Thyrotropin (TSH) binding activities in bovine thyroid tissue: possible role of adenosine 3',5'-monophosphate dependent phosphorylation of thyroid plasma membranes in TSH receptor degradation

The relationship between thyroid plasma membrane phosphorylation and thyrotropin (TSH) receptor degradation was investigated by using bovine thyroid tissues. By fractionation of thyroid cytosol (105,000 X g supernatant of thyroid homogenate) in a continuous sucrose density gradient centrifugation, three different TSH binding activities were separated. During the incubation of thyroid plasma membranes, TSH binding activities were spontaneously released in vitro. By fractionation of the fraction containing released TSH binding activities in the same sucrose density gradient centrifugation, three different TSH binding activities were isolated. These peaks of TSH binding activity corresponded to the peaks of TSH binding activity obtained in cytosol fraction. Adenosine 3',5'-monophosphate (cyclic AMP) enhanced the release of TSH binding activities from the plasma membranes in vitro. After fractionation on a sucrose density gradient centrifugation of the supernatant of the plasma membranes which were preincubated with cyclic AMP, three different peaks of TSH binding activity were identified. These peaks corresponded to the peaks obtained in spontaneously released TSH binding activity. In this case, however, the amount of small molecule TSH binding activities was predominant compared to that of large molecule TSH binding activity. During the incubation of the plasma membranes with [r-32P]-ATP and with cyclic AMP, phosphorylated soluble proteins were released. The profile of the phosphorylated soluble proteins in the sucrose density gradient centrifugation showed three different peaks which corresponded to the peaks of binding activity.(ABSTRACT TRUNCATED AT 250 WORDS)     

Fractionation of liver plasma membranes prepared by zonal centrifugation

1. Plasma membranes were isolated from crude nuclear sediments from mouse and rat liver by a rate-dependent centrifugation through a sucrose density gradient contained in the ;A' type zonal rotor. 2. The membranes were further purified by isopycnic centrifugation, and characterized enzymically, chemically and morphologically. 3. When the plasma-membrane fraction of sucrose density 1.17g/cm(3) was dispersed in a tight-fitting homogenizer, two subfractions of densities 1.12 and 1.18 were obtained by isopycnic centrifugation. 4. The light subfraction contained 5'-nucleotidase, nucleoside diphosphatase, leucine naphthylamidase and Mg(2+)-stimulated adenosine triphosphatase activities at higher specific activities than unfractionated membranes. The heavy subfraction was deficient in the above enzymes but contained higher Na(+)+K(+)-stimulated adenosine triphosphatase activity. 5. The light subfraction contained twice as much phospholipid and cholesterol, and three times as much N-acetylneuraminic acid relative to unit protein weight as the heavy subfraction. Polyacrylamide-gel electrophoresis indicated differences in protein composition. 6. Electron microscopy showed the light subfraction to be vesicular. The heavy subfraction contained membrane strips with junctional complexes in addition to vesicles.     

The subcellular distribution of carotenoids in Neurospora crassa

The intracellular localization of carotenoids in the fungus Neurospora crassa was examined after completion of photoinduced biosynthesis of these pigments. Differential centrifugation of cell homogenates yielded subcellular fractions which were characterized by activities of several marker enzymes for cell constituents and in part purified by subsequent sucrose density gradient centrifugation. Most (ca 58%) of the carotenoids were found to be localized in lipid globules, but substantial amounts are also associated with two membrane fractions that were rich in membranes of the endoplasmic reticulum as indicated by high activities of NADPH- and NADH—cytochrome c reductase. These results, along with the coincidence in the distribution of both carotenoids and activities of specific marker enzymes in the sucrose density gradients, led to the conclusion that apart from lipid globules, carotenoids are also localized in membranes of the endoplasmic reticulum.     

Comparison of two methods for the preparation of a membrane fraction of cauliflower inflorescences containing a blue light reducible b -type cytochrome

Presumptive plasma membrane fractions containing a light-sensitive flavocyto–chrome b -protein complex from cauliflower inflorescences were isolated by two different procedures. In the first procedure a density gradient centrifugation was used, while in the second the separation was carried out using an aqueous polymer two phase system based on the specific surface properties of the membranes. This latter method is much faster and its yield is as good as a purification on a linear sucrose density gradient in terms of light inducible cyt b reduction. When the LIAC-containing membranes obtained through a sucrose gradient are further purified on an Urografin gradient, the presence of contaminating cyt b is shown. The distribution of this b type cytochrome, showing no redox change upon illumination, is similar to the distribution as a NADH dependent and antimycin A resistant cytochrome c reduc–tase, a marker enzyme for endoplasmic reticulum. Measurable mitochondrial contamination is indicated by cytochrome oxidase activity. Both contaminants were less pronounced in the fractions obtained after Urografin gradient centrifugation of the membranes prepared by the two phase system method. The isolation procedure based upon the use of the two phase aqueous polymer system allows more rapid preparation of LIAC-containing presumptive plasma membranes than that obtained with the sucrose density gradient centrifugation. It also yields a purer preparation.     

An analytical approach to the preparation and characterization of subcellular membranes from canine mesenteric arteries

Subcellular membrane fractions were isolated from dog mesenteric arteries by differential and isopynic sucrose density gradient centrifugations. Isolated membrane fractions were characterized by marker enzyme activities, morphological features and sodium dodecyl sulfate-polyacrylamide gel electrophoretic patterns. Our results show that the microsomal fraction isolated by conventional differential centrifugation was highly heterogenous and contained substantial amount of plasma membranes which could be further enriched as a light density membrane fraction on a discontinuous sucrose density gradient. The microsomal fraction and its subfractions were vesicular in appearance under electron microscope and were capable of binding and actively transporting Ca2+. The binding of Ca2+ and ATP-supported Ca2+-transport in the presence or absence of oxalate paralleled the distribution of plasma membrane marker enzyme activities suggesting that plasma membranes in vascular smooth muscle may play a major role in handling Ca2+ and thus the control of contractile function.     

Isolation of highly purified rat liver lysosomal membranes using two Percoll gradients

Normal rat liver lysosomal membranes in the form of membrane vesicles have been purified using Percoll density gradient centrifugation. Lysosomes (density = 1.111) were purified approximately 63 +/- 12-fold (mean +/- standard deviation, n = 5) using a gradient of Percoll made isotonic with sucrose and buffered to pH 7.0. These lysosomes were then exposed to 10 mM methionine methyl ester, pH 7.0, the uptake of which resulted in swelling and breakage of the lysosomes with subsequent vesicle formation. These vesicles (density = 1.056) were further separated from residual mitochondrial and plasma membrane enzyme activities using a second Percoll density gradient. Marker enzyme analysis and electron microscopy indicated that the lysosomal membranes were essentially free of both beta-hexosaminidase, a soluble lysosomal enzyme, and contaminating organelles. The specific activity of lysosomal ATPase in the lysosomal membranes was fourfold greater than in the intact lysosomes.     

Isolation and characterization of plasma membrane from lactating bovine mammary gland

Plasma membranes were isolated from lactating bovine mammary gland. Two crude membrane fractions; medium/d 1.033 (light membrane) and 1.033/1.053 interfaces (heavy membrane), were obtained by Ficoll density gradient centrifugation of osmotically washed microsomal fraction. Two crude membranes were further purified separately by sucrose density gradient centrifugation. Both light and heavy membranes banded at a sucrose density of 1.14. The purified membranes appeared as heterogeneous smooth membrane vesicles on electron microscopy. The contaminating suborganelles were not detected. The yield of the purified membranes relative to the homogenate was 1.2%. The degree of purity of the membranes was shown by a great increase in the specific activity of 5′-nucleotidase over the homogenate of 20-fold for light membrane and of 16-fold for heavy membrane. The relative activities of Mg²⁺-ATPase, (Na⁺ + K⁺)-ATPase, γ-glutamyl transpeptidase, phosphodiesterase I, akaline phosphatase and xanthine oxidase were also high (12–18-times) and nearly 20% of these enzymes was recovered. The activity of marker enzyme for mitochondria, endoplasmic reticulum and Golgi apparatus was very low, while that of acid phosphatase for lysosome was relatively high (5-times). DNA and RNA contents were very low. The major polypeptides rich in other suborganelles were not detected profoundly in the membrane fraction and the polypeptide compositions in both light and heavy membranes were similar upon SDS-polyacrylamide gel electrophoresis.     

