大麦根质膜微囊的制备及其H~ ,Ca~(2 )转运活性

用蔗糖密度梯度离心法制备出密闭程度较高的大麦根细胞质膜微囊。喹吖咽荧光猝灭和~(45)Ca~(2 )同位素示踪测定表明所制备的微囊具H~ ,Ca~(2 )转运活性。对制备出的质膜制剂纯度和膜朝向进行了分析,并探讨了质膜纯化中影响膜微囊密闭性的因素。匀浆液和悬浮液巾的单价离子盐有利于密闭膜微囊的形成。蔗糖密度梯度和葡聚糖密度睇度离心法均可得到密闭性较高的膜微囊,但后者的纯化效果较差。     

The isolation and characterization of a plasma membrane and a myelin fraction derived from oligodendroglia of calf brain.

—A method is described for the fractionation of bulk isolated oligodendroglial cells from calf brain to produce both a plasma membrane and an attached myelin fraction. The cells are homogenized in a sucrose solution containing Mg²⁺ and K+ at a pH of 6·5. Crude membrane fractions are obtained from this homogenate by discontinuous sucrose density gradient centrifugation. After being subjected to osmotic shock, these fractions are purified by continuous sucrose density gradient centrifugation. The plasma membrane fraction, which bands at 1·0 m -sucrose, was identified by its morphology and enzyme content. Electron microscopy showed it to be a homogeneous preparation of vesicles composed, for the most part, of smooth trilaminar membranes. Enzymatic analysis revealed the presence of high specific activities of Na+, K+-ATPase, 5′-nucleotidase and 2′,3′-cyclic AMPase. Lipid analysis showed a higher galactolipid and lower phospholipid content than has been reported for neuronal and synaptic membranes. The attached myelin fraction, which bands at 0·7 m -sucrose has the typical multilamellar appearance of myelin, but differs considerably from normal myelin in having high concentrations of plasma membrane marker enzymes, and a lipid composition intermediate between normal myelin and the plasma membrane fraction. The ganglioside content and protein patterns of these fractions have also been examined.     

Purification of plasma membranes from roots of barley: specificity of the phosphotungstic Acid-chromic Acid stain

Plasma membrane vesicles from roots of barley (Hordeum vulgare L., var. Arivat) had an equilibrium density in sucrose of about 1.16 grams per cubic centimeter, but could not be purified satisfactorily with the procedure developed for roots of other plant species. The reported procedure involving differential centrifugation to remove mitochondria (peak density of 1.18 grams per cubic centimeter) and subsequent density gradient centrifugation to purify plasma membrane vesicles was modified to include a narrower differential centrifugation fraction (13,000 to 40,000g instead of 13,000 to 80,000g) and a narrower density range in the sucrose gradient (1.15 to 1.18 grams per cubic centimeter instead of 1.15 to 1.20 grams per cubic centimeter). The fraction obtained by the modified procedure was between 60 and 70% pure as determined by staining with the phosphotungstic acid-chromic acid procedure, which was judged to be reliable for identifying plasma membrane vesicles in subcellular fractions from barley roots. The plasma membrane fraction was enriched in K⁺-stimulated ATPase activity at pH 6.5. The presence of nonspecific ATP-hydrolyzing activity in the plasma membrane fraction made it difficult to determine if the ATPase had properties in common with those reported for cation absorption in barley roots.     

Isolation and partial characterization of outer and inner membranes from encapsulated Haemophilus influenzae type b.

