Biogenesis of hepatocyte plasma-membrane domains. Incorporation of (3H)fucose into plasma-membrane and golgi-apparatus glycoproteins.

1. Rats were injected intracaudally with [3H]fucose and its rate of incorporation into the fucoproteins of serum, Golgi and plasma-membrane subfractions was followed for up tp 2h. 2. Incorporation into the Golgi dictyosome and secretory-vesicular fractions reached a maximum at 15 min or less, but most of the radioactivity was associated with classes of secretory glycoproteins. Incorporation into sinusoidal plasma-membrane fractions reached a maximum at 30 min, coinciding with the maximum release of fucoproteins into the serum. Contiguous and canalicular plasma-membrane fractions were labelled slightly later and at a lower rate and specific radioactivity. 3. Fluorography of fucoproteins separated by polyacrylamide-gel electrophoresis helped to distinguish between the major secretory and membrane-bound glycoproteins. The results show that a major biogenetic sequence is probably from Golgi dictyosomes to Golgi secretory elements to a sinusoidal plasma membrane. 4. The kinetics of incorporation make it unlikely that there is rapid and direct insertion of glycoproteins into the bile-canalicular plasma membrane. A route involving direct transfer of glycoproteins via a membrane-mediated intracellular path from the blood sinusoidal to the bile-canalicular plasma membranes is proposed.     

Static and dynamic components of renal cortical brush border and basolateral membrane fluidity: Role of cholesterol

Summary Static polarization and differential polarized phase fluorimetry studies on rat renal cortical brush border (BBM) and basolateral membranes (BLM) were undertaken to determine the membrane components responsible for differences in BBM and BLM fluidity, whether these differences were due to the order or dynamic components of membrane fluidity and if a fluidity gradient existed within the bilayer. Surface membrane proteins rigidified both BBM and BLM fluidity. Neutral lipid extraction, on the other hand, caused a larger decrease in BBM than BLM fluorescence polarization (0.104vs. 0.60,P<0.01) using diphenyl hexatriene (DPH). Cholesterol addition to phospholipid fractions restored membrane fluidity to total lipid values in both BBM and BLM phospholipids. The response to cholesterol in the BBM was biphasic, while the BLM response was linear. Lateral mobility, quantitated using dipyrenylpropane, was similar in both BBM and BLM fractions at 35°C. BBM and BLM differed primarily in the order component of membrane fluidity as DPH-limiting anisotropy (r ) (0.212vs. 0.154,P<0.01) differed markedly between the two membrane fractions. The two membrane components also differed with respect to 2 and 12-anthroyloxy stearate (2-AS, 12-AS) probes, indicating a difference in the dynamic component of membrane fluidity may also be present. DPH and 12-As probes were also used to quantitate inner core membrane fluidity and showed the BBM was less fluid than the BLM for intact membranes, total lipid extracts and phospholipids. Results obtained using the surface membrane probes trimethylammonium-DPH (TMA-DPH) and 2-AS suggested a fluidity gradient existed in both BBM and BLM bilayers with the inner core being more fluid in both membranes. These data indicate cholesterol is in large part responsible for fluidity differences between BBM and BLM and that these membranes, while clearly differing in the order component of membrane fluidity, may also difer in the dynamic component as well.     

Preparation of sealed tonoplast and plasma-membrane vesicles from Catharanthus roseus (L.) G. Don. cells by free-flow electrophoresis

