Changes of Ca2+ -ATPase Activities in Cell of Rice Seed lings During the Enhancement of Chilling Resistance Induced by Cold and Salt Pretreatment

The changes of Ca2+ -ATPase activities of plasmolemma, and tonoplast membrane in roots and leaf chloroplasts in rice ( Oryza sativa L. ) seedlings were investigated for exploring the mechanism of cross adaptation to different stresses in the plants during the enhancement of chilling resistance induced by cold and salt pretreatment. The results indicated that the chilling resistance of rice seedlings was enhanced markedly by cold and salt pretreatment, but this enhancement was inhibited by Ca2+-chelate ethyleneglycol-bis-(β-aminoethyl ether) N, N-tetraacetic acid (EGTA) and the calmodulin inhibitor chlorpromazine (CPZ), it showed the calcium messenger system was involved in the course of chilling resistance formation. The Ca2+ -ATPase activity of root plasmolemma and tonoplast membrane as well as the Fe(CN)63- reduction in root plasmolemma in nonpretreated seedlings were declined markedly during the chilling stress. The Ca2+ -ATPase activities of plasmolemma, tonoplast membrane and chloroplasts as well as the Fe(CN)63- reduction of plasmolemma were enhanced by cold pretreatment. The activities of Ca2+ -ATPase and Fe(CN)63- reduction of plasmolemma, as compared with nonpretreated seedlings has increased by 86.80% and 93.93% respectively. The effect of salt pretreatmerit on the Ca2+ -ATPase activities of plasmolemma and chloroplast as well as Fe(CN)63- reduction of plasmolemma were similar to the effect of cold pretreatment. Although the Ca2+ -ATPase activity of tonoplast membrane was declined by salt pretreatment, the activity was none the less markedly higher than that of the nonpretreated seedlings. It showed that there was stronger ability of maintaining calcium homeostasis in the seedlings following two pretreatment. The results displayed that the enhancement of chilling resistance in rice seedlings with cold and salt pretreatment might be related to the effective activation of Ca2+ -ATPase in two pretreatment seedlings, because the activated Ca2+ -ATPase could bring back rapidly the raised cytoplasmic Ca2+ concentration from chilling stress to the state of calcium homeostasis, leading to the maintenance of normal functioning of the calcium messenger system and physiological metabolism. It seems that the adapated mechanism to chilling stress in two seedlings with cold and salt pretreatment was similar.     

抗寒剂CR-4 对冬小麦幼苗质膜钙泵（Ca2 +-ATPase） 的稳定作用

通过磷酸铈沉淀的细胞化学观察揭示,常温下生长的冬小麦幼苗的Ca2+ -ATP酶活性主要定位在质膜上,同时,水浸种和抗寒剂浸种的小麦质膜Ca2+ -ATP酶活性没有差异。然而,小麦幼苗经-7℃冰冻处理12小时和24小时后,则表现明显的区别：水浸种的小麦幼苗质膜Ca2+ -ATP酶活性明显下降,直至完全失活,细胞的精细结构也同时被破坏;而经抗寒剂浸种的小麦幼苗质膜Ca2+ -ATP酶仍维持较高的活性,细胞结构也保持完整,显示抗寒剂对质膜Ca2+ -ATPase酶起着明显的稳定作用。     

Structural Association of Endoplasmic Reticulum with Other Membrane Systems in Populus deltoides Apical Bud Cells and Its Alterations During the Short Day-induced Dormancy

A comparative study was carried out on the EM-cytochemical localization of calcium and Ca2+-ATPase activity in the suspension-cultured cells between the chilling-sensitive maize (Zea mays L. cv. Black Mexican Sweet) and chilling-insensitive Trititrigia (Triticum sect. Trititrigia mackey) at 4 ℃ chilling. When maize and Tyititrigia cells were cultured at 26 ℃, electron microscopic observations revealed that the electron-dense calcium antimonate deposits, an indication of the calcium localization, were localized mainly in the vacuoles, and few was found in the cytosol and nuclei. The electron-dense cerium phosphate deposits, an indication of Ca2+-ATPase activity, were abundantly distributed on the plasma membrane (PM). When the cells from both species were cultured at 4 ℃ for 1 and 3 h, an elevation of Ca2+ level in the cytosol and nuclei was observed, whereas the cerium phosphate deposits on the PM showed no quantitative difference from those of the 26 ℃-cultured cells, indicating that the enzymatic activities were not altered during these chilling periods. However, there was a distinct difference in the dynamics of the Ca2+ distribution and the PM Ca2+-ATPase activity between maize and Trititrigia when chilled at 4 ℃ for 12, 24 and 72 h. In maize cells, a large number of Ca2+ deposits still existed in the cytosol and nuclei, and the PM Ca2+-ATPase became less and less active, and even inactive at all. In Trititrigia cells, the increased cytosolic and nuclear Ca2+ ions decreased after 12 h chilling. By chilling up to 24 and 72 h, the intracellular Ca2+ concentration had been restored to a similar low level as those of the warm temperature-cultured cells, while the activity of the PM Ca2+-ATPase maintained high. The transient cytosolic and nuclear Ca2+ increase and the activities of PM Ca2+-ATPase during chilling are discussed in relation to plant cold hardiness.     

Comparative Investigation on Plasmolemma Properties of Different Reed Ecotypes in Hexi Corridor

Lipid phospholipid and fatty acid compositions, fluidity, phase transition temperatures and membrane-bound Ca2+ ,Mn2+ ,Mg2+-ATPase activities of plasmolemmas extracted from four reed Phragmites communis Trin. ecotypes in Hexi Corridor of Gansu province were investigated. The results showed that all plasmolemmas of the four reed ecotypes consisted of the same six phospholipid and seven fatty acid components, but their proportions in the plasmolemma lipids of various reed ecotypes were markedly different. Index of unsaturated fatty acid (IUFA)and fluidity of plasmolemmas increased in the sequence of swamp-,dune-, meadow-dune transitional zone, salt meadow reeds. The plasmolemmas of all reed ecotypes showed phase transition in the two ranges of low-, high temperatures (4–6℃, 20–28 ℃ ), their phase transition temperatures in the latter were markedly different, Plasmolemma-bound Ca2+ ,Mn2+ ,Mg2+-ATPase activity positively related to IUFA and fluidity. Combining the membrane properties with environments,in comparison with swamp reeds, the increases of phosphatidylcholine, cardiolipin and the significant rising of IUFA in plasmolemma lipids are closely responsible for reed saR-tolerance, whereas the increase of phosphatidylglycerol and the suitable rising of IUFA make a contribution to reed drought-tolerance.     

低温、高pH胁迫对水稻幼苗根系质膜、液泡膜ATP酶活性的影响

以耐冷性不同的两个水稻品种为材料,比较研究了幼苗根系质膜、液泡膜ATP酶对低温(8℃)及高pH(8.0)胁迫的反应。结果表明水稻根细胞质膜和液泡膜上均存在Ca3+-ATP酶,但活性远低于H+-ATP酶。耐冷品种武育粳3号经低温(8℃)处理2d,根系质膜和液泡膜H+-ATP酶、Ca2+-ATP酶活性均明显升高,至冷处理12d,H+-ATP酶、Ca2+-ATP酶活性有所下降,但仍与对照相近;而冷敏感品种汕优63经低温(8℃)处理2d,根系质膜H+-ATP酶活性略有升高,而质膜Ca2+-ATP酶以及液泡膜H+-ATP酶、Ca2+-ATP酶活性已明显下降;至冷处理12d,4种酶活性均明显低于对照。高pH胁迫使质膜和液泡膜H+-ATP酶活性下降,而使Ca2+-ATP酶活性上升。高pH胁迫会加剧低温冷害。结果表明,耐冷品种质膜、液泡膜ATP酶比冷敏感品种对低温胁迫有更强的适应能力。     

Activities of photosystem II and antioxidant enzymes in chickpea (<Emphasis Type="Italic">Cicer arietinum</Emphasis> L<Emphasis Type="Italic">.</Emphasis>) cultivars exposed to chilling temperatures

