor, while venturicidin and triphenyltin produced a reversible inhibitory effect. The DCCD-binding proteolipid was identified in the membrane preparations. The effect of the inhibitors on ATPase activity and ATP-dependent Na+-transport in V. alginolyticus subcellular vesicles is discussed. 相似文献
9.
对照组小鼠腹腔注射蝮蛇抗栓酶0.1u/10g,实验组同时再注射0.5%EDTA2Na溶液0.25ml/10g,结果表明,死亡率各组间无差别(P>0.05),但对照组动物脏器有出血现象,而实验组则无出血。 相似文献
10.
Divya K. Rao Haiyan Liu Suresh V. Ambudkar Michael Mayer 《The Journal of biological chemistry》2014,289(45):31397-31410
This paper introduces a strategy to kill selectively multidrug-resistant cells that express the ABCG2 transporter (also called breast cancer resistance protein, or BCRP). The approach is based on specific stimulation of ATP hydrolysis by ABCG2 transporters with subtoxic doses of curcumin combined with stimulation of ATP hydrolysis by Na+,K+-ATPase with subtoxic doses of gramicidin A or ouabain. After 72 h of incubation with the drug combinations, the resulting overconsumption of ATP by both pathways inhibits the efflux activity of ABCG2 transporters, leads to depletion of intracellular ATP levels below the viability threshold, and kills resistant cells selectively over cells that lack ABCG2 transporters. This strategy, which was also tested on a clinically relevant human breast adenocarcinoma cell line (MCF-7/FLV1), exploits the overexpression of ABCG2 transporters and induces caspase-dependent apoptotic cell death selectively in resistant cells. This work thus introduces a novel strategy to exploit collateral sensitivity (CS) with a combination of two clinically used compounds that individually do not exert CS. Collectively, this work expands the current knowledge on ABCG2-mediated CS and provides a potential strategy for discovery of CS drugs against drug-resistant cancer cells. 相似文献