Highly purified tonoplast and plasmamembrane vesicles were isolated from microsomes of Catharanthus roseus (L.) G. Don. by preparative free-flow electrophoresis. The relative amounts of tonoplast and plasma-membrane vesicles in the total microsomes varied with the pH of the grinding medium. The most electronegative fractions were identified as tonoplast using nitrate-inhibited, azide-resistant Mg²⁺-ATPase and pyrophosphatase activities as enzyme markers. The least electronegative fractions were identified as plasma membrane using glucan-synthase-II and UDPG:sterolglucosyl-transferase activities as enzyme markers. Other membrane markers, latent inosine-5-diphosphatase (Golgi), NADPH-cytochrome-c reductase (ER) and cytochrome-c oxidase (mitochondria) were recovered in the fractions intermediate between tonoplast and plasma membrane and did not contaminate either the tonoplast or the plasma-membrane fractions. In the course of searching for a reliable marker for tonoplast, the pyrophosphatase activity was found to be essentially associated with the tonoplast fractions purified by free-flow electrophoresis from C. roseus and other plant materials. The degree of sealing of the tonoplast and plasmamembrane vesicles was probed by their ability to pump protons (measurements of quinacrine quenching) and to generate a membrane potential (absorption spectroscopy of Oxonol VI). A critical evaluation of vesicles sidedness is presented.Abbreviations CCCP carbonyl cyanide m-chlorophenylhydrazone - Con A concanavalin A - Cyt cytochrome - LysoPC lysophosphatidylcholine - Pi orthophoshate - PP_iase pyrophosphatase - IDPase inosine-5-diphosphatase We thank Pr. Robert Dargent and André Moisan (Laboratoire de Cryptogamie, Toulouse, France) for use of their electron-microscope facilities. This work was supported by the Centre National de la Recherche Scientifique and by a grant Dynamique du fonctionnement de la vacuole from the Ministère de la Recherche et de la Technologie.     

The distribution of A1 adenosine receptor and 5′-nucleotidase in pig brain cortex subcellular fractions

Pig brain cerebral cortex was subfractionated by isopycnic centrifugation in sucrose gradients. In each subfraction the content of the agonist [³H]R-PIA binding, the activity of adenosine metabolizing enzymes (5-nucleotidase and adenosine deaminase) and the activity of membrane marker enzymes were determined. The fractions were also examined by electron microscope. In general, the results suggest a widespread distribution of A₁ adenosine receptors in membranes from different origins. Marker enzyme profile characterization indicated an enrichment of A₁ adenosine receptor in pre-synaptic membranes isolated from the crude synaptosomal fraction (P2B subfraction) as well as in membranes of glial origin such as myelin. The receptor is also present in the endoplasmic reticulum and in membranes isolated from the microsomal fraction that seem to have a post-synaptic origin (P3B). In subfractions having a high content of adenosine receptor the equilibrium binding paramters were obtained as well as the proportion of high- to low-affinity sites. From the values of the equilibrium constants it was not possible to find differences between the receptor in the different subfractions. Analysis of the affinity state distribution showed a diminished percentage of high-affinity sites in fraction P3A, which can be accounted by the existence of myelin membranes; in contrast the percentage of high-affinity states was higher in P2 and P3B, indicating that in these fractions the receptor is present in synaptosomal membranes. The close correlation shown between the enzyme 5-nucleotidase specific activity and the specific ligand binding distributions led us to postulate an important role for the enzyme in the regulation of adenosine action in pig brain cortex.     

Isolation and characterization of the plasma membrane from Yoshida hepatoma cells

Summary Plasma membranes isolated from Yoshida ascites hepatoma AH-130 by a modification of the method of T. K. Ray (Biochim. Biophys. Acta 196: 1, 1970), were subfractionated into three fractions having densities (d) 1.12, 1.14 and 1.16 by discontinuous sucrose density-gradient. Membrane subfractions were characterized by electron-microscopy, by assay of marker enzymes and by lipid composition. All subfractions appeared to be essentially free from whole mitochondria, lysosomes and nuclei. Subfraction d 1.16 had, the highest 5-nucleotidase, Mg⁺⁺-ATPase and (Na⁺+K⁺)-ATPase activities; cytochromec oxidase was undetectable in any fraction and glucose-6-phosphatase was measurable only in fraction d 1.14. Adenylate cyclase had the highest activity in fractions d 1.14 and 1.16. Cyclic AMP phosphodiesterase was nearly equally distributed in the fractions. Adenylate, cyclase, 5-nucleotidase and Mg⁺⁺-ATPase activities of tumor membrane were lower with respect to liver plasma membrane, while cyclic AMP phosphodiesterase and (Na⁺+K⁺)-ATPase were found to have similar activities in the two membrane preparations. With respect to liver membrane, hepatoma membrane contained a higher amount of glycolipids and a higher amount of phospholipids accounted for mainly, by sphingomyelin, phosphatidylserine and phosphatidic acid. The possible significance of the decrease of adenylate activity in the hepatoma membrane is briefly discussed.     

