A fluorescence quenching study of tryptophanyl residues of (Ca2+ + Mg2+)-ATPase from sarcoplasmic reticulum

The tryptophan intrinsic fluorescence of the (Ca2+ + Mg2+)-ATPase from sarcoplasmic reticulum was quenched by acrylamide at different temperatures. Sharp increases in the quenching constants were found in samples of ATPase reconstituted with dimyristoyl-phosphatidylcholine and dipalmitoylphosphatidylcholine at temperatures slightly below the Tc transition temperature of the pure phospholipid. It is suggested that acrylamide may diffuse more easily through proteins surrounded by a fluid phospholipid matrix than if they are in a rigid matrix, due to different states of protein fluidity.     

二价金属离子对嵌有线粒体H~+-ATP酶的脂酶体不同层次脂质流动性的影响

本文报道用荧光偏振及顺磁共振两种方法研究Mg~(2+)及其它二价金属离子对嵌有H~+-ATP酶的脂酶体不同层次脂质流动性的影响。 (1)顺磁标记探剂5-、12-、16-氮氧基硬脂酸测定结果表明Mg~(2+)和其它二价金属离子都能降低膜脂双分子层表层的流动性。降低流动性的顺序为Mg~(2+)=Ca~(2+)>Sr~(2+)>Cd~(2+)。较深层脂则无明显变化。 (2)荧光探剂7-、12-(9-蒽酰)硬脂酸及16-(9-蒽酰)棕榈酸的测定结果也表明Mg~(2+)和其它二价金属离子降低了膜脂表层的流动性,尤以Mn~(2+)、Ca~(2+)降低流动性最显著,流动性降低的顺序为;Mn~(2+) Ca>Sr~(2+) Mg~(2+) Cd~(2+)。除Mn~(2+)、Ca~(2+)还能影响膜脂深层的流动性外,其它与对照无明显差异。     

Effect of lipid membrane structure on the adenosine 5'-triphosphate hydrolyzing activity of the calcium-stimulated adenosinetriphosphatase of sarcoplasmic reticulum

An active Ca2+-stimulated, Mg2+-dependent adenosinetriphosphatase (Ca2+-ATPase) isolated from rabbit skeletal muscle sarcoplasmic reticulum membranes has been incorporated into dilauroyl-, dimyristoyl-, dipentadecanoyl-, dipalmitoyl-, and palmitoyloleoylphosphatidylcholine bilayers by using a newly developed lipid-substitution procedure that replaces greater than 99% of the endogenous lipid. Freeze--fracture electron microscopy showed membranous vesicles of homogeneous size with symmetrically disposed fracture-face particles. Diphenylhexatriene fluorescence anisotropy was used to define the recombinant membrane phase behavior and revealed more than one transition in the membranes. Enzymatic analysis indicated that saturated phospholipid acyl chains inhibited both overall ATPase activity and Ca2+-dependent phosphoenzyme formation below the main lipid phase transition temperature (Tm) of the lipid-replaced membranes. At temperatures above Tm, ATPase activity but not phosphoenzyme formation was critically dependent on acyl chain length and thus bilayer thickness. No ATPase activity was observed in dilauroylphosphatidylcholine bilayers. Use of the nonionic detergent dodecyloctaoxyethylene glycol monoether demonstrated that the absence of activity was not due to irreversible inactivation of the enzyme. Increased bilayer thickness resulted in increased levels of activity. An additional 2-fold rise in activity was observed when one of the saturated fatty acids in dipalmitoylphosphatidylcholine was replaced by oleic acid, whose acyl chain has a fully extended length comparable to that of palmitic acid. These results indicate that the Ca2+-ATPase requires for optimal function a "fluid" membrane with a minimal bilayer thickness and containing unsaturated phospholipid acyl chains.     

