胃粘膜Na~+-K~+-Mg~(2+)-ATPase在适应性细胞保护机制中的作用

本文观察了胃粘膜(Na~+-K~+-Mg~(2+))-ATPase在适应性细胞保护机制中的作用,并分析了其与内源性PG的关系。结果表明,哇巴因(一种(Na~+-K~+-Mg~(2+))-ATPase的抑制剂)可部分抑制胃蛋白酶150U(溶于0.1mol/L盐酸中)和20％乙醇的适应性细胞保护作用,并呈现明显的量效关系。用上述两种弱刺激灌胃后15min,胃粘膜(Na~+-K~+-Mg~(2+))-ATPase活力明显升高,也呈现明显的量效关系。预先给予消炎痛以抑制内源性PG的合成,则可阻断弱刺激所诱发的胃粘膜(Na~+-K~+-Mg~(2+))-ATPase活力的升高;若在此基础上再给予外源性PGE_2,又可解除消炎痛的阻断作用。这些结果说明,弱刺激通过内源性PG,进而促进胃粘膜(Na~+-K~+-Mg~(2+))-ATPase活力升高,使粘膜抵抗损伤的能力增强,可能是其保护作用的重要机制之一。     

温度和盐度对吉富品系尼罗罗非鱼幼鱼鳃Na+-K+-ATPase活力的联合效应

试验采用中心组合设计(central composite face-centered design,CCF)和响应曲面法(response surface methodology,RSM)研究了温度(12—34℃)和盐度(0—26)两因素对体长为(4.36±0.105)cm,体重为(2.45±0.153)g的吉富品系尼罗罗非鱼(GIFT Nile tilapia,Oreochromis niloticus;简称吉富罗非鱼)幼鱼鳃Na+-K+-ATPase活力的联合效应。结果表明:(1)温度和盐度的一次效应和二次效应对Na+-K+-ATPase活力影响极显著(P<0.01),温度和盐度的互作效应不显著(P>0.05);(2)经响应曲面法分析,随着温度和盐度的增大,Na+-K+-ATPase活力呈先减小后增大的趋势;(3)建立了Na+-K+-ATPase活力与温度、盐度间关系的模型方程(R2=0.9829,Pred.R2=0.8550,P<0.01),并可用于预测吉富罗非鱼幼鱼鳃Na+-K+-ATPase的活力;(4)优化结果显示,温度为24.15℃,盐度为11.75时,Na+-K+-ATPase活力最小为0.62μmol无机磷.mg-1蛋白.h-1,满意度函数值高达0.961。Na+-K+-ATPase活力可以作为检测罗非鱼生长性能的指标,其活力较低时,一般反映了鱼体生存环境适宜,生长代谢旺盛,消耗于渗透调节的能量较少。     

盐度胁迫对鲻鱼幼鱼鳃丝Na+/K+-ATP酶活力 和体含水量的影响

研究了环境盐度急性胁迫对鲻鱼幼鱼(Mugil cephalus)鳃丝Na+/K+-ATPase(NKA)活性及体内含水量的影响.结果表明,将幼鱼从S33(盐度33)的对照组中直接转移至S0(盐度0)、S10(盐度10)、S20(盐度20)、S33和S40(盐度40)的水体中,随盐度降低各盐度处理的死亡率迅速升高.各处理...     

大豆液泡膜H+-ATPase功能与构象关系的初步研究

大豆液泡膜V型H⁺-ATPase是ATPases中的一种,它在植物细胞的生长发育中有重要的作用.利用竹红菌乙素(HB）和KI这两种分别猝灭蛋白质疏水区域内源荧光和亲水区域内源荧光的荧光猝灭剂,在不同pH值、温度条件下对纯化的大豆液泡膜V型ATPase进行荧光猝灭实验,初步探讨了V型H⁺-ATPase的水解活性同其蛋白质折叠状态间的关系.研究表明,通过比较不同pH值、温度条件下蛋白质疏水区域和亲水区域内源荧光的荧光猝灭常数（K_SV）,发现当环境pH值、温度偏离酶的最适pH值和温度时,蛋白质的内源荧光强度降低且疏水区域和亲水区域内源荧光的荧光猝灭常数（K_SV）降低,说明伴随着酶的水解活性降低,蛋白质的折叠状态发生了变化.我们认为蛋白质在膜内的折叠状态变化是酶失活机制的一个重要方面,为植物的抗冻和抗盐研究提供了一定的参考.     

低温驯化锯缘青蟹鳃抗氧化防护、ATPase及膜脂肪酸组成变化

锯缘青蟹(Scylla serrata)低温环境下生理生化的变化对于理解其低温适应具有重要的意义。本研究中采用生物化学的方法对低温驯化下锯缘青蟹鳃中超氧化物歧化酶(Superoxide dismutase,SOD)、过氧化氢酶(Catalase,CAT)、谷胱甘肽过氧化物酶(Glutathione peroxidase,GPX)的活性,脂质过氧化产物丙二醛(malondialdehyde,MDA)含量,4种ATPase(Na ,K -ATPase,Mg2 -ATPase,Ca2 -ATPase和Ca2 ,Mg2 -ATPase)活性及细胞膜脂肪酸组成进行测定。实验结果显示青蟹鳃中抗氧化酶(SOD、CAT和GPX)活性在3个驯化温度下,随驯化温度的降低而升高。SOD活性在5℃和10℃驯化下显著高于对照组(27℃组)(p<0.01);CAT活性在3个驯化温度下均显著高于对照组(p<0.01或p<0.05);GPX活性仅5℃驯化下显著高于对照组(p<0.01)。MDA含量低温驯化下升高,但仅5℃驯化下显著高于对照组(p<0.01)。鳃中4种ATPase活性均是随驯化温度的降低而升高,并且5℃和10℃驯化下均显著高于对照组(p<0.01或p<0.05)。低温驯化下C18:0、C18:1、C18:2、C18:3、C20:5和C22:6等脂肪酸与对照组相比均发生显著性变化(p<0.01或p<0.05),饱和指数∑SFA/∑UFA显著下降(p<0.01或p<0.05)。低温驯化下锯缘青蟹鳃中抗氧酶及ATPase活性升高,说明其具有明显的温度补偿效应,它是对低温适应的一种积极反应。鳃中MDA低温驯化下积累是活性氧自由基未能被及时清除而产生氧化应激的结果。低温下细胞膜脂肪酸饱和指数降低是维持细胞膜执行正常生理功能的需要。     

绞股兰皂苷对人红细胞膜(Na+-K+)-ATP酶作用的初步研究

绞股兰[Gynostemma Pentaphyllum(Thunb.)Makino]别名七叶胆,系葫芦科绞股兰属多年生草质藤本植物。日本学者从该植物中分离得50余种皂苷,其中有三种和人参皂苷相同。绞股兰具有多种药理活性,临床证实它对多种癌症有一定疗效。此外还具有抗衰老和抗疲劳等功效。1986年我们曾对皖南山区绞股兰的成分及其药理进行过研究。然而,至今尚未见到绞股兰皂苷对红细胞膜(Na~ -K~=)-ATP酶作用的研究报告。本文以人参皂苷为对照,采用荧光素酶测定ATP含量的方法,研究绞股兰皂苷对人红细胞膜(Na~ -K~ )-ATP酶作用。     

粉防已碱与红细胞膜ATPase相互作用的研究

粉防已碱是一种新的钙调蛋白拮抗剂,专一性抑制人红细胞膜上依赖CaM的Ca~(2+)-Mg~(2+)-ATPase。在较高浓度下,它也不同程度地抑制Ca~(2+)-Mg~(2+)-ATPase基本活性、Na~+-K~+-ATPase和Mg~(2+)-ATPase的活性。 除CaM外,不饱和脂肪酸和有限水解均导致膜Ca~(2+)-Mg~(2+)-ATPase的活化,所有这些活化作用被Tet在大约相同的浓度范围内抑制,表明Tet除与CaM结合外,也与膜Ca~(2+)-Mg~(2+)-ATPase结合。 Tet具有抗抵渗溶血的性能,反映了拮抗CaM与药物的膜稳定性间存在相关性。     

竹红菌乙素对人红细胞Na~+-K~+ATPase和钠通透性光敏损伤的研究

本文用NMR和生化方法研究了竹红菌乙素对人红细胞膜Na~+-K~+ATPase和钠通透性的光敏损伤。结果表明:在通常情况下,可同时观察到乙素对Na~+-K~+ATPase和钠通透性的光敏损伤。比较乙素、甲素、原卟啉和胆红素对上述两项指标的光敏能力,发现乙素对Na~+-K~+ATPase损伤能力与甲素和原卟啉相当,比胆红素大,对钠通透性的损伤大于其它几种敏化剂。实验指出,Na~+-K~+ATPase活力下降比钠通透性增加敏感。在乙素光敏作用时,加入Vit E可基术上保持胞内钠离子浓度不变,但无法使Na~+-K~+ATPase活力不损伤,这表明膜磷脂的结构完整对保持胞内钠浓度比较重要。对照试验指出乙素可使Na~+-K~+ATPase暗失活,这可能是经乙素介导的,由膜还原物质向氧的电子传递生成活性氧自由基攻击靶分子所致。     

肉碱对不同强度运动大鼠骨骼肌线粒体呼吸链H~+-K~+-ATPase活性的影响

目的:观察左旋肉碱对不同强度递增负荷跑台运动后大鼠骨骼肌线粒体H~+-K~+-ATPase活性的影响。方法:健康雄性Wistar大鼠40只,随机分为8组(n=5):对照组(A)、肉碱组(L)、运动组(E1、E2、E3)和运动结合肉碱组(LE1、LE2、LE3)。差速离心法提取骨骼肌线粒体,分光光度计测定骨骼肌线粒体H~+-K~+-ATPase活性。结果:与A组相比,L组大鼠H~+-K~+-ATPase活性升高31.18%;E1组提高44.46%(P0.05);LE1组提高64.50%(P0.01);E2、LE2组分别提高了63.65%、71.15%(P0.01);E3组活性下降21.68%;LE3组提高57.81%(P0.05)。与L组比较,LE1、LE2组提高了48.42%、58.08%(P0.05);LE3组提高38.70%。与E1组相比,LE1组提高了36.07%;与E2相比,LE2组提高了20.65%;,与E3组相比,LE3组提高66.96%(P0.01)。结论:肉碱干预后大鼠骨骼肌线粒体H~+-K~+-ATPase活性明显增强,大鼠运动能力明显提高。     

温度对菊酯类杀虫剂在枸杞蚜虫作用机制的影响

【目的】枸杞蚜虫Aphis gossypii Glover是枸杞上的重要害虫,危害枸杞的蚜虫主要是棉蚜,化学防治是最主要的防治方法之一。菊酯类杀虫剂被认为是负温度系数的农药,本文主要研究了温度对菊酯类杀虫剂在棉蚜作用机制的影响。【方法】室内采用药膜法测定了不同温度下3种菊酯类杀虫剂对棉蚜的毒力;采用试剂盒测定了不同温度下3种菊酯类杀虫剂对棉蚜Na~+-K~+-ATPase和Ca~(2+)-Mg~(2+)-ATPase的活性抑制;采用DPH作为探针,应用荧光偏振的方法测定了温度对菊酯类杀虫剂在棉蚜线粒体膜流动性的影响。【结果】在温度分别为17、27、37℃时,溴氰菊酯对棉蚜的毒力表现为正温度系数,百树菊酯和氰戊菊酯表现为负温度系数。当3种菊酯类杀虫剂浓度为1×10~(-4) mol/L,3种杀虫剂对两种ATPase的抑制均表现负温度系数。在不同温度下,3种杀虫剂对棉蚜线粒体膜流动性的影响表现出相似的变化趋势:低温下影响大,高温下影响小,呈现负温度系数。【结论】影响菊酯类杀虫剂温度系数的机制比较复杂,ATPase和线粒体膜流动性在负温度系数中起着重要的作用。     

A reconstituted Na++K+ pump in liposomes containing purified (Na++K+-ATPase from kidney medulla

Liposomes containing either purified or microsomal (Na⁺,K⁺)-ATPase preparations from lamb kidney medulla catalyzed ATP-dependent transport of Na⁺ and K⁺ with a ratio of approximately 3Na⁺ to 2K⁺, which was inhibited by ouabain. Similar results were obtained with liposomes containing a partially purified (Na⁺,K⁺-ATPase from cardiac muscle. This contrasts with an earlier report by Goldin and Tong (J. Biol. Chem. 249, 5907–5915, 1974), in which liposomes containing purified dog kidney (Na⁺,K⁺)-ATPase did not transport K⁺ but catalyzed ATP-dependent symport of Na⁺ and Cl^?. When purified by our procedure, dog kidney (Na⁺,K⁺)-ATPase showed some ability to transport K⁺ but the ratio of Na⁺ : K⁺ was 5 : 1.     

Kinetic studies on the (Na+ + K+)-dependent ATPase. Evidence for coexisting sites for Na+, K+ and Mg2+

Na⁺-ATPase activity of a dog kidney (Na⁺ + K⁺)-ATPase enzyme preparation was inhibited by a high concentration of NaCl (100 mM) in the presence of 30 μM ATP and 50 μM MgCl₂, but stimulated by 100 mM NaCl in the presence of 30 μM ATP and 3 mM MgCl₂. The $\text{K}{}_{0.5}$ for the effect of MgCl₂ was near 0.5 mM. Treatment of the enzyme with the organic mercurial thimerosal had little effect on Na⁺-ATPase activity with 10 mM NaCl but lessened inhibition by 100 mM NaCl in the presence of 50 μM MgCl₂. Similar thimerosal treatment reduced (Na⁺ + K⁺)-ATPase activity by half but did not appreciably affect the $\text{K}{}_{0.5}$ for activation by either Na⁺ or K⁺, although it reduced inhibition by high Na⁺ concentrations. These data are interpreted in terms of two classes of extracellularly-available low-affinity sites for Na⁺: Na⁺-discharge sites at which Na⁺-binding can drive E₂-P back to E₁-P, thereby inhibiting Na⁺-ATPase activity, and sites activating E₂-P hydrolysis and thereby stimulating Na⁺-ATPase activity, corresponding to the K⁺-acceptance sites. Since these two classes of sites cannot be identical, the data favor co-existing Na⁺-discharge and K⁺-acceptance sites. Mg²⁺ may stimulate Na⁺-ATPase activity by favoring E₂-P over E₁-P, through occupying intracellular sites distinct from the phosphorylation site or Na⁺-acceptance sites, perhaps at a coexisting low-affinity substrate site. Among other effects, thimerosal treatment appears to stimulate the Na⁺-ATPase reaction and lessen Na⁺-inhibition of the (Na⁺ + K⁺)-ATPase reaction by increasing the efficacy of Na⁺ in activating E₂-P hydrolysis.     

Mechanisms by which Li+ stimulates the (Na++K+)-dependent ATPase

The addition of LiCl stimulated the (Na⁺+K⁺)-dependent ATPase activity of a rat brain enzyme preparation. Stimulation was greatest in high Na⁺/low K⁺ media and at low Mg. ATP concentrations. Apparent affinities for Li⁺ were estimated at the α-sites (moderate-affinity sites for K⁺ demonstrable in terms of activation of the associated K⁺-dependent phosphatase reaction), at the β-sites (high-affinity sites for K⁺ demonstrable in terms of activation of the overall ATPase reaction), and at the Na⁺ sites for activation. The relative efficacy of Li⁺ was estimated in terms of the apparent maximal velocity of the phosphatase and ATPase reactions when Li⁺ was substituted for K⁺, and also in terms of the relative effect of Li⁺ on the apparent K_M for Mg· ATP. With these data, and previously determined values for the apparent affinities of K⁺ and Na⁺ at these same sites, quantitative kinetic models for the stimulation were examined. A composite model is required in which Li⁺ stimulates by relieving inhibition due to K⁺ and Na⁺ (i) by competing with K⁺ for the α-sites on the enzyme through which K⁺ decreases the apparent affinity for Mg·ATP and (ii) by competing with Na⁺ at low-affinity inhibitory sites, which may represent the external sites at which Na⁺ is discharged by the membrane NA⁺/K⁺ pump that this enzyme represents. Both these sites of action for Li⁺ would thus lie, in vivo, on the cell exterior.     

川楝素对K+、Ca2+通道活动及细胞内Ca2+浓度的调控

川楝素是我国学者从驱蛔中药中分离、鉴定的一个三萜化合物，已证明具选择地影响神经递质释放，有效地对抗肉毒中毒，促进细胞分化、凋亡，抑制肿瘤增殖，抑制昆虫发育和取食，影响K⁺、Ca²⁺通道活动等多种生物效应. 综述了证明川楝素抑制多种K⁺通道，选择地易化L型Ca²⁺通道和进而升高胞内Ca⁺浓度的研究资料，并对川楝素产生这些生物效应的机制进行了讨论.     

Interaction of Ca2+ with (Na+ + K+)-ATPase: Properties of the Ca2+-stimulated phosphatase activity

Ca²⁺ inhibited the Mg²⁺-dependent and K⁺-stimulated p-nitrophenylphosphatase activity of a highly purified preparation of dog kidney (Na⁺ + K⁺)-ATPase. In the absence of K⁺, however, a Mg²⁺-dependent and Ca²⁺-stimulated phosphatase was observed, the maximal velocity of which, at pH 7.2, was about 20% of that of the K⁺-stimulated phosphatase. The Ca²⁺-stimulated phosphatase, like the K⁺-stimulated activity, was inhibited by either ouabain or Na⁺ or ATP. Ouabain sensitivity was decreased with increase in Ca²⁺, but the K_0.5 values of the inhibitory effects of Na⁺ and ATP were independent of Ca²⁺ concentration. Optimal pH was 7.0 for Ca²⁺-stimulated activity, and 7.8–8.2 for the K⁺-stimulated activity. The ratio of the two activities was the same in several enzyme preparations in different states of purity. The data indicate that (a) Ca²⁺-stimulated phosphatase is catalyzed by (Na⁺ + K⁺)-ATPase; (b) there is a site of Ca²⁺ action different from the site at which Ca²⁺ inhibits in competition with Mg²⁺; and (c) Ca²⁺ stimulation can not be explained easily by the action of Ca²⁺ at either the Na⁺ site or the K⁺ site.     

Kinetic Studies of a (Na++ K++ Mg2+) ATPase in Sugar Beet Roots

Kinetic studies of a dithiothreitol treated membrane ATPase fraction from sugar beet roots led to the following conclusions: 1) In the presence of MgATP, Na⁺ and K⁺ stimulate the ATPase activity in different ways following simple Michaelis-Menten kinetics. Thus separate sites for Na⁺ and K⁺ are suggested. 2) In the absence of K⁺, Na⁺ acts as an uncompetitive modifier raising the apparent K_m and V_max for MgATP. 3) In the absence of Na⁺, K⁺ activates non-competitively with respect to MgATP. Thus K⁺ increases V_max but does not affect the apparent affinity constant. 4) K⁺ and Na⁺ double the rate constants. 5) In the presence of Na⁺ or K⁺, Mg²⁺ in excess acts as a weak inhibitor to Na⁺ and/or K⁺ activity. 6) The temperature-activity dependence in the 5–40°C interval shows biphasic Arrhenius plots with the transition point between 15–18°C. The activation energy is lowered at temperatures > 18°C.     

Kinetic Studies of a (Na++ K++ Mg2+) ATPase in Sugar Beet Roots

Kinetic studies of a microsomal, dithiotreitol treated, homogenate from sugar beet roots led to the following conclusions about its ATPase activity: (1) MgATP in complex appears to be the primary substrate for the reaction. The reciprocal equilibrium constant for the binding to the enzyme is estimated to be approximately 0.2 × 10^?3M. (2) Free ATP acts as a competitive inhibitor of the MgATP. The binding constant is about twice as high as for MgATP. Consequently the enzyme has less affinity for ATP than for MgATP. (3) Free Mg²⁺ has little influence on the velocity, as the binding affinity of the enzyme for Mg²⁺ is almost negligible.     

胡杨愈伤组织质膜的两相分离法及其H＋-ATPase的特性

以胡杨愈伤组织为材料,用PEG 3350/DextranT 500构成的两相系统提取质膜微囊,研究质膜H+-ATPase的特性.结果显示由6.3% PEG 3350、6.3% Dextran T500、KCl、磷酸缓冲液(pH 7.8)和蔗糖构成的两相系统提取膜微囊的H+-ATPase活性分别被Na3VO4、KNO3、NaN3抑制了约75%、2.6%和1.3%.方向性检测显示原位膜微囊占提取质膜微囊的90%,翻转膜微囊仅占10%.去垢剂对质膜H+-ATPase活性的影响说明0.015%的Triton X-100和0.01%～0.1%的Brij 58适用于测定质膜H+-ATPase活性.Lineweaver-Burk动力学分析该酶的Km值为0.65 mmol*L-1,Vmax为37.59 μmol Pi*mg-1 protein*h-1.研究结果表明两相法提取的质膜微囊主要是正向密闭的膜微囊;胡杨愈伤组织质膜H+-ATPase的最适pH为6.5,最适温度为37℃左右.     

Kinetics of NH4+ and K+ uptake by ectomycorrhizal fungi. Effect of NH4+ on K+ uptake

NH₄⁺ and K⁺ uptake experiments have been conducted with 3 ectomycorrhizal fungi, originating from Douglas fir (Pseudotsuga menziesii (Mirb.] Franco) stands. At concentrations up to 250 μM, uptake of both NH₄⁺ and K⁺ follow Michaelis-Menten kinetics. Laccaria bicolor (Maire) P. D. Orton, Lactarius rufus (Scop.) Fr. and Lactarius hepaticus Plowr. ap. Boud. exhibit K_m values for NH₄⁺ uptake of 6, 35, and 55 μM, respectively, and K_m values for K⁺ uptake of 24, 18, and 96 μM, respectively. Addition of 100 μM NH₄⁺ raises the K_m of K⁺ uptake by L. bicolor to 35 μM, while the V_max remains unchanged. It is argued that the increase of K_m is possibly caused by depolarization of the plasma membrane. It is not due to a competitive inhibition of K⁺ by NH₄⁺ since the apparent inhibitor constant is much higher than the K_m, for NH₄⁺ uptake. The possibility that NH₄⁺ and K⁺ are taken up by the same carrier can be excluded. The K_m, values for K⁺ uptake in the two other fungi are not significantly affected by 100 μM NH₄⁺. Except for a direct effect of NH₄⁺ on influx of K⁺ into the cells, there may also be an indirect effect after prolonged incubation of the cells in the presence of 100 μM NH₄⁺.