Cellular localization of sulfobromophthalein transport activity in rat liver

The movement of sulfobromophthalein is measured in rat liver plasma-membrane vesicles by direct dual-wavelength spectrophotometry. The technique is based on the principle that the dye, when entering a more acidic compartment, changes its absorption in the visible region. From this study it may be concluded that, among the different cellular subfractions, only liver plasma-membrane vesicles can catalyze electrogenic transport of sulfobromophthalein. Plasma membranes from erythrocytes are unable to perform such a function. The movement follows the distribution pattern of (Na⁺+K⁺-ATPase and it is therefore concluded that this process occurs exclusively at the sinusoidal membrane level. Inhibition studies confirm that the process is catalyzed by bilitranslocase.     

Pectinmethylesterase isoforms fromVigna radiata hypocotyl cell walls: kinetic properties and molecular cloning of a cDNA encoding the most alkaline isoform

Peptide maps and partial amino acid sequences of the 3 main pectinmethylesterases (PMEs) solubilized from mung bean hypocotyl cell walls demonstrated that these proteins were different isozymes originating from a small multigene family. A cDNA clone encoding the most alkaline PME (PE) have been obtained by PCR using degenerate oligonucleotide primers. Combining the protein and nucleotide sequencing data, the complete amino acid sequence of PE was determined. The nature protein is composed of 318 amino acids with a calculatedM _r of 34 677 and an estimated pI of 9.84 consistent with the values previously obtained by SDS-PAGE and IEF. It shares most of the conserved regions of previously known PMEs. Enzymatic activities of the three isoforms were differently affected by the presence of cations in the incubation medium but, in all cases, infra-optimal cation concentrations induced two opposite effects: a decrease in theV _max and an increase in the affinity of the enzymes for their substrate. The presence of cations in the assay modulates both the number of enzyme molecules available to the demethylation reaction and the conformation of the pectin and, in turn, the affinity of the PMEs for their substrate.     

Distribution of lipid synthesizing enzymes, 2′,3′-cyclic nucleotide 3′-phosphodiesterase,and myelin proteins in rat forebrain subfractions during development

The distribution of UDP-galactose: ceramide galactosyltransferase (CGalT) was studied in subcellular fractions of rat forebrain during development using zonal centrifugation on linear gradients. Specialized subfractions: SN 1, a microsomal fraction, SN 4, a myelin-related fraction, and purified myelin were also used for this study. For comparison, two microsomal lipid synthesizing enzymes, a myelin-specific enzyme, 2,3-cyclic nucleotide 3-phosphodiesterase and myelin proteins were measured in the same subfractions. UDP-glucose: ceramide glucosyltransferase and cerebroside sulfotransferase were confined to microsomes. CGalT was ferase and cerebroside sulfotransferase were confined to microsomes. CGalT was localized in microsomes, but also in myelin and myelin-related fractions. The developmental change in distribution of CGalT in adult animals toward myelin containing fractions could indicate that the replacement of galactosylceramide in compact myelin could be carried out in close proximity to compact myelin (mesaxon, paranodal loops) rather than in the distant oligodendrocyte perikaryon.     

Phosphorylation of the plasma-membrane H+-ATPase of oat roots by a calcium-stimulated protein kinase

When plasma-membrane vesicles isolated from oat (Avena sativa L.) root cells were incubated with [-³²P]ATP, the H⁺-ATPase was found to be phosphorylated at serine and threonine residues. Phosphotyrosine was not detected. Endogenous ATPase kinase activity was also observed in plasma-membrane vesicles isolated from potato (Solanum tuberosum L.) root cells as well as from yeast (Saccharomyces cerevisiae). Identity of the phosphorylated oat root M_r=100 000 polypeptide as the ATPase was confirmed using conventional glycerol density-gradient centrifugation to purify the native enzyme and by a new procedure for purifying the denatured polypeptide using reversephase high-performance liquid chromatography. Kinase-mediated phosphorylation of the oat root plasma-membrane H⁺-ATPase was stimulated by the addition of low concentrations of Ca²⁺ and by a decrease in pH, from 7.2 to 6.2. These results demonstrate that kinase-mediated phosphorylation of the H⁺-ATPase is a plausible mechanism for regulating activity. They further indicate that changes in the cytoplasmic [Ca²⁺] and pH are potentially important elements in modulating the kinase-mediated phosphorylation.Abbreviations EDTA ethylenediaminetetraacetic acid - EGTA ethylene glycol-bis-(-aminoethyl ether)-N,N,N,N-tetraacetic acid - M_r relative molecular mass - RP-HPLC reverse-phase high-performance liquid chromatography - SDS-PAGE sodium dodecyl sulfate polyacrylamide gel electrophoresis     

Plant responses to past concentrations of CO2

The influence of recent historical changes in atmospheric CO₂ have been investigated by two methods: 1, the responses of leaf development and physiology as indicated by leaves stored in herbaria and 2, by investigating the differential growth responses of populations originating from naturally different CO₂ concentrations. Herbarium leaves indicate that stomatal density and leaf nitrogen have decreased over the last 150 to 200 years, while water use efficiency, estimated from leaf ¹³C and historical measurements of climate, has increased.Natural populations ofBoehmeria cylindrica were found growing at sites, in Florida, with CO₂ mole fractions varying naturally from 350 µmol mol^-1 to 505 µmol mol^-1. Plants were grown in the controlled environment, using seeds originating from populations occurring in the different CO₂ mole fractions. Plants from the different ambient CO₂ mole fractions showed different rates of growth and different non-linear responses of the shoot to root ratio in response to changes in the CO₂ mole fraction from 350 to 675 µmol mol^-1.The proposal that plants originating from high altitude will whow greater stimulations of growth with an increase in CO₂, than plants from low altitude, was rejected in experiments which simulated the atmospheric pressure at altitudes of 0 and 2000m, at CO₂ mole fractions of 350 and 700 µmol mol^-1 and on populations ofPlantago major originating from altitudes of 0 and 3335 m.     

The regional and subcellular distribution of calcium activated neutral proteinase (CANP) in the bovine central nervous system

Calcium-activated neutral proteinase (CANP) activity was determined in subcellular fractions and in different regions of bovine brain. The CANP specific activity in spinal cord and corpus callosum, areas rich in myelin, were almost six-fold greater than cerebral cortex and cerebellum. Treatment of whole homogenate and myelin with 0.1% Triton X-100 increased the CANP activity by tenfold. Subcellular fractions were prepared from bovine brain gray and white matter. Most of the CANP activity (70%) was in the primary particulate fractions P₁ (nuclear), P₂ (mitochondrial) and P₃ (microsomal). On subfractionation of each particulate fraction, the majority of the activity (greater than 50%) was recovered in the myelin-enriched fractions (P₁A, P₂A, P₃A) which separate at the interphase of 0.32 M- and 0l85 M-sucrose. The distribution of activity was P₂A>P₁A>P₃A. Further purification of myelin (of P₂A) increased the specific activity over homogenate by more than three-fold. The same myelin fractions contained the highest proportion (60%) and specific activity (five-fold increase) of CNPase. The enzyme activity in different regions of brain and in subcellular fractions was increased by 20–39% after the inhibitor was removed. Electron microscopic study confirmed that the myelin fractions were highly purified. The cytosolic fraction contained 20–30% of the total homogenate CANP activity. Other fractions contained low enzyme activity. CANP was identified in the purified myelin fraction by electroimmublot-technique. It is concluded that the bulk of CANP in CNS is tightly bound to the membrane, may be masked or hidden and is intimately associated with the myelin sheath.Abbreviations Used CANP calcium-activated neutral proteinase - CNPase adenosine-2, 3-cyclic nucleotide 3-phosphohydrolase     

Comparison of cholinergic systems in Ep neocortical regions of cats with high and low cognitive ability

Cats were behaviorally tested for the ability to solve the abstraction and generalization tasks. Fractions of light (C) and heavy (D) synaptosomes of the associative temporal (Ep) areas were prepared, and subfractions of synaptic membranes and synaptoplasm were isolated. Choline acetyltransferase (ChAT) and acetylcholinesterase (AChE) activity and the content of protein and protein sulphydric (SH-) groups were measured in synaptic subfractions. All the studied characteristics were lower in subfractions C of cats with higher cognitive abilities. In subfractions D, the ChAT activity was correlated neither with ChAT activity in the respective C fraction, nor with cognitive abilities of cats. It is suggested that cholinergic terminals originating from neurons of the basal magnocellular nuclei are concentrated in the C fractions, and those from the cortical cholinergic neurons are concentrated in the D fractions. Physiological significance of the "deficiency" of cholinergic inputs of the Ep areas from the basal magnocellular nuclei in animals with higher cognitive abilities is discussed.     

Membrane fluidity of platelets and erythrocytes in patients with Alzheimer's disease and the effect of small amounts of aluminium on platelet and erythrocyte membranes

The membrane fluidity of platelet and erythrocyte membranes in 10 Alzheimer's disease patients and 9 age-matched controls was studied. The platelet membranes of patients with Alzheimer's disease were found to be significantly more fluid than those of controls (p<0.02). However, erythrocyte membranes of Alzheimer patients were less fluid (more viscous) than those of controls (p<0.05). On further investigation of platelet and erythrocyte membranes obtained from healthy volunteers, the fluidity was found to change with increasing aluminium concentrations. When aluminium ammonium sulphate (0.01–10 M) was added to membrane suspensions, the fluidity of platelet membranes was increased, whereas the fluidity of erythrocyte membranes was decreased (i.e. the microviscosity was increased).     

Thermal adaptation in biological membranes: interacting effects of temperature and pH

Summary The interacting effects of pH and temperature on membrane fluidity were studied in plasma membranes isolated from liver of rainbow trout (Oncorhynchus mykiss) acclimated to 5 and 20°C. Fluidity was determined as a function of temperature under conditions of both constant (in potassium phosphate buffer) and variable pH (in imidazole buffer, consistent with imidazole alphastat regulation) from the fluorescence anisotropy of two probes: 1,6-diphenyl-1,3,5-hexatriene, which intercalates into the bilayer interior, and 1-(4-trimethylammoniumphenyl)-6-phenyl-1,3,5-hexatriene which is anchored at the membrane/water interface. The temperature dependence of the anisotropy parameter for 1,6-diphenyl-1,3,5-hexatriene in plasma membranes of 20°C-acclimated trout was greater when determined in phosphate (AP per °C=-0.047) than in imidazole buffer (AP per °C=-0.022); similar, but less significant, trends were noted with 1-(4-trimethylammoniumphenyl)-6-phenyl-1,3,5-hexatriene. In contrast, the temperature dependence of fluidity (AP/°C in the range-0.0222 to-0.027) did not vary with buffer composition in membranes of 5°C-acclimated trout. In phosphate buffer, anisotropy parameter values for 1,6-diphenyl-1,3,5-hexatriene were significantly lower in 5°C-than 20°C-acclimated trout, indicating a less restricted probe environment following cold acclimation and nearly perfect compensation (91%) of fluidity. Temperature-dependent patterns of acid-base regulation were estimated to account for 11–40% of the fluidization evident in membranes of 5°C-trout, but a period of cold acclimation was required for complete fluidity compensation. In contrast, no homeoviscous adaptation was evident in imidazole buffer, indicating that membrane fluidity is sensitive to buffer composition. Accordingly, vesicles of bovine brain phosphatidylcholine, suspensions of triolein, and plasma membranes of 5°C-acclimated trout were consistently more fluid in imidazole than phosphate buffer. Membranes of 5°C-acclimated trout were enriched in molecular species of phosphatidylcholine containing 22:6n3 (at the expense of species containing 18:1n9 and 18:2n6) compared to membranes of 20°C-trout; consequently, the unsaturation index was significantly higher (3.29 versus 2.73) in trout maintained at 5 as opposed to 20°C. It is concluded that: 1) the chemical composition of the internal milieu can significantly influence the physical properties of membrane lipids; 2) temperature-dependent patterns of intracellular pH regulation may partially offset the ordering effect of low temperature on membrane fluidity in 20°C-acclimated trout transferred to 5°C, but not in 5°C-acclimated trout transferred to warmer temperatures; 3) the majority of the thermal compensation of plasma membrane fluidity resulting from a period of temperature acclimation most likely reflects differences in membrane composition between acclimation groups; 4) imidazole apparently interacts with trout hepatocyte plasma membranes in a unique way.Abbreviations _im netcharge stateofproteins - AP anisotropyparameter - bw body weight - DPH 1,6-diphenyl-1,3,5-hexatriene - HEPES N-2-hydroxyethylpiperazine-N-2-ethanesulphonicacid - PC phosphatidylcholine - pH_e pHofarterial blood - pH_i intracellular pH - TMA-DPH 1-(4-trimethylammoniumphenyl)-6-phenyl-1,3,5-hexatriene - TRIS tris(hydroxymethyl)aminomethane     

Partial purification and characterization of oestrogen receptors in subfractions of hepatocyte plasma membranes

To assess the subcellular distribution of oestrogen-binding components in their native state, plasma membrane and other cell fractions were prepared from hepatocytes in the absence of [³H]oestradiol-17β. Cells from livers of ovariectomized rats were disrupted, with submaximal homogenization in buffered isotonic sucrose with CaCl₂ and proteinase inhibitor, and fractionated by using isotonic media. Fractions were characterized by determinations of enzyme activities, biochemical constituents and ligand binding. Specific binding of 2nm-[³H]oestradiol-17β to intact cells and their fractions was detemined after equilibration for 1.5h at 4°C. More than 92% of the radioactivity from representative preparations was verified as authentic oestradiol by thin-layer chromatography. Activities of plasma-membrane marker enzymes as well as binding sites for oestrogen and for wheat germ agglutinin were present principally in particulate fractions, rather than in 105000g-supernatant fractions. However, by using alternative homogenization procedures (i.e. hypotonic media), known to fragment and strip structural components, oestradiol-binding sites and activities of plasma-membrane marker enzymes were distributed predominantly into cytosol. By using the more conservative procedures, plasma membranes of low (ρ=1.13–1.16) and high (ρ=1.16–1.18) density were purified from crude nuclear fractions. A second low-density subfraction of plasma membrane was prepared from microsome-rich fractions. Activities of plasma-membrane marker enzymes were enriched to about 28 and four times that of the homogenate in plasma membranes of low and high density respectively. Binding sites for wheat germ agglutinin and oestradiol were concentrated in low-density plasma membranes to 46–63 times that of the homogenate. Specific binding of oestrogen in low-density plasma membranes purified from crude nuclei was saturable, with an apparent association constant of 3.5nm. At saturation, such oestradiol receptors corresponded to 526fmol/mg of membrane protein. A Hill plot showed a moderate degree of positive co-operativity in the interaction of hormone with plasma membranes. Specific binding of [³H]oestradiol-17β was reduced by a 200-fold molar excess of unlabelled oestradiol-17β, oestriol or diethylstilbestrol, but not by oestradiol-17α, cortisol, testosterone or progesterone. Binding was also blocked by prior exposure of membranes to trypsin or to 60°C, but remained essentially undiminished by extraction of membranes with either hypotonic or high-salt buffers. Extraction with 0.1% (v/v) Triton X-100 partially solubilized the oestrogen-binding component(s) of plasma membranes. Particle-free extracts were resolved on 5–20% (w/v) sucrose density gradients with either 0.01m- or 0.4m-KCl, and the fractions were analysed by adