竹红菌甲素对红细胞膜上几种酶光敏失活作用的研究

本文比较了竹红菌甲素对人红细胞膜AchE,GPDH,Na~ -K~ ATPase和Ca~(2 )-Mg~(2 )ATPase的光敏失活能力,结果表明甲素对Ca~(2 )-Mg~(2 )ATPase作用最强,Na~ -K~ ATPase次之,GPDH再次之,AchE最不敏感,甲素还引起膜蛋白巯基氧化,膜脂质过氧化。其中,巯基氧化可能是ATPase光敏失活的主要原因,而脂质过氧化对ATPase活力损伤作用不大。游离GPDH不如与膜结合的GPDH敏感。GSH,NAD分别对ATPase,GPDH有保护作用。膜蛋白的电泳及内源荧光证据表明:在GPDH活力受到严重损伤时,酶结构并未发生剧烈改变。     

竹红菌乙素对小鼠腹水型肝癌细胞的光敏杀伤作用

研究了竹红菌乙素(以下简称乙素,HB)对小鼠腹水型肝癌细胞(AH)的杀伤作用,并初步解释了其杀伤机理。实验证明乙素对AH细胞杀伤与乙素浓度的平方根成正比。乙素杀伤细胞的能力与竹红菌甲素(以下简称甲素,HA)相等,比血卟啉强,但比原卟啉弱,电镜观察可见:损伤细胞的膜失去连续结构,线粒体,内质网等细胞器变形,最终导致细胞空泡化。此外,细胞变形,表面微绒毛精细结构丧失,也是光敏损伤的主要特征。造成细胞死亡的原因包括~1O,O_2~-和·OH在内的活性氧,而·OH主要由O_2~-转换而来。     

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。     

稀土离子(La~(3+)、Nd~(3+)、Ho~(3+)、Yb~(3+))对人红细胞膜Na~+/K~+ ATPase作用的初步研究

本文以低渗法从新鲜健康人红细胞中制得膜Na~+/K~+ ATPase,用于研究四种鑭系稀土离子(La~(3+)、Nd~(3+)、Ho~(3+)、Yb~(3+))对该酶的影响。结果表明,四种鑭系离子都对红细胞膜Na~+/K~+ ATPase的活性有抑制作用。当反应体系中的稀土离子浓度达50μmol/L时,Na~+/K~+ ATPase的活性所剩不多;低于50μmol/L鑭系离子时,以Nd~(3+)的抑制作用最强;金属离子螯合剂能阻止稀土离子对Na~+/K~+ ATPase的抑制作用。此项研究为稀土的生物效应的理论提供了一些新的证据。     

K~+/Na~+浓度比对罗汉果悬浮细胞生长和甜苷V合成的影响

本文研究了不同K~+/Na~+浓度比对罗汉果悬浮细胞生长和甜苷V合成的影响。结果表明,合适的K~+/Na~+浓度比促进细胞生长和甜苷V生物合成。当K~+/Na~+最佳浓度比为15:1时,罗汉果悬浮细胞内K~+浓度、K~+/Na~+、S_((K,Na))值均为最大,此时细胞利用K~+效率最高,细胞生长速率最快。此外,胞外有机酸和胞内氨基酸的变化表明此浓度比例下,细胞可能通过降低TCA循环代谢强度,以及增强EMP途径和MVA途径代谢强度,从而促进萜类化合物前体乙酰Co A向罗汉果甜苷V合成。     

竹红菌乙素光敏作用对于小鼠肝癌细胞内游离钙浓度的影响

本文用Quin 2/AM荧光探针作为细胞内部钙离子指示剂,研究了竹红菌乙素光敏损伤后引起小鼠腹水肝癌细胞的钙离子浓度变化。实验结果表明,细胞内的钙离子浓度随着乙素光敏作用增强而上升。并且钙离子浓度的升高与细胞的存活率下降呈正比关系;用数种单线态氧淬灭剂(L-His,NaN_3);羟自由基清除剂(PABGA)观察了乙素光敏过程中产生的活性氧与细胞内的钙离子浓度增加相关。用膜去极化方法研究了细胞在光敏损伤过程中钙离子浓度变化与去极化的关系。     

大鼠脑室内注射ANGⅡ和ANGⅡ抗体对尿钠排出和肾皮质Na~+·K~+-ATPase的影响

在麻醉大鼠的侧脑室注射16pg血管紧张素Ⅱ(ANGⅡ),15min内出现尿钠增多的反应并持续90min,平均动脉血压保持稳定。肾皮质Na~+·K~+-ATPase活性(1.51±0.26μmolPi/mg Pro·h)显著低于侧脑室注射人工脑脊液的对照值(2.66±0.28μmol Pi/mg Pro·h,P<0.01),而侧脑室注射ANGⅡ抗体后5min内则出现尿钠减少的反应并持续135min。肾皮质Na~+·K~+-ATPase活性(3.61±0.34μmol Pi/mg Pro·h)显著高于对照值(P<0.05)。股静脉和脊髓蛛网膜下腔分别注射16pg ANGⅡ,均未出现尿钠增多的反应。结果表明,脑内的内源性ANGⅡ具有引起尿钠增多的作用;并提示这种作用可能与肾脏Na~+·K~+-ATPase活性的抑制有关。     

Na^＋—K^＋—ATP酶抑制与心肌缺血后再灌注性损伤

在离体大鼠心脏灌流模型上,观察细胞内高钠对心肌缺血后再灌注性损伤的影响。在低灌流过程中,给予Na~ -K~ -ATP酶抑制剂哇巴因造成细胞内高Na~ ,可加重缺血后再灌注心脏的血液动力学障碍;增加心肌组织丙二醛含量及冠脉流出液中乳酸脱氢酶的活性;降低线粒体及胞浆液中谷胱甘肽过氧化物酶活力;并使心肌组织中Ca~(2 )超负荷及K~ 丢失严重。因此,细胞内高Na~ 可能是心肌缺血后再灌注损伤的基础。     

卟啉类光敏药物主要活性组份对溶菌酶的光敏杀伤特性

研究了卟啉类光敏药物主要活性组分：原卟啉（ＰＰ）、血卟啉（ＨＰ）及双卟啉醚、酯混合物（ＤＨＥ）对Ｈｅｌａ细胞（宫颈癌）的光敏杀伤作用特性,首次发现ＰＰ对癌细胞杀伤力最大,是最有效的卟啉组分。进而研究了其作用的分子机制,采用激光喇曼光谱技术,研究了三种组分对溶菌酶空间结构的光敏损伤。结果表明,它们对溶菌酶主链和侧链结构的损伤明显不同：ＰＰ对蛋白质主链结构中的β—折叠,β—回折的光敏损伤明显强于ＨＰ和ＤＨＥ且不随浓度而变．     

膜Ca~(2+)-Mg~(2+)-ATPase连续自动分析方法

目前,膜ATPase的活性测定主要是利用ATP再生系统,以及测定ATP水解所释放Pi的方法。比色测Pi的方法为Fiske所开创。Lacy改用抗坏血酸作还原剂,还原磷钼酸,提高了灵敏度。通常在中止酶反应,进行Pi比色测定之前,使用离心或过滤去除变性的酶蛋白。Kline将酶水解产生的Pi透析到还原性试剂中,以进行Na~+-K~+-ATPase的自动分析。Arnold用表面活性剂溶解膜蛋白,省去过滤、离心或透析等步骤,进行膜ATPase的自动分析,具有简便、快速、灵敏度高、结果可靠等特点,     

竹红菌素对人红细胞Na^＋—K^＋ATPase和钠通透性光敏损伤的研究

The hypocrellin B (HB)-sensitized photodamage on Na(+)-K+ ATPase and sodium permeability of human erythrocytes by means of NMR and biochemical techniques was studied in this paper. The decrease of the enzyme activity and increase of intracellular sodium concentration were usually observed simultaneously. The evidences suggested that the integrality of membrane phospholipid played an important role in maintaining the physiological sodium content of erythrocytes. The loss of the enzyme activity was a sensitive index compared with the increase of intracellular Na+ concentration during the photosensitization. From the comparison tests among HB, HA, protoporphyrin and bilirubin, we found that HB had more ability to increasing intracellular Na+ concentration than the other photosensitization even though the photodamage on the enzyme activity caused by HB, HA, and protoporphyrin were nearly the same. Besides the photoinactivation of Na(+)-K+ ATPase induced by HB and light, the enzyme was also inactivated in the medium containing HB in absence of light. The active oxygen radicals generated though HB mediated redox-cycling might be involved in the dark inactivation of the enzyme.     

番茄碱对人红细胞膜Na+-K+-ATPase活性影响的研究

以低渗法从新鲜健康人红细胞中制得膜Na^ -K^ -ATPase,研究了番茄碱(tomatine)X~人红细胞膜Na^ -K^ -ATPase活性的影响。实验结果表明,反应体系中的tomatine浓度低于1mmol／L时,对不依赖钙调蛋白(CAM)激活的Na^ -K^ -ATPase(称之为基本酶活)影响不大,浓度达1mmol／L时,该酶活性仍保持在95％左右;而在此浓度范围内,tomatine对依赖CaM的Na^ -K^ -ATPase有明显的抑制作用,其IC50值为0．16mmol／L．说明tomatine对膜酶Na^ -K^ -ATPase活性的影响可能是通过阻断CaM激活的途径而起作用,从而为进一步研究番茄碱的作用机制奠定了基础。     

离体大鼠心肌细胞钠超负荷与缺氧—复氧损伤

本工作在离体成年大鼠心肌细胞缺氧-复氧模型上,观察到细胞无氧孵育时加入Na~ -K~ ATP酶抑制剂哇巴因,增加细胞内钠离子浓度,复氧孵育后造成了更严重的细胞损伤及钙超负荷,缺氧期末细胞内钠离子浓度与复氧后钙超负荷的程度呈显著正相关。复氧期给予Na~ -Ca~(2 )交换抑制剂Mn~(2 ),明显减轻了细胞的缺氧-复氧损伤,Mn~(2 )还显著抑制了无钠孵育引起的细胞损伤。结果提示:缺氧期细胞内钠超负荷是复氧时细胞内钙超负荷发生的条件,Na~ -Ca~(2 )交换是Ca~(2 )进入细胞的重要途径。     

水分胁迫对玉米幼叶生长区细胞质膜H~+-ATPase活性的影响

PEG/Hoagland(-0.1 MPa)溶液根际胁迫处理5叶期玉米幼苗24h,明显刺激第5幼叶生长区细胞H?的分泌,比对照高约1.5倍,钒酸钠对此过程有强烈抑制作用。用水溶性多聚物(PEG4000/Dextran T 500)两相分配法分离玉米第5幼叶生长区的质膜,胁迫处理增加了质膜H~+—ATPase对底物的亲和力,K_m降低到对照的?;活力增加约1.5倍。亚胺环己酮对胁迫处理引起的质膜H~+—ATP_(ase)活性增加没有抑制作用,不同程度的胁迫处理会导致膜制剂磷脂/蛋白比率的变化,其比率在0.83～1.05之间时.随比率的增加,质膜 H~+—ATP_(ase)活性迅速上升;比率在1.05～1.37之间时,随比率值增加,活性迅速下降。暗示质膜的磷脂含量变化可能是胁迫导致质膜 H~+—ATP_(ase)活性增加的主要原因。     

兔海水淹溺型肺水肿组织NKA活性与动脉血气的相关性分析

目的:观察兔海水淹溺型肺水肿组织钠-钾ATP酶(Na~ -K~ -ATPase)活性变化与动脉血气变化的关系,探讨钠-钾ATP酶在海水淹溺肺水肿形成中的重要作用,为临床治疗提供实验依据。方法:将30只新西兰兔随机分为对照组(5只)及淹溺组(25只),淹溺组根据观察时间段分为10′、30′、60′、90′、120′组(每组5只),采用气管切开插入塑料导管、向气管内灌海水3 mL/kg、双肺自主通气的方法进行兔海水淹溺肺水肿模型复制。于各观察时间点进行血气分析,并采集肺组织标本,对肺组织匀浆钠-钾ATP酶进行测定。结果:兔海水淹溺肺水肿各时间点钠-钾ATP酶活性降低,动脉血气显示低氧和酸中毒,钠-钾ATP酶活性变化与动脉血气主要指标变化具有线性回归关系(P<0.01)。结论:海水淹溺型肺水肿组织NKA活性与动脉血气的具有相关性,钠-钾ATP酶在海水淹溺肺水肿发生发展中具有重要作用。     

Human and dog erythrocytes: relationship between cellular ATP levels, ATP consumption and potassium concentrations.

The intracellular K+/Na+ ratio of various mammalian cell types are known to differ remarkably. Particularly noteworthy is the fact that erythrocytes of different mammalian species contain entirely different potassium and sodium concentrations. The human erythrocyte is an example of the supposedly "normal" high potassium cell, while the dog erythrocyte contains ten times more sodium than potassium ions (Table I). Furthermore, this difference is sustained despite the plasma sodium and potassium concentrations being almost identical in both species (high Na+ and low K+). In spite of these inorganic ion differences, both human and dog erythrocytes contain 33% dry material (mostly Hb) and 67% water. Conventional cell theory would couple cellular volume regulation with Na+ and K+ dependent ATPase activity which is believed to control intracellular Na+/K+ concentrations. Since the high Na+ and low K+ contents of dog erythrocytes are believed to be due to the lack of the postulated Na/K-ATPase enzyme, they must presumably have an alternative mechanism of volume regulation, otherwise current ideas of membrane ATPase activity coupled volume regulation need serious reconsideration. The object of our investigation was to explore the relationship between ATPase activity, ATP levels and the Na+/K+ concentrations in human and dog erythrocytes. Our results indicate that the intracellular ATP level in erythrocytes correspond with their K+, Na+ content. They are discussed in relation to conventional membrane transport theory and also to Ling's "association-induction hypothesis", the latter proving to be a more useful basis on which to interpret results.     

Antibodies against erythrocyte Ca2+-transport ATPase specifically inhibit the calmodulin-dependent fraction of the enzyme''s activity.

Antibodies against purified Ca2+-transport ATPase from human erythrocytes were raised in rabbits. Immunodiffusion experiments revealed that precipitating antibodies had been developed. The immunoglobulin fraction inhibited solely the calmodulin-dependent fraction of erythrocyte Ca2+-transport ATPase activity, whereas the basal (in the absence of added calmodulin) activity of the enzyme was not significantly affected by the antibodies. The antibodies produced similar doseresponse curves for the calmodulin- and the oleic acid-stimulated enzyme. However, the immunoglobulin fraction was considerably less effective in inhibiting Ca2+-transport ATPase activated by limited proteolysis. The results obtained with our antibodies are compatible with the interpretation that at least one subpopulation of the antibodies attacks the enzyme at or close to the calmodulin-binding site of the ATPase. The antibodies also inhibited the calmodulin-regulated Ca2+-transport ATPase from pig smooth-muscle plasma membrane, though with lower potency. However, the immunoglobulin fraction failed to suppress pig cardiac sarcoplasmicreticulum Ca2+-transport ATPase activity in the concentration range investigated. In addition, the activity of phosphodiesterase from rat brain, another enzyme modulated by calmodulin, was not at all affected by the immunoglobulin fraction.