This study was carried out to determine the effect of chilling on both cold-acclimated and non-acclimated chickpea (Cicer arietinum L.) cultivars (Gökçe and Can?tez 87). Chickpea seedlings grown in soil culture for 12 days were subjected to chilling temperatures (2 and 4°C for 12 days) after maintaining in cold-acclimation (10°C, 7 days) or non-acclimation (25°C, 7 days) periods. The lowest values of growth parameters were obtained with cold-acclimated plants, whereas non-acclimated plants exhibited the lowest water content values, especially at 2°C. There was no effect of cold-acclimation period on chlorophyll fluorescence parameters. Plants subjected to chilling temperatures after cold-acclimation were more tolerant with respect to chlorophyll fluorescence parameters, and Gökçe had better photosystem II (PSII) photochemical activity. In the chilling treatments, total chlorophyll (a + b) content reduced, especially at 2°C, while anthocyanin and flavonoid contents increased to a greater extent in Gökçe and carotenoid content of the cultivars did not change. Malondialdehyde (MDA) content was higher for Can?tez 87, mostly at 2°C, while proline accumulation was greater for Gökçe. The cold-acclimation period led to a remarkable increase in antioxidant enzyme activities of both cultivars. The superoxide dismutase (SOD) activity was much higher in Gökçe for both chilling temperatures and the ascorbate peroxidase (APX) activity increased only in the cold-acclimated 4°C treatments. Similarly, with APX activity, the glutathione reductase (GR) and peroxidase (POD) activities of cultivars were higher in cold-acclimated plants at both the chilling temperatures, mostly in Gökçe. The results of this study indicate that cold-acclimation increased the cultivars ability to withstand the chilling temperatures. The lower MDA content and higher antioxidant and photochemical activities in Gökçe indicated an enhanced chilling tolerance capacity of this cultivar to protect the plant from oxidative damage.     

Properties and characterization of a highly purified sarcoplasmic reticulum Ca2+-ATPase from dog cardiac and rabbit skeletal muscle

Sarcoplasmic reticulum (SR) Ca2+-ATPase was purified from dog cardiac and rabbit skeletal muscle using Triton X-100 at optimal ratios of 0.5 for cardiac and 0.5 to 1.0 for skeletal SR. The yields of Ca2+-ATPase were 4 to 5 and 1 to 2.2 mg/100 mg of cardiac and skeletal SR protein, respectively. The enzyme activities were 547 +/- 67 mumol ADP/mg/h for cardiac and 1192 +/- 172 mumol ADP/mg/h for skeletal Ca2+-ATPase. Removal of excess Triton X-100 increased the enzyme activities to 719 +/- 70 and 1473 +/- 206 mumol ADP/mg/h, respectively. The residual content of Triton X-100 for cardiac and skeletal Ca2+-ATPase was 20 and 5 mol/mol of enzyme, respectively. Maximum levels of phosphoenzyme were 4.4 +/- 0.2 and 5.6 +/- 0.6 nmol/mg in each case. A single protein band of 100 kDa was obtained for each purified Ca2+-ATPase by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The preparations were stable at -80 degrees C for 5 months in the presence of 1 mM Ca2+. The phospholipid content of the purified enzyme was 2-fold greater than that of native cardiac and skeletal SR microsomes. Repeated washing of the purified enzyme preparation did not alter the phospholipid content or the specific activities.     

A Mg2+-independent high-affinity Ca2+-stimulated adenosine triphosphatase in the plasma membrane of rat stomach smooth muscle. Subcellular distribution and inhibition by Mg2+

Plasma membrane enriched fraction isolated from the fundus smooth muscle of rat stomach displayed Ca2+-stimulated ATPase activity in the absence of Mg2+. The Ca2+ dependence of such an ATPase activity can be resolved into two hyperbolic components with a high affinity (Km = 0.4 microM) and a low affinity (Km = 0.6 mM) for Ca2+. Distribution of these high-affinity and low-affinity Ca2+-ATPase activities parallels those of several plasma membrane marker enzyme activities but not those of endoplasmic reticulum and mitochondrial membrane marker enzyme activities. Mg2+ also stimulates the ATPase in the absence of Ca2+. Unlike the Mg2+-ATPase and low-affinity Ca2+-ATPase, the plasmalemmal high-affinity Ca2+-ATPase is not sensitive to the inhibitory effect of sodium azide or Triton X-100 treatment. The high-affinity Ca2+-ATPase is noncompetitively inhibited by Mg2+ with respect to Ca2+ stimulation. Such an inhibitory effect of Mg2+ is potentiated by Triton X-100 treatment of the membrane fraction. Calmodulin has little effect on the high-affinity Ca2+-ATPase activity of the plasma membrane enriched fraction with or without EDTA pretreatment. Findings of this novel, Mg2+-independent, high-affinity Ca2+-ATPase activity in the rat stomach smooth muscle plasma membrane are discussed with those of Mg2+-dependent, high-affinity Ca2+-ATPase activities previously reported in other smooth muscle plasma membrane preparations in relation to the plasma membrane Ca2+-pump.     

Short Communication Involvement of Calcium-calmodulin in the Expression of hsp26 Gene in Wheat

The treatment of wheat ( Triticum aestivum L.) seedlings with CaCl2 increased mRNA levels of hsp26 gene at 37 ℃ for 1 h, while that with Ca2+ chelator EGTA decreased the expression of the hsp26 gene. The expression of the wheat calmodulin gene CaM1-2 is rapidly up-regulated in wheat seedlings by heat shock at 37 ℃. The heat-induced up-regulation of CaM1-2 occurred earlier than that of the hsp26 gene did. Calmodulin antagonist N-(6-aminohexyl)-5-chloro-1-naphthalenesulfonamid (W7) inhibited the expression of the hsp26 gene in wheat seedlings at 37 ℃ for 1 h. These results implied that the calcium-calmodulin is probably involved in the signal transduction of the hsp26 gene expression induced by heat shock.     

Comparison of Properties of the Plasma Membrane Ca2+ -ATPase from Wheat Root and Leaf

The properties of plasma membrane Ca2 + -ATPases from wheat ( Triticum aestivum L. cv. Lengchun No. 13) root and leaf were compared, and their different properties were analyzed in association with the differentia of the functions of these two organs and their relevant environments. Root plasma membrane Ca2 + -ATPase showed a high activity in a broad range of pH and an optimum reaction temperature of 45 ℃, while the leaf enzyme activated in a narrow range of pH and an optimum reaction temperature of 50 ℃. Hill coefficient of root plasma membrane Ca2 + -ATPase for ATP was 1.6, revealing an obvious positive cooperativity. In contrast, that of leaf plasma membrane Ca2 +-ATPase was 1.0, being in keeping with Michaelis-Menten dynamics. For Ca2 + activation, Hill coefficient of plasma membrane Ca2 + -ATPases from both organs were less than 1, suggesting that both had negative cooperativity. The enzymes were activated by calmodulin and inhibited by Mg2+.     

Identification of the Plasma Membrane Ca2+-ATPase and of Its Autoinhibitory Domain

The effect of controlled proteolysis on the plasma membrane (PM)Ca2+-ATPase was studied at the molecular level in PM purified from radish (Raphanus sativus L.) seedlings. Two new methods for labeling the PM Ca2+-ATPase are described. The PM Ca2+-ATPase can be selectively labeled by treatment with micromolar fluorescein isothiocyanate (FITC), a strong inhibitor of enzyme activity. Both inhibition of activity and FITC binding to the PM Ca2+-ATPase are suppressed by millimolar MgITP. The PM Ca2+-ATPase maintains the capability to bind calmodulin also after sodium dodecyl sulfate gel electrophoresis and blotting; therefore, it can be conveniently identified by 125l-calmodulin overlay in the presence of calcium. With both methods a molecular mass of 133 kD can be calculated for the PM Ca2+-ATPase. FITC-labeled PM Ca2+-ATPase co-migrates with the phosphorylated intermediate of the enzyme[mdash]labeled by incubation with [[gamma]-32P]GTP in the presence of calcium[mdash]on acidic sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Controlled trypsin treatment of purified PM determines a reduction of the molecular mass of the PM Ca2+-ATPase from 133 to 118 kD parallel to the increase of enzyme activity. Only the 133-kD but not the 118-kD PM Ca2+-ATPase binds calmodulin. These results indicate that trypsin removes from the PM Ca2+-ATPase an autoinhibitory domain that contains the calmodulin-binding domain of the enzyme.     

Effects of Calcium on Absorption and Distribution of Ions and H+-ATPase Activity in Barley and Wheat Under Salt Stress

Calcium decreased Na+ absorption and transportation to the shoots,increased K+ and Ca2+ absorption and transportation ,decreased the leakage of electrolyties,and increased the accumulation of dry matter in barley and wheat seedlings under NaC1 stress. Calcium ion promoted the H+-ATPase activities in plasma membrane and tonoplast vesicles isolated from the young roots of the two plants, and increased respiration of the roots. This is in consistent with the results that calcium regulates ion absorption and distribution via its enhancement of H+-ATPase activities in plasma membrane and tonoplast.     

甲基紫精对水稻幼苗根细胞膜微囊Ca^2＋-ATP酶活性的影响

10μmol／L甲基紫精(MV)预处理水稻幼苗可明显提高其抗冷力,但这种功效可被钙的螯合剂EGTA(10 mmol／L)和钙调素(CaM)的抑制剂氯丙嗪(CPZ,0．5mmol／L)所抑制。MV预处理提高了幼苗质膜、液泡膜Ca^2 -ATP酶活性,同时也有提高质膜Fe(CN)6^3-还原速率和这些活性的冷适应性,但这些效果均可被EGTA和CPZ所抑制。离体条件下,膜微囊的Ca^2 -ATP酶活性对H2O2、O2^-、-0H敏感。结果显示,MV预处理提高幼苗的抗冷力可能是通过钙信使介导起作用的,钙信使或CaM可能刺激了质膜、液泡膜Ca^2 -ATP酶活性;而该预处理有增加质膜、液泡膜Ca^2 -ATP酶的冷稳定性则可能与该处理有提高细胞抗氧化能力、稳定冷胁迫下细胞膜系统结构有关。     

Ultrastructural Localization of Adenosine Triphosphatase Activity in Cotyledon Cells of Tomato and Its Changes during Chilling Stress

The ultrastructural localization of adenosine tripkosphatase (ATPase) activity in cotyledon cells of tomato was carried out by use of the cytochemical method of lead phosphate precipitation, and the changes in ATPase activity during chilling stress of the tomato seedlings were studied. The following experimental results have been obtained: 1. The ATPase activity in the cotyledon cells of tomato seedlings germinated and grown at 28 ℃. was located at plasmolemma, plasmodesmata, nucleoli and nuclear chromatin chloroplast lamellae, many sites of cell wall, and the surface of cell wall bordering the intercellular spaces and their inclusions. 2. When the tomato seedlings were subjected to chilling treatment for 4 h. at 5 ℃., the ATPase activity in cotyledon cells was indifferent from that of non-chilling treated seedlings. After chilling treatment for 12 h. at 5 ℃., the reaction of ATPase activity at plasmolemma, and in cell wall and intercellular spaces was markedly reduced. though the high activity reaction of ATPase in nuclei and at chloroplast lamellae was still maintained. When the tomato seedlings were subjected to chilling stress for 24 h. at 5℃., the ATPase activity at plasmolemma and in cell wall was almost inactivated, while the ATPase activity in nuclei and at chloroplast lamellae was only slightly lowered. These results indicated that the chilling injury may influence firstly on the ATPase activity of cell surface (plasmolemma and cell wall). 3. The role of intercellular spaces used as the passage of materials and the process and mechanism of chilling injury are discussed.     

外源Ca2+对高温强光胁迫下滨梅幼苗的保护效应

以10 mmol/L CaCl2溶液处理滨梅幼苗叶片后,置于培养箱于(40±2)℃高温、光照强度(1 200±50)μmol·m-2·s-1下培养,定期测定有关生理生化指标,以探讨外源Ca2+对高温强光胁迫下滨梅幼苗的保护效应.结果显示:(1)与蒸馏水处理组相比,Ca2+处理使高温强光胁迫下滨梅幼苗叶片的脯氨酸含量显著升高,可溶性糖含量变化不明显,根系活力小幅降低;Ca2+处理有效抑制了高温强光下膜透性的加大,提高和保护了Ca2+-ATPase的活性.(2)采用Ca2+螯合剂EGTA或钙调素拮抗剂TFP对滨梅幼苗叶片同法处理并同条件胁迫时,与Ca2+处理相比,滨梅幼苗的脯氨酸、可溶性糖含量、Ca2+-ATPase活性和根系活力均明显下降,膜透性加大.研究表明,Ca2+处理能提高滨梅幼苗对高温强光的耐受性;Ca2+信号系统参与了胁迫过程中的渗透物质和Ca2+-ATPase活性等的调节.     

大鼠心肌肌浆网的纯化及其性质研究

 用超声波破碎心肌细胞,差速离心法纯化大鼠心肌肌浆网(CSR)。SDS-聚丙烯酰胺凝胶电泳测得Ca~(2+)-ATPase分子量为98kD;电镜观察膜制备为完整的CSR微囊;标志酶哇巴因敏感型Na~(+),K~(+)-ATPase和叠氮化钠敏感型Mg~(2+)-ATPase活性表明膜制备中肌膜含量很低,但仍有线粒体污染。 用~(45)Ca~(2+)示踪微孔滤膜法研究Ca~(2+)跨膜转运,CSRCa~(2+)蓄集最大值为57nmol/mg蛋白。CSR Ca~(2+)-ATPase在4℃—21℃和21℃—49℃两区间反应活化能不同,前者大于后者。酶的最适pH为7.4。以ATP为底物,该酶有两个表观Km值:Km_1为3.7μmol/LKm_2为713μmol/L。     

温度逆境交叉适应对葡萄叶片膜脂过氧化和细胞钙分布的影响

 研究了高温锻炼对低温胁迫下和低温锻炼对高温胁迫下葡萄(Vitis vinifera)叶片中丙二醛（MDA）、谷胱甘肽(GSH)和抗坏血酸(AsA)含量变化以及细胞中Ca2+分布的影响。结果表明: 高（低）温胁迫使正常生长的叶片丙二醛含量升高, GSH和AsA含量下降,低（高）温锻炼预处理能减少MDA含量,提高GSH和AsA含量,抑制了由于温度胁迫引起MDA含量升高和GSH和AsA下降趋势。常温下葡萄叶肉细胞的Ca2+主要分布于液泡、细胞间隙中;高温胁迫和低温胁迫后,细胞质中聚集大量Ca2+沉淀颗粒,液泡中和细胞间隙Ca2+沉淀颗粒减少,叶绿体超微结构被破坏,Ca2+稳态平衡遭到破坏。高温锻炼后细胞质出现大量的Ca2+沉淀颗粒,主要来源于细胞间隙,低温锻炼后细胞质也出现大量的Ca2+沉淀颗粒,主要来源于液泡,两者的叶绿体超微结构都完整;高温锻炼的叶片经过低温胁迫和低温锻炼的叶片经过高温胁迫后,细胞间隙和液泡内Ca2+沉淀颗粒增加,细胞质中Ca2+沉淀颗粒很少,叶绿体较完整,Ca2+稳态平衡得以维持。推测高低温锻炼能够通过Ca2+启动抗逆基因表达和维持细胞中Ca2+稳态平衡来交叉适应低高温的胁迫。     

Action of long-chain fatty acids in vitro on Ca2+-stimulatable, Mg2+-dependent ATPase activity in human red cell membranes.

Human red cell membrane Ca2+-stimulatable, Mg2+-dependent adenosine triphosphatase (Ca2+-ATPase) activity and its response to thyroid hormone have been studied following exposure of membranes in vitro to specific long-chain fatty acids. Basal enzyme activity (no added thyroid hormone) was significantly decreased by additions of 10(-9)-10(-4) M-stearic (18:0) and oleic (18:1 cis-9) acids. Methyl oleate and elaidic (18:1 trans-9), palmitic (16:0) and lauric (12:0) acids at 10(-6) and 10(-4) M were not inhibitory, nor were arachidonic (20:4) and linolenic (18:3) acids. Myristic acid (14:0) was inhibitory only at 10(-4) M. Thus, chain length of 18 carbon atoms and anionic charge were the principal determinants of inhibitory activity. Introduction of a cis-9 double bond (oleic acid) did not alter the inhibitory activity of the 18-carbon moiety (stearic acid), but the trans-9 elaidic acid did not cause enzyme inhibition. While the predominant effect of fatty acids on erythrocyte Ca2+-ATPase in situ is inhibition of basal activity, elaidic, linoleic (18:2) and palmitoleic (16:1) acids at 10(-6) and 10(-4) M stimulated the enzyme. Methyl elaidate was not stimulatory. These structure-activity relationships differ from those described for fatty acids and purified red cell Ca2+-ATPase reconstituted in liposomes. Thyroid hormone stimulation of Ca2+-ATPase was significantly decreased by stearic and oleic acids (10(-9)-10(-4) M), but also by elaidic, linoleic, palmitoleic and myristic acids. Arachidonic, palmitic and lauric acids were ineffective, as were the methyl esters of oleic and elaidic acids. Thus, inhibition of the iodothyronine effect on Ca2+-ATPase by fatty acids has similar, but not identical, structure-activity relationships to those for basal enzyme activity. To examine mechanisms for these fatty acid effects, we studied the action of oleic and stearic acids on responsiveness of the enzyme to purified calmodulin, the Ca2+-binding activator protein for Ca2+-ATPase. Oleic and stearic acids (10(-9)-10(-4) M) progressively inhibited, but did not abolish, enzyme stimulation by calmodulin (10(-9) M). Double-reciprocal analysis of the effect of oleic acid on calmodulin stimulation indicated noncompetitive inhibition. Addition of calmodulin to membranes in the presence of equimolar oleic acid restored basal enzyme activity. Oleic acid also reduced 125I-calmodulin binding to membranes, but had no effect on the binding of [125I]T4 by ghosts. The mechanism of the decrease by long chain fatty acids of Ca2+-ATPase activity in situ in human red cell ghosts thus is calmodulin-dependent and involves reduction in membrane binding of calmodulin.     

Mg2,Ca2+-ATPase activity of sarcolemmas of intestinal smooth muscle cells in the rabbit

Preparations of rabbit small intestine smooth muscle cell sarcolemma are capable of hydrolyzing ATP in the presence of millimolar concentrations of Mg2+ and Ca2+ and possess the activity of Mg2+,Ca2+-ATPase having a high affinity for Ca2+ (Km = 5.8 X 10(-6) M). The optimal conditions for the Mg2+,Ca2+-ATPase reaction were established. It was demonstrated that sarcolemmal preparations hydrolyze ATP, GTP, ITP and UTP almost at the same rates. The enzyme contains SH-groups that are unequally exposed to the water phase and are inhibited by 50% by p-chloromercurybenzoate and by 90% by dithionitrobenzoate. The Mg2+,Ca2+-ATPase activity is highly sensitive to oxytocin: at the concentration of 10(-7) MU/ml, the hormone completely inhibits the enzyme without affecting its Mg2+-, Ca2+- and Na+,K+-ATPase activities.     

Subcellular fractionation of pig stomach smooth muscle. A study of the distribution of the (Ca2+ + Mg2+)-ATPase activity in plasmalemma and endoplasmic reticulum

Isolated membrane vesicles from pig stomach smooth muscle (antral part) were subfractionated by a density gradient procedure modified in order to obtain an efficient extraction of extrinsic proteins. By using this method in combination with digitonin-treatment, an endoplasmic reticulum fraction contaminated with maximally 10 to 20% of plasma membranes was isolated, together with a plasma membrane fraction containing at most 30% endoplasmic reticulum. The endoplasmic reticulum and plasma membrane fractions differed in protein composition, reaction to digitonin, binding of wheat germ agglutinin, activities of marker enzymes and in the characteristics of the Ca2+ uptake. The Ca2+ uptake by the endoplasmic reticulum was much more stimulated by oxalate than the uptake by plasma membranes. Both fractions showed a (Ca2+ + Mg2+)-ATPase activity, but the largest amount of this enzyme was present in the plasma membranes. The study of the phosphorylated intermediates of the (Ca2+ + Mg2+)-ATPase by polyacrylamide gel electrophoresis revealed two phosphoproteins one of 130 kDa and one of 100 kDa (Wuytack, F., Raeymaekers, L., De Schutter, G. and Casteels, R. (1982) Biochim. Biophys. Acta 693, 45-52). The 130 kDa enzyme was predominant in the fraction enriched in plasma membrane whereas the distribution of the 100 kDa polypeptide correlated with the endoplasmic reticulum markers. The 130 kDa ATPase was the main 125I-calmodulin binding protein detected on nitrocellulose blots of proteins separated by gel electrophoresis. The (Ca2+ + Mg2+)-ATPase activity of the plasma membranes was higher than the (Na+ + K+)-ATPase activity, suggesting that the Ca2+ extrusion from these cells depends much more on the activity of the (Ca2+ + Mg2+)-ATPase than on Na+-Ca2+ exchange.