A method has been developed to separate the cell envelope of encapsulated (type b) Haemophilus influenzae into its outer and inner membrane components with procedures that avoided two problems encountered in fractionation of this envelope: (i) the tendency of the outer and inner membranes to hybridize and (ii) the tendency of the apparently fragile inner membrane to fragment into difficulty sedimentable units. Log phage cells, whose lipids were radioactively labeled, were lysed by passage through a French press. The lysate was applied to a discontinuous sucrose gradient, and envelope-rich material was collected by centrifugation onto a cushion of dense sucrose under carefully controlled conditions. This material was then further fractionated by isopycnic centrifugation in a sucrose gradient to yield four membrane fractions which were partially characterized. On the basis of their radioactivity, buoyant density, ultrastructure, polypeptide composition, and content of phospholipid, protein, lipopolysaccharide, and succinic dehydrogenase, these fractions were identified as follows: fraction 1, outer membrane vesicles with very little inner membrane contamination (less than 4%); fraction 2, outer membrane vesicles containing entrapped inner membrane; fraction 3, a protein-rich fraction of inner membrane; fraction 4, a protein-poor fraction of inner membrane. Fractions 3 and 4 contained about 25% outer membrane contamination.     

An electron microscopic study of the interaction in vitro of vimentin intermediate filaments with vesicles prepared from Ehrlich ascites tumor cell lipids

The interaction of intermediate filaments prepared from pure, delipidated vimentin with vesicles obtained from Ehrlich ascites tumor (EAT) cell lipids was studied employing sucrose density gradient centrifugation in combination with electron microscopy. In negative stain electron microscopy, preformed vimentin filaments were seen in lateral association with lipid vesicles; end-on contacts of filaments with liposomes were rarely detected. When the reaction of filaments with vesicles was carried out at 0 degree C, sucrose density gradient equilibrium centrifugation of the reaction products led to the banding of relatively light filament-vesicle meshworks in clear separation from free filaments and free vesicles. With certain vimentin and lipid preparations, occasionally partial breakdown of the filaments during centrifugation and banding of vesicle-free fragments in denser regions of the sucrose gradients was observed. However, when the reaction mixtures were incubated at 37 degrees C prior to sucrose gradient analysis, all filaments were released from vesicles and totally fragmented during centrifugation. Electron microscopy showed unraveling of the filament fragments into subfilament strands. Employing lipid vesicles labeled with [3H]cholesterol, a low but significant amount of radioactivity was found to be associated with the fragments in a non-vesicular form. Filament reconstitution experiments performed in the presence of EAT cell lipids revealed an inhibitory effect of vesicles on filament assembly, particularly at lower temperatures. The mechanical labilization of the filament structure by lipid vesicles might play a role in the redistribution of intermediate filaments in the course of certain cellular processes involving turnover and fragmentation of intracellular membrane systems.     

Demonstration of a β-type adaptin at the plant plasma membrane

Highly purified plasma membrane was prepared from etiolated zucchini hypocotyls, developing pea cotyledons and suspension-cultured soybean cells by phase partitioning and sucrose density gradient centrifugation. The brain β-adaptin monoclonal antibody B1/M6, which recognizes a similar adaptin in zucchini clathrin coated vesicles, cross-reacted with an electrophoretically identical polypeptide in the plant plasma membrane fractions. Immunogold labelling of thin sections of soybean cells confirmed the presence of the β-adaptin at the plasma membrane. The presence of this adaptin at the Golgi apparatus could not be demonstrated unequivocally.     

Proteins Specified by Herpes Simplex Virus IX. Contiguity of Host and Viral Proteins in the Plasma Membrane of Infected Cells

Artificial mixtures of plasma membrane vesicles produced by microcavitation from infected and uninfected cells band at the same density on isopycnic centrifugation in sucrose density gradient. However, after reaction with antiviral antibody, the density of the infected cell plasma membrane vesicles increases, and the infected and uninfected cell membranes are quantitatively separable on isopycnic centrifugation. Plasma membrane vesicles prepared from cells doubly labeled before and after infection with radioactive amino acids and reacted with antibody banded at a high density. Polyacrylamide gel electropherograms show that the vesicles reacted with antibody consist of both host- and virus-specific membrane proteins. Microcavitation does not disrupt viral envelopes since infectivity is not affected by this procedure. We conclude that viral and cellular proteins in the plasma membrane preparations are contiguous.     