Fluidity of human erythrocyte membrane and effect of chlorpromazine on fluidity and phase separation of membrane

The fluidity of human erythrocyte membrane, and the effect of chlorpromazine at prelytic and lytic concentrations on the fluidity have been studied by using three kinds of fatty acid spin labels and measuring the temperature dependence of Mg2+-ATPase activity. The Arrhenius plot of the apparent rotational correlation time, tau c, for probes I(12,3) and I(5,10) showed an abrupt discontinuity at about 30 degrees C, and the plot for I(1,14) at 25 degrees C, indicating that a large difference in the fluidity exists between the interior and the outer surface of the lipid bilayer. The portions of the fatty acid chain near the ten carbon bond lengths removed from the bilayer surface became more fluid by chlorpromazine treatment; there was a decrease in the break point to around 26 degrees C following treatment with 0.6 or 1 mM of the drug. Two breaks at 21 and 30 degrees C in the Arrhenius plot of the Mg2+-ATPase activity were observed in normal erythrocyte membrane. The activation energy of the Mg2+-ATPase reaction has the values of 3.0 and 22.1 kcal/mol above the upper break and below the lower break, respectively. The drug exposure induced only a slight shift in the break temperatures, while the treatment significantly enhanced the associated activation energies of the reaction. These results suggest that the boundary phospholipids of the Mg2+-ATPase in the membrane are probably more rigid than the bulk lipids.     

Effects of Fatty Acids on Lipid Composition and Function of Tonoplast Vesicles in Barley Seedlings Under Salt Stress

When barley ( Hordeum vulgare L. ) seedlings were treated with 100 mmol/L NaC1 for 2 d, the index of unsaturated fatty acid (IUFA) increased in the tonoplast vesicles that were isolated from the seedlings mots of two barley cultivars with different salt tolerance, whereas no change were observed when the seedlings were treated with exogenous fatty acids with different satumbility. Exogenous stearic acid and linoleic acid decreased Na + absorption and transportation to the shoots, increased K + absorption and transportation, decreased the leakage of electrolytes, and increased the phospholipid and galactose contents of lipids in tonoplast, enhanced the activities of tonoplast H+ -ATPase and H+ -PPase. This is consistent with the results that the two fatty acids, linoleic acid and stearic acid, regulate ion absorption and distribution, mitigate salt stress to some extent, the effects of linoleic acid being more the latter.     

高寒山区牧草根质膜和脂肪酸组分对冷冻低温的适应反应

在秋末冬初测定了高寒山区自然生境中生长的垂穗披碱草(Elymus nutans)、早熟禾(Poa sphyondylodes) 和花雀麦(Bromus sinensis)3种牧草根膜脂脂肪酸组分和质膜流动性及ATPase活力。结果表明：随着秋末冬初气温下降到0℃以下,3种牧草根中膜脂肪酸配比发生较大变化,棕榈酸相对百分含量下降40.29％,亚油酸增加3倍多,亚麻酸增加112.39％,脂肪酸不饱和指数(IUFA)增大;同时根质膜流动性在低温期间较大,在融冻阶段有下降,冰冻阶段增大;质膜Mn2+ATPase、Ca2+ ATPase活力增大,Mg2+ ATPase活力下降。在冷冻适应中牧草根膜脂脂肪酸不饱和度的增加直接影响着膜的流动性,影响膜功能和植物抗冻性,并在维持根细胞膜完整性和抵抗组织结冰伤害方面起重要作用。     

Plasma membrane changes associated with rat liver regeneration

The lipid composition and fluidity of plasma membranes have been studied at different stages of liver regeneration (4, 15 and 24 h after surgery). The phospholipid and fatty acid composition is not modified, whereas the cholesterol/phospholipid ratio is lower with respect to control membranes. The modification of the physical properties of the membranes has been studied directly by EPR analysis and indirectly by temperature dependence and cooperativity of some membrane-bound enzymes (Mg2+-ATPase, (Na+ + K+)-ATPase and 5'nucleotidase). Surgical operation or anaesthesia alone causes an early increase in fluidity; such an effect appears to be markedly reduced at a later stage. There seems to be a marked effect of regeneration on plasma membrane fluidity 15 h after partial hepatectomy when several parameters--surface fluidity, cholesterol/phospholipid ratio, and 5'-nucleotidase activity in the presence of concanavalin A -- are modified and indicate an increase in membrane fluidity. It is suggested that this modification of membrane properties could be related to the proliferative process.     

Effect of the lipid environment on protein motion and enzymatic activity of sarcoplasmic reticulum calcium ATPase.