Isolation of plasma membranes from bovine corpus luteum possessing adenylate cyclase, 125I-hCG binding and NaK-ATPase activities

Plasma membranes from bovine corpora lutea have been purified by sucrose density gradient centrifugation. The purified membranes, in addition to binding ¹²⁵I-hCG, also possess hCG-stimulated adenylate cyclase and NaK-ATPase. The relative purification of ¹²⁵I-hCG binding, adenylate cyclase and NaK-ATPase on the basis of the specific activities in the whole homogenate were 7.8, 6.4 and 2.6, respectively. The presence of both the hormone sensitive adenylate cyclase and ¹²⁵I-hCG binding activities suggest that these plasma membranes might possess the ‘receptor’ for gonadotropin.     

Separation of enriched synaptosomes, synaptic vesicles and synaptic plasma membranes]

A rapid and simple method is described for separation of intact synaptosomes, synaptic plasma membranes and vesicles. Two synaptosome fractions were obtained by modified differential centrifugation. The rate zonal zentrifugation in a linear sucrose gradient (very low density) is suitable to obtain fractions highly enriched in synaptic plasma membranes and vesicles. Examination of the prepared fractions was done by enzyme marker activities and electron microscopy     

Subcellular localization of a membrane-associated transglutaminase activity in rat liver

Fractionation of rat liver by homogenization and differential centrifugation revealed that only about 83% of the transglutaminase activity in the tissue is in a soluble form, and that the remainder is associated with the particulate fraction. This latter activity remained with the membranes even after they were extensively washed to remove 99% of such soluble enzymes as lactate dehydrogenase and aldolase. Subsequent fractionation of the membranes by isopycnic density gradient centrifugation in sucrose resulted in a single band of transglutaminase activity at a density of 1.194 g/cm3. This activity was coincident with the major band of plasma membranes, which was identified by its content of 5'-nucleotidase, alkaline phosphodiesterase I, alkaline phosphatase and leucine aminopeptidase activities. After treatment with digitonin and fractionation on sucrose gradients, the transglutaminase activity and the plasma membrane marker enzyme activities were found at a new density of 1.210 g/cm3, while the enzyme markers for the other membrane fractions remained unchanged. From these data, we conclude that approximately 17% of the transglutaminase activity in rat liver is specifically associated with the plasma membranes.     

Isolation of radio-iodinated apical and basal-lateral plasma membranes of toad bladder epithelium

Summary The apical and basal-lateral plasma membranes of toad bladder epithelium were radio-iodinated with the glucose-glucose oxidase-lactoperoxidase system. The covalently bound radio-iodine was used as a marker during subcellular fractionation and membrane isolation. Homogenization conditions that ensured rupture of more than 80% of the cells without substantial nuclear damage were defined by Nomarski optics. The nuclei were separated by differential centrifugation and the apical and basal-lateral components were resolved by differential and sucrose density gradient centrifugation. The apical components yielded two radioactive bands that were identified as glycocalyx and plasma membrane labeled with¹²⁵I. The basal-lateral components yielded a heterodisperse pattern made up of at least 3 radioactive bands, but the bulk of the activity of ouabain-sensitive ATPase comigrated with only one of these bands. The mitochondia, identified by assays for cytochrome oxidase and NADH cytochromec reductase activities, were separated from the radio-iodine labeled components by centrifugation in sucrose density gradients under isokinetic conditions. The labeled glycocalyx and the slowly migrating components of basal-lateral labeling were separated from the radio-iodinated membranes by centrifugation at 100,000 × g × 1 hr after removal of the mitochondria by the isokinetic method. The labeled membranes were then subjected to ultracentrifugation in sucrose density gradients under isopycnic conditions; the basal-lateral membranes containing ouabain-sensitive ATP-ase were well resolved from the apical membranes by this method. These results provide a relatively rapid method of attaining partial purification of the apical and basal-lateral plasma membranes of toad bladder epithelium.     

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。     

Use of dextran-40 gradients for separation of pea cotyledon mitochondria into different fractions

A crude pea (Pisum sativum L. var. Homesteader) mitochrondrial preparation was divided into two equal parts. One part was layered on a Dextran-40 step gradient, and the other on a sucrose step gradient, and they were centrifuged to obtain different bands of particles. The densities at which the particles banded and the mitochondrial respiratory activities of the particles were determined. Dextran-40 density gradient centrifugation resulted in a better separation of mitochondrial populations than did sucrose density gradient centrifugation. Separation by sucrose density gradient centrifugation may not be according to the true densities of the particles. On the other hand, the use of gradients of Dextran-40, a solute of low osmotic potential, facilitated separation of particles acording to their true densities. Such mitochondria showed better respiratory control ratio and ADP:0 values, than those isolated by sucrose density gradient centrifugation.     

Isolation of peroxisomes from the dog kidney cortex.

The present study was undertaken to separate peroxisomes of the dog kidney cortex by the methods of discontinuous sucrose density gradient and zonal centrifugation. The separation of subcellular particles was evaluated by measuring the activities of reference enzymes, beta-glycerophosphatase for lysosomes, succinate dehydrogenase for mitochondria, glucose-6-phosphatase for microsomes, and catalase and D-amino acid oxidase for peroxisomes. The activities of D-amino acid oxidase and catalase were mainly observed in fractions 1 and 2 (1.6 and 1.7 M sucrose) obtained by discontinuous sucrose density-gradient centrifugation. Small amounts of acid phosphatase and succinate dehydrogenase contaminated these fractions. Considerably higher activity of catalase was determined in the supernatant, while D-amino acid oxidase showed a lower activity. By the method of zonal centrifugation, the highest specific activities of catalase and D-amino acid oxidase were found in fraction 50 (1.73 M sucrose) with no succinate dehydrogenase, acid phosphatase or glucose-6-phosphatase activity. These results suggested that peroxisomes of dog kidney cortex were clearly separated in 1.73 M sucrose from mitochondria, lysosomes and microsomes by zonal centrifugation.     

Basal-lateral membranes from rabbit renal cortex prepared on a large scale in a zonal rotor

Basal-lateral membranes from the renal cortex of the rabbit were isolated by sucrose gradient centrifugation in a zonal rotor which allows for a large-scale preparation of these membranes. A heterogeneous population of membranes (P4) which contained 29% of the (Na+ + K+)-ATPase found in the homogenate of renal cortex was prepared by differential centrifugation. When pellet P4 was subjected to centrifugation in a sucrose gradient the activity of (Na+ + K+)-ATPase, a marker for basal-lateral membranes, could be separated from enzymatic markers of other organelles. The specific activity of (Na+ + K+)-ATPase was enriched 12-fold at a density of 1.141 g/cm3. Membranes (P alpha) contained in the (Na+ + K+)-ATPase-rich fractions consisted primarily of closed vesicles which exhibited probenecid inhibitable transport of rho-aminohippurate. These membranes did not exhibit Na+-dependent, phlorizin-inhibitable D-glucose transport. Sodium dodecyl sulfate polyacrylamide gel electrophoresis of proteins from P alpha revealed at least six major protein bands with molecular weights of 91000, 81000, 73000, 65000, 47000 and 38000. A small fraction of total alkaline phosphatase found in the homogenate was found in pellet P4. Membranes containing this alkaline phosphatase activity were distributed widely over the gradient, with peak activity found at a density of 1.141 g/cm3. In contrast, when brush borders were subjected to gradient centrifugation under the same conditions as P4, alkaline phosphatase was found in a narrow distribution, with peak activity at a density of 1.158 g/cm3. The principle subcellular localization of the alkaline phosphatase found in P4 could not be determined unambiguously from the data, but the activity did not seem to be primarily associated with classical brush borders.     

Effect of high sucrose concentrations on mitochondria: Analysis of mitochondrial populations by density-gradient centrifugation after fixation with glutaraldehyde

It has been shown previously that intact rat liver mitochondria can be separated into two populations (designated B2 and B3) with mean buoyant densities of 1·184 and 1·216 respectively, by isopycnic sucrose density gradient centrifugation. A comparison has been made of some properties of these mitochondrial fractions from density gradients with non-fractionated mitochondria. Use was made of density gradient centrifugation for analysis of preparations fixed with appropriate concentrations of glutaraldehyde. The permeability of the membranes of non-fractionated mitochondria to sucrose was increased by exposure to hypoosmotic sucrose solutions. The B3 mitochondria differed from the non-fractionated mitochondria in their response to changes in osmotic pressure of the suspending medium while the B2 mitochondria showed essentially identical behaviour with the controls. However, under conditions of energized swelling the B2 mitochondria were markedly different to the controls. This difference, which is attributed to reduced permeability of the mitochondrial membranes to metabolites brought about by exposure to the high concentrations of sucrose encountered in the density gradient, was reversed by incubation in hypo-osmotic sucrose solutions in the presence of oxidizable substrate and permeant ions.Died December, 1969.     

Isolation and characterization of outer and inner envelope membranes of cyanelles from a glaucocystophyte, Cyanophora paradoxa

Envelope membranes were isolated by sucrose density gradient floatation centrifugation from the homogenate of cyanelles prepared from Cyanophora paradoxa. Two yellow bands were separated after 40 h of centrifugation. The buoyant density of one of the two fractions (fraction Y2) coincided with that of inner envelope membranes of spinach or plasma membranes of cyanobacteria. The other yellow fraction (fraction Y1) migrated to top of sucrose-gradient even at 0% sucrose. Pigment analysis revealed that the heavy yellow fraction was rich in zeaxanthin while the light fraction was rich in β-carotene, and the both fractions contained practically no chlorophylls. Another yellow fraction (fraction Y3) was isolated from the phycobiliprotein fraction, which was the position where the sample was placed for gradient centrifugation. Its buoyant density and absorption spectra were similar to outer membranes of cyanobacteria. We have assigned fractions Y2 and Y3 as inner and outer envelope membrane fractions of cyanelles, respectively. Protein compositions were rather different between the two envelope membranes indicating little cross-contamination among the fractions. H. Koike and Y. Ikeda contributed equally.     

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.     

Isolation and partial characterization of chick brain synaptic plasma membranes.

An isolation procedure for synaptic plasma membranes from whole chick brain is reported that uses the combined flotation-sedimentation density gradient centrifugation procedure described by Jones and Matus (Jones, D. H. and Matus, A. I. (1974) Biochim. Biophys. Acta 356, 276-287) for rat brain. The particulate of the osmotically shocked and sonicated crude mitochondrial fraction was used for a flotation-sedimentation gradient step. Four fractions were recovered from the gradient after 30 min centrifugation. The fractions were identified and characterized by electron microscopy and by several markers for plasma membrane and other subcellular organelles. Fraction 2 was recovered from the 28.5-34% (w/v) sucrose interphase and contained the major part of the activities of the neuronal plasma membrane marker enzymes. The specific activities of the (Na+ +K+)-activated ATPase (EC 3.6.1.3), acetylcholinesterase (EC 3.1.1.7) and 5'-nucleotidase (EC 3.1.3.5) were, respectively, 4.5, 2.0 and 1.2 times higher than in the homogenate. However, Fraction 2 also contained considerable amounts of activities of putative lysosomal and microsomal markers in addition to lower amounts of mitochondrial and myelin markers. Although no prepurification of synaptosomes from the crude mitochondrial fraction was performed, the synaptic plasma membranes obtained showed many properties analogous to similar preparations from rat brain described in recent years.     

THE ASSOCIATION OF ACETYLCHOLINESTERASE AND MEMBRANE IN SUBCELLULAR FRACTIONS OF THE ELECTRIC TISSUE OF ELECTROPHORUS

Subcellular fractions of the electric tissue of the main organ of the eel Electrophorus electricus were prepared in sucrose media by differential centrifugation and differential discontinuous gradient centrifugation. The distributions of acetylcholinesterase, cytochrome oxidase, DNA, and protein were determined. The appearance of the fractions was determined by phase contrast microscopy and by electron microscopy. A fraction prepared by differectial centrifugation at 30,000 g for 20 minutes in 0.89 M sucrose contained 63 per cent of the total acetylcholinesterase activity at 4 times the specific activity of that of the tissue homogenate. A subfraction prepared by centrifugation in a discontinuous density gradient showed a peak of total and relative specific acetylcholinesterase activity of 35 per cent and 1.9, respectively. The average over-all purification was 7 times. The acetylcholinesterase peak was below the cytochrome oxidase peak and above the DNA peak in the density gradient. The presence of acetylcholinesterase in the fractions was correlated with the presence of large fragments of the cell membrane; however, the presence of other tissue components was noted. The acetylcholinesterase associated with membrane was found to be activated by incubation with sodium deoxycholate. The possible use of the peak fraction containing membranes rich in acetylcholinesterase for the investigation of other components of the acetylcholine system and of other properties of the membrane is discussed.