beta-Glucosidase Activity in Corn Roots: Problems in Subcellular Fractionation

Preliminary results from differential centrifugation experiments, washing treatments, and enrichment in linear sucrose gradients at a density of 1.09 grams per cubic centimeter all indicated that β-glucosidase activity in corn root homogenates was associated with a membrane such as tonoplast. A subsequent sucrose density gradient centrifugation time course showed that the β-glucosidase was actually a soluble enzyme which moved into the gradients. The problem of soluble enzymes contaminating light density membranes in sucrose gradients and the question of centrifugation time necessary for membrane vesicles to reach isopycnic conditions are addressed.     

Purification and partial characterization of plasma membranes from bovine spermatozoa

Bovine epididymal spermatozoa were subjected to nitrogen cavitation (600 psi for 10 min) to remove plasma membrane. Examination of the cavitated cells by electron microscopy revealed that the plasma membrane was preferentially removed from the periacrosomal and flagellar regions. Nuclear, mitochondrial and acrosomal membranes remained intact and attached to the spermatozoa, but the cytoplasmic droplets were frequently disrupted and their internal membrane-bound vesicles were released. Lower pressures (less than 200 psi) were relatively ineffective in removing the periacrosomal plasma membrane, while an intermediate pressure (400 psi) removed this membrane from about 70% of the spermatozoa. No apparent selectivity for removal of the periacrosomal and flagellar plasma membrane was observed as a function of cavitation pressure. The cavitated cells were separated from the plasma membranes by differential followed by linear sucrose density gradient centrifugation. Two distinct membrane populations were resolved on sucrose gradients and were designated Band I and Band II. Band I contained only spherical vesicles which arose from the plasma membrane. Surface labeling of intact cells confirmed the plasma membrane as the origin of Band I. The membranes of higher density comprising Band II were heterogeneous consisting of both spherical and flattened vesicles. When purified cytoplasmic droplets were cavitated and centrifuged on the sucrose gradient only Band II was obtained. These studies indicate that nitrogen cavitation of bovine epididymal spermatozoa can result in significant contamination of plasma membrane fractions by cytoplasmic droplet membranes unless appropriate differential centrifugation is used to separate the membrane fractions.     

Isolation and characterization of outer and inner membranes from Pseudomonas aeruginosa and effect of EDTA on the membranes.

The outer and inner cytoplasmic membranes of Pseudomonas aeruginosa were separated as small and large membranes, respectively, from the cell envelope of this organism treated with lysozyme in Tris-chloride buffer containing sucrose and MgCl2 by differential centrifugation. The small membrane fraction contained predominantly 2-keto-3-deoxyoctonate (KDO), and little cytochromes or oxidase activities. The small membrane was composed of only 9 polypeptides and showed homogeneous small vesicles electron-microscopically. On the other hand, the large membrane fraction had high cytochrome contents and oxidase activities, and little KDO. The large membrane was composed of a number of polypeptides and showed large fragments or vesicles electron-microscopically. These results indicate that the small and large membranes are the outer and inner cytoplasmic membranes of P. aeruginosa, respectively. The isolated outer membrane showed a symmetrical protein peak with a density of 1.23 on sucrose density gradient centrifugation and the isolated inner membrane showed an unusually high density, probably due to association with ribosomes and extrinsic or loosely bound proteins. EDTA lowered the density of both membranes and caused lethal damage to the outer membrane, causing disintegration with the release of lipopolysaccharide (LPS), proteins and phospholipid.     

Purification of membranes and identification of phase-specific proteins of the dimorphic pathogenic fungus Histoplasma capsulatum

Plasma membrane vesicles from the yeast and mycelial phases of Histoplasma capsulatum have been purified and characterized. The method of purification involved differential centrifugation of ballistically fractured cells followed by sedimentation through discontinuous sucrose density gradient and equilibrium centrifugation. Purity of the preparation was assessed by electron microscopy. The protein composition of the membrane preparations from the yeast and mycelial phases of the fungus was analyzed by polyacrylamide gels. A comparison of the two morphologic phases revealed quantitative and qualitative differences in the expressions of several membrane-specific proteins. Physical differences in the appearance of the membranes were also observed by electron micrography of membrane preparations. Alteration in membrane fluidity may be one of the many causes for differences in the appearance of membrane vesicles in the two phases.     

Functional incorporation of beef-heart cytochrome c oxidase into membranes of Streptococcus cremoris

Beef heart mitochondrial cytochrome c oxidase has been incorporated into membrane vesicles derived from the homofermentative lactic acid bacterium Streptococcus cremoris. Proteoliposomes containing cytochrome c oxidase were fused with the bacterial membrane vesicles by means of a freeze/thaw sonication technique. Evidence that membrane fusion has taken place is presented by the demonstration that nonexchangeable fluorescent phospholipid probes, originally present only in the bacterial membrane or only in the liposomal membrane, are diluted in the membrane after fusion and, by sucrose gradient centrifugation, indicating a buoyant density of the membranes after fusion in between those of the starting membrane preparations. The fused membranes are endowed with a relatively low ion permeability which makes it possible to generate a high proton motive force (100 mV, inside negative and alkaline) by cytochrome-c-oxidase-mediated oxidation of the electron donor system ascorbate/N,N,N',N'-tetramethyl-p-phenylenediamine/cytochrome c. In the fused membranes this proton motive force can drive the uptake of several amino acids via secondary transport systems. The incorporation procedure described for primary proton pumps in biological membranes opens attractive possibilities for studies of proton-motive-force-dependent processes in isolated membrane vesicles from bacterial or eukaryotic origin which lack a suitable proton-motive-force-generating system.     

Purification of a hexokinase-binding protein from the outer mitochondrial membrane.

Brain hexokinase (ATP:D-hexose-6-phosphotransferase, EC 2.7.1.1) binds selectively to the outer membrane of rat liver mitochondria but not to inner mitochondrial or microsomal membranes nor to the plasma membrane of human erythrocytes. A protein having subunit molecular weight of 31,000, determined by sodium dodecyl sulfate-gel electrophoresis, has been highly purified from the outer mitochondrial membrane by repetitive solubilization with octyl-beta-D-glucopyranoside followed by reconstitution into membranous vesicles when the detergent is removed by dialysis. When incorporated into lipid vesicles, the protein confers the ability to bind brain hexokinase in a Glc-6-P-sensitive manner as is seen with the intact outer mitochondrial membrane. Hexokinase binding ability and the 31,000 subunit molecular weight protein co-sediment during sucrose density gradient centrifugation. Both hexokinase binding ability and the 31,000 subunit molecular weight protein are resistant to protease treatment of the intact outer mitochondrial membrane while other membrane proteins are extensively degraded. It is concluded that this protein, designated the hexokinase-binding protein (HBP), is an integral membrane protein responsible for the selective binding of hexokinase by the outer mitochondrial membrane.     

胡杨液泡膜微囊的纯化及其质子转运活性

 为进一步研究液泡膜及 H+ - ATP酶在胡杨抵御盐胁迫中所起的作用 ,比较了研磨、捣碎和超声破碎三种细胞破碎方法 ,从悬浮培养的胡杨细胞中制备液泡膜微囊的效果 ;并用差速离心和不连续蔗糖密度梯度离心纯化了胡杨液泡膜微囊 .通过测定 H+ - ATP酶对 NO-3 、VO3-4和 Na N3的敏感性 ,以及焦磷酸酶质子转运活性表明 ,液泡膜微囊主要分布在 0 %～ 2 5%的蔗糖界面上 .捣碎法破碎细胞结合差速离心和蔗糖密度梯度离心可获得正向微囊比例高、封闭性好和酶活性高的液泡膜微囊     

A convenient large-scale method for the isolation of membrane vesicles permeable to a specific inorganic ion: Isolation and characterization of functional acetylcholine receptor-containing vesicles from the electric organ of Electrophorus electricus

A convenient, large-scale method for the isolation of membrane vesicles permeable to specific inorganic ions has been developed. The general principle of this method involves the exchange of Na⁺ within the vesicles for external Cs⁺. Vesicles in which this exchange rapidly occurs can be separated on the basis of their density from vesicles in which the exchange occurs slowly (G. P. Hess and J. P. Andrews (1977) Proc. Nat. Acad. Sci. USA74, 482–486). This approach has been adapted to develop a method suitable for the large-scale isolation of vesicles that contain functional acetylcholine receptors from the Electrophorus electricus electroplax. The new procedure involves a discontinuous sucrose gradient for an initial purification of the vescles. This allows the use of a low-speed centrifuge, which has a capacity up to 30 times greater than the Beckman ultracentrifuge previously used. A self-forming CsCl-Percoll gradient and low-speed centrifugation are then used for the isolation of the functional acetylcholine receptor-containing vesicles. The isolation step leads close to the theoretically possible fourfold purification of the vesicles that contain functional receptors. The yield, up to 12 mg membrane protein/centrifugal run, is about 100-fold higher than the yield from the sucrose-CsCl density gradient previously (Hess and Andrews, see above) used. The gradients are self-forming and an equilibrium is reached after centrifugation for only 30 min. In 12 experiments with membrane preparations from 12 different ceis, the functional vesicles had an internal volume of 2.0 ± 0.3 μl/mg vesicle protein and a receptor concentration of 1.2 ± 0.02 μm (1.2 μmol/liter of internal volume). Electron micrographs of these vesicles show an average vesicle radius of 1600 ± 300 Å. From these results, an average of 12 receptor molecules/membrane vesicle is calculated.     

Lateral enzyme topology in the rough endoplasmic reticulum of rat liver

Summary Rough microsomes were subfractionated on the basis of different properties in order to investigate the nature and extent of the enzyme heterogeneity of these vesicles. A discontinuous gradient, containing monovalent cations allowed the separation of a ribosome-poor membrane fraction which was enriched in electron transport enzymes and relatively poor in phosphatases. Zonal centrifugation on a stabilizing gradient separated 3 fractions characterized by enrichment of electron transport enzymes, glucose-6-phosphatase and adenosinetriphosphatase, respectively. An essentially similar pattern was seen when ribosomes were removed with EDTA and the denuded vesicles subfractionated on a sucrose gradient. Rough microsomes from phenobarbitaltreated rats exhibited the same pattern both qualitatively and quantitatively. It appears that electron transport enzymes and two types of phosphatases are heterogeneously distributed among rough microsomal vesicles.This work has been supported by grants from the Swedish Medical Research Council. The authors wish to thank Mrs. Ulla-Britta Torndal for her valuable technical assistance     

胡杨液泡膜H+-ATPase的部分纯化及其耐盐性研究

为了阐明液泡膜H^ -ATPase在盐胁迫下的作用和适应性机制,对悬浮培养的胡杨细胞在50mmol／L盐浓度下处理10d,结果表明液泡膜H^ -ATPase、焦磷酸酶的水解活性、质子泵活性增加。将通过差速离心和不连续蔗糖密度梯度离心富积的液泡膜微囊先由脱氧胆酸钠(DOC)和n-辛基-β-D-葡萄糖(OG)分步破膜抽提,经蔗糖密度梯度离心分离,部分纯化的酶含V型H^ -ATPase的主要亚基。     

The isolation of coated vesicles from protoplasts of soybean

Fractions enriched in coated vesicles were obtained from protoplasts derived from suspension cultured Glycine max (L.) Merr. cells. Initial enrichment was achieved by isopycnic centrifugation of a protoplast homogenate through a linear sucrose gradient in a vertical rotor. The coated-vesicle fractions from this gradient were pooled and centrifuged through a second linear sucrose gradient in a rate zonal fashion to remove the larger contaminating membrane vesicles. The most prominent polypeptide in the coated-vesicle fractions, plant clathrin, had a relative molecular mass of approx. 190 kdalton as determined by sodium dodecyl sulfate (SDS) polyacrylamide gel electrophoresis. Other enriched polypeptides included bands at 105, 100, 96, 64, 50, 38 and 32 kdalton. This method was compared with a procedure utilizing sucrose step gradients for preparing coated vesicles from soybean protoplasts. The effectiveness of the isopycnic-rate zonal centrifugation procedure was also tested for the preparation of bovine-brain coated vesicles.NRCC No. 23142     

Isolation of plasma membranes from corn roots by sucrose density gradient centrifugation: an anomalous effect of ficoll

An investigation was conducted into the isolation of plasma membrane vesicles from primary roots of corn (Zea mays L., WF9 × M14) by sucrose density gradient centrifugation. Identification of plasma membranes in cell fractions was by specific staining with the periodic-chromic-phosphotungstic acid procedure. Plasma membrane vesicles were rich in K⁺-stimulated ATPase activity at pH 6.5, and equilibrated in linear gradients of sucrose at a peak density of about 1.165 g/cc. It was necessary to remove mitochondria (equilibrium density of 1.18 g/cc) from the homogenate before density gradient centrifugation to minimize mitochondrial contamination of the plasma membrane fraction. Endoplasmic reticulum (NADH-cytochrome c reductase) and Golgi apparatus (latent IDPase) had equilibrium densities in sucrose of about 1.10 g/cc and 1.12 to 1.15 g/cc, respectively. A correlation (r = 0.975) was observed between K⁺-stimulated ATPase activity at pH 6.5 and the content of plasma membranes in various cell fractions. ATPase activity at pH 9 and cytochrome c oxidase activity were also correlated.     

Separation of human neutrophil plasma membrane from intracellular vesicles containing alkaline phosphatase and NADPH oxidase activity by free flow electrophoresis.

A putative reservoir of functional plasma membrane proteins, the secretory vesicle identified by latent alkaline phosphatase and tetranectin, has previously been demonstrated based on indirect evidence (Borregaard, N., Miller, L. J., and Springer, T. A. (1987) Science 237, 1204-1206; Borregaard, N., Christensen, L., Bjerrum, O. W., Birgens, H. S., and Clemmesen, I. (1990) J. Clin. Invest. 85, 408-416). Difficulties in separating plasma membranes from this entity by density gradient centrifugation has prohibited discriminative dynamic and quantitative studies of secretory vesicles and plasma membranes. By combining density centrifugation with free flow electrophoresis we overcame this obstacle. Freshly prepared unperturbed human neutrophils were subjected to nitrogen cavitation followed by density centrifugation on Percoll gradients. Light membrane fractions containing plasma membranes and secretory vesicles were applied to high voltage free flow electrophoresis on an Elphor VaP 22. Plasma membrane vesicles, identified by HLA class I antigen mixed enzyme-linked immunosorbent assay (Bjerrum, O. W., and Borregaard, N. (1990) Scand. J. Immunol. 31, 305-313) and 125I applied to cells before cavitation, were clearly separated from secretory vesicles. Electron microscopy revealed a morphology typical of plasma membranes in the former fraction and a population of vesicles with markedly different appearance in the latter. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis profiles demonstrated distinct differences in protein patterns between the two fractions. Superoxide generating capacity induced by sodium dodecyl sulfate and cytosol, an entity traditionally ascribed to the plasma membrane, was largely confined to fractions containing secretory vesicles. Thus, the majority of membrane-bound NADPH oxidase components of light membranes of human neutrophils colocalize with secretory vesicles.