In order to investigate the roles of the physical states of phospholipid and protein in the enzymatic behavior of the Ca2+ -ATPase from sarcoplasmic reticulum, we have modified the lipid phase of the enzyme, observed the effects on the enzymatic activity at low temperatures, and correlated these effects with spectroscopic measurements of the rotational motions of both the lipid and protein components. Replacement of the native lipids with dipalmitoyl phosphatidylcholine inhibits ATPase activity and decreases both lipid fluidity, as monitored by EPR spectroscopy on a stearic acid spin label, and protein rotational mobility, as monitored by saturation transfer EPR spectroscopy on the covalently spin-labeled enzyme. Solubilization of the lipid-replaced enzyme with Triton X-100 reverses all three of these effects. Ten millimolar CaCl2 added either to the enzyme associated with the endogenous lipids or to the Triton X-100 soulbilized enzyme inhibits both ATPase activity and protein rotational mobility but has no detectable effect on the lipid mobility. These results are consistent with the proposal that both lipid fluidity and protein rotational mobility are essential for enzymatic activity.     

Polyunsaturated fatty acids inhibit Mg2+ -ATPase in basolateral membranes from rat enterocytes.

It is known that certain polyunsaturated fatty acids of the n-6 family, for example linoleic and arachidonic acids, can activate both Na+, K+-ATPase and Ca2+-ATPase. These enzymes drive active absorption processes in the duodenal enterocyte. This study presents data which show a 30-50% inhibition of Mg2+-ATPase activity in enterocyte basolateral membrane preparations by linoleic and gamma-linolenic acids (also a member of the n-6 family.) Mg2+-ATPase activity has several possible roles in the enterocyte: involvement in Mg2+ and Ca2+ absorption (as part of Ca2+-ATPase and also myosin I activity) as well as control of phospholipid distribution in the membrane by a class of Mg2+-ATPases called 'flippases'. The action of linoleic and gamma-linolenic acids on basolateral membrane Mg2+-ATPase may thus modulate several cellular transport processes.     

Thyroid hormones control lipid composition and membrane fluidity of skeletal muscle sarcolemma.

Sarcolemma membrane lipid phase of skeletal muscles of hyperthyroid animals was compared to that of control (euthyroid) ones. Hyperthyroidism caused 15% decrease in cholesterol and 70% increase in the phospholipid content of the membrane. This was accompanied by the alterations in proportions between individual phospholipid classes, and was followed by changes in the composition of phospholipid fatty acids. The calculated fatty acid unsaturation index was higher for membrane lipid phase of hyperthyroid animals than of euthyroid ones. Thyroxine-induced alterations in the lipid composition of sarcolemma caused changes in the membrane fluidity and the activity of calmodulin-stimulated (Ca(2+)-Mg(2+)-ATPase. Measurements of the steady-state fluorescence polarization of 1,6-diphenyl-1,3,5-hexatriene indicated that the lipid phase transition of membrane vesicles occurred at 25.9 degrees C and at 28.9 degrees C for preparations isolated from hyperthyroid and euthyroid rabbits, respectively. Arrhenius plot break-point temperature for CaM-stimulated (Ca(2+)-Mg(2+)-ATPase activity was lower in membrane preparations isolated from hyperthyroid (26.9 degrees C) than from euthyroid ones (30.0 degrees C). Thus, the increase of the membrane fluidity presumably caused that the enzyme was characterized by the lower activation energy value. This phenomenon may be viewed as a supplementary mechanism for activation of the enzyme by thyroid hormones to previously reported elevation of the amount of (Ca(2+)-Mg(2+)-ATPase protein exerted by hyperthyroidism (Famulski et al. (1988) Eur. J. Biochem., 171, 363-368; Famulski and Wrzosek (1988) in The Ion Pumps-Structure, Function and Regulation (Stein, W.D., ed.), pp. 355-360, Alan R. Liss, New York).     

Kinetic changes of the erythrocyte (Mg2+ + Ca2+)-adenosine triphosphatase of rats fed different fat-supplemented diets.

The activation by Mg2+, in the presence of 0.2 mM Ca2+, of the erythrocyte ATPase from rats fed with six different fat-supplemented diets has been studied. A sigmoid kinetic curve was found. The values of the Hill coefficient showed a positive correlation with the membrane fatty acid fluidity, which is expressed as the ratio between double bond index and saturated fatty acid content. The values of the Hill coefficient ranged from 1.0, in animals fed with lard-supplemented diet, to 2.0, in animals fed with corn oil-supplemented diet. When the effect of increasing Ca2+ concentration in these two groups was studied at pH 8.1, an activation with the latter group and an inhibition with the former one were found. The activation by Ca2+ found in corn oil-fed animals was lost after treatment with phospholipase C and restored after the addition of homologous phospholipids. The activation could not be restored by addition of phospholipids from lard-fed animals. In this group, treatment with phospholipase C left the kinetic behavior unmodified, but an activation by Ca2+ could be detected after adding phospholipids from corn oil-fed animals. It is suggested that membrane fatty acid fluidity is involved in the cooperative transitions and cryptic activity of the (Mg2+ + Ca2+)-ATPase.     

Physiological role and membrane lipid modulation of the membrane-bound (Mg2+, na+)-adenosine triphosphatase activity in Acholeplasma laidlawii.

The membrane-bound adenosine triphosphatase (ATPase) activity of Acholeplasma laidlawii B differs in many respects from the common (Mg2+, Ca2+)-ATPase activity of higher bacteria, most notably in that it is specifically activated by Mg2+ and strongly and specifically stimulated by Na+ (or Li+). Various inhibitors diminish the ATPase activity with a concentration dependence which suggests that a single enzyme species is responsible for all of the observed ATP hydrolytic activity (both basal and Na+ stimulated). The Km for ATP is influenced by temperature but not by membrane lipid fatty acid composition. Vmax is influenced by both of these factors, showing a break in Arrhenius plots which falls below the lipid phase transition midpoint but well above the lower boundary when a phase transition occurs within the temperature range studied. The apparent energy of activation for Vmax is strongly influenced by lipid fatty acid composition both above and below the break. When whole cells of A. laidlawii B are incubated in KCl or NaCl buffers, they rapidly swell and lyse if deprived of an energy source or treated with ATPase inhibitors at concentrations which significantly inhibit enzyme activity in isolated membranes, whereas in sucrose or MgSO4 buffers of equal osmolarity, the cells are stable under these conditions. These results suggest that the membrane ATPase of A. laidlawii B is intimately associated with the membrane lipids and that it functions as a monovalent cation pump which regulates intracellular osmolarity as the (Na+, K+)-ATPase does in eucaryotes.     

盐胁迫对大麦叶片类囊体膜组成和功能的影响

盐胁迫下大麦叶片类囊体膜蛋白和叶绿素含量以及对绿素a／叶绿素b、磷脂／膜蛋白和膜脂结合半乳糖／膜蛋白的比值下降,膜脂中亚麻酸（18：3）摩尔百分数上升,不饱和指数上升,类囊体膜H －ATPase活性先升后降,希尔反应一直呈较高活性。类囊体膜组分和功能的变化可能与植物盐适应有关。     

Influence of dietary lipids on microsomal membranes from chick breast muscle

1. The effect of different dietary fat intake on the lipid composition and fluidity of microsomal membranes as well as in the enzymatic activity of the Ca2+-ATPase from chick breast muscle was investigated. 2. When a standard diet was supplemented with 10% sunflower seed oil, an increase in the relative amounts of unsaturated fatty acids and membrane fluidity and a decrease in the cholesterol content was observed. 3. The presence of 6% cholesterol in the diet does not modify the fatty acid composition and the fluidity of the membrane but increased, in a low extension, the cholesterol content. 4. The provision of the sunflower seed oil-rich diet supplemented with cholesterol just 48 hr before death promoted an increase in the relative amounts of unsaturated fatty acids and cholesterol content whereas the membrane fluidity decreased in a significant extent. 5. Despite that dietary lipids gave rise in some cases to changes in lipid composition and in the physical state of the microsomal membrane, neither the Ca2+ uptake capacity nor the ATPase activity were significantly affected.     

Ca~(2+)通过膜脂影响肌质网Ca~(2+)-ATP酶的活性与Ca~(2+)转运功能

重建在大豆磷脂脂质体上的兔骨骼肌肌质网Ca~(2+)—ATP酶在ATP驱动下可将溶液中的Ca~(2+)转运到脂酶体内部;外加EGTA则可除去脂酶体外部的Ca~(2+),由此可得到四种含Ca~(2+)状态不同的脂酶体:(1)内、外都无Ca~(2+);(2)仅外部有Ca~(2+);(3)内、外都有Ca~(2+);(4),仅内部有Ca~(2+).用DPH和AS系列萤光探针对这四种含Ca~+状态不同的脂酶体的膜脂流动性进行了测定,结果表明:脂酶体外部加入Ca~(2+),脂双层外表面的流动性降低.当Ca~(2+)进入脂酶体内部后,内表面膜脂的流动性也降低,而且外层膜脂流动性进一步降低.脂酶体内、外的Ca~(2+)含量不同时,Ca~(2+)—ATP酶功能状态也不同.转运到脂酶体内部的ca~(2+)积累到一定浓度后,通过Ca~(2+)泵向内转运的Ca~(2+)及Ca~(2+)—ATP酶活力都受到了抑制.转运进行到第四分钟时的酶活只有第一分钟的9%.但在相同的实验条件下,失去了完整的膜结构的纯化的Ca~(2+)—ATP酶蛋白没有被抑制.这提示完整的膜结构是这种抑制作用所必需的,而且膜两侧Ca~(2+)浓度的梯差可通过影响膜脂来调节Ca~(2+)—ATP酶的功能.     

大鼠心肌缺血／再灌及高脂血症的心肌膜损伤

通过大鼠心肌缺血／再灌及高脂血症的模型证实,两者均有明显的生物膜损伤,主要表现为膜磷脂的降低、胆固醇及胆固醇／磷脂比增高、膜脂流动性及膜酶(Ca²⁺, Mg²⁺-ATPase)活性降低,这些异常变化与氧自由基引发的脂质过氧化增强或脂质交换有关.     

Physical studies on membrane lipids of Bacillus stearothermophilus temperature and calcium effects

Bacillus stearothermophilus was grown at the optimal temperature range (center, 65 degrees C), below it (48 and 55 degrees C), and above it (68 degrees C), in a complex medium with or without 2.5 mM Ca2+. The Ca(2+)-supplement improves growth at sub- and supraoptimal temperatures and extends it to higher temperatures (Jurado et al. (1987) J. Gen. Microbiol. 133, 507-513). The phospholipid composition of cultures obtained in the different growth conditions was studied. Phosphatidylethanolamine was always the major phospholipid (40 to 50% of the total phospholipid). Diphosphatidylglycerol, phosphatidylglycerol, a phosphoglycolipid (pgl) and two minor phospholipids (not identified) were also found in the polar lipid extract. The pgl shows a threefold concentration increase as the growth temperature raises from 48 to 68 degrees C. The thermotropic behavior of membrane lipids was studied by differential scanning calorimetry (DSC) and by means of two fluorescent probes of fluidity, 1,6-diphenyl-1,3,5-hexatriene (DPH) and 1,3-di(2-pyrenyl)propane (2Py(3)2Py). The results reveal similar features and clearly show a shift of the temperature range of the phase transition to higher values and an increased structural order of the bilayer, as the growth temperature rises from 55 to 68 degrees C, but an opposite effect was observed from 48 to 55 degrees C. Although the Ca(2+)-supplement to the growth medium has no detectable effect, the addition of Ca2+ to the buffer of liposomes (Ca(2+)-liposomes) has a significant ordering effect at all growth temperatures. These liposomes show a shift of the transition range to higher temperatures and the fluorescent parameters (DPH polarization and intramolecular excimerization of the 2Py(3)2Py) detected an order increase of the probes environment, along and above the main phase transition. Spectra of 31P-NMR and polarized light microscopy clearly show that the lipid extracts exhibit, in all the conditions, typical lamellar phase geometry. We concluded that B. stearothermophilus controls the membrane lipid composition to compensate for the destabilizing effect of high temperatures on the membrane organization or to provide an appropriate packing of phospholipid molecules in a stable bilayer. At high temperatures, Ca(2+)-stimulatory effect on growth is presumably due to a direct Ca2+ interaction with the membrane phospholipids, inducing an increased structural order on the bilayer. The increase of the phase transition temperature in the total lipid extracts as compared with the respective polar lipid fractions probably indicates a stabilizing effect of neutral lipids on membrane bilayers.     

Correlation between lipid fluidity and tryptic susceptibility of Ca2+-ATPase in sarcoplasmic reticulum membranes

Lipid fluidity in native and denatured sarcoplasmic reticulum membranes and extracted lipids was monitored between -30 and 30 degrees C using trans-parinaric acid as a fluorescent probe. In addition to a large increase in fluidity between -30 and 0 degree C in each system, a phase change centered near 10 degrees C was observed in the extracted lipids but not in either the native or denatured membranes. A significant change in fluorescence intensity near 15 degrees C was observed in native sarcoplasmic reticulum membranes, however, when trans-parinaric acid was excited by energy transfer from tryptophan residues of the membrane protein. When Ca2+-ATPase was subjected to proteolytic cleavage by trypsin as a function of temperature, a change in susceptibility was detected at about 15-20 degrees C in the native membranes but not in a solubilized preparation. It is proposed that one or more structural changes in the microenvironment of Ca2+-ATPase in the native membrane occur between 15 and 20 degrees C which may be related to the change in apparent activation energy which is observed for this enzyme.     

Reconstitution and photolabeling of the purified (Na+ + Mg2+)-ATPase from the plasma membrane of Acholeplasma laidlawii B with phospholipids containing a photosensitive fatty acyl group

The purified membrane (Na+ + Mg2+)-ATPase of Acholeplasma laidlawii B was reconstituted into vesicles composed of phospholipids containing a photoactivatable aryl nitrene-generating fatty acyl group. The reconstitution with phospholipid resulted in an enhancement of ATPase activity and a reduction in the sensitivity of the enzyme to radiation inactivation. The incorporation of the enzyme into the lipid vesicles results in a broadening of the gel-to-liquid-crystalline phase transition of the photolabeled phospholipid and the appearance of two partially resolved endotherms in the calorimetric traces. The temperatures and the total enthalpy of these overlapping transitions are higher than in the absence of incorporated enzyme. After photolysis of the lipid-reconstituted ATPase and separation of the polypeptide subunits by sodium dodecyl sulfate (SDS) gel electrophoresis, a significant labeling of the alpha-subunit of the enzyme was demonstrated. These results indicate that at least the alpha-subunit of this ATPase must penetrate into or traverse the phospholipid bilayer.     

Characterization of (Ca2+ + Mg2+)-ATPase of sarcoplasmic reticulum by laser-excited europium luminescence

The molecular environment of Ca2+ translocating sites of skeletal muscle sarcoplasmic reticulum (SR) (Ca2+ + Mg2+)-ATPase has been studied by pulsed-laser excited luminescence of Eu3+ used as a Ca2+ analogue. Interaction of Eu3+ with SR was characterized by investigating its effect on partial reactions of the Ca2+ transport cycle. In native SR vesicles, Eu3+ was found to inhibit Ca2+ binding, phosphoenzyme formation, ATP hydrolysis activity and Ca2+ uptake in parallel fashion. The non-specific binding of Eu3+ to acidic phospholipids associated with the enzyme was prevented by purifying (Ca2+ + Mg2+)-ATPase and exchanging the endogenous lipids with a neutral phospholipid, dioleoylglycerophosphocholine. The results demonstrate that the observed inhibition of Ca2+ transport by Eu3+ is due to its binding to Ca2+ translocating sites. The 7F0----5D0 transition of Eu3+ bound to these sites was monitored. The non-Lorentzian nature of the excitation profile and a double-exponential fluorescence decay revealed the heterogeneity of the two sites. Measurement of fluorescence decay rates in H2O/D2O mixture buffers further distinguished the sites. The number of water molecules in the first co-ordination sphere of Eu3+ bound at transport sites were found to be 4 and 1.5. Addition of ATP reduced these numbers to zero and 0.6. These data show that the calcium ions in translocating sites are well enclosed by protein ligands and are further occluded down to zero or one water molecule of solvation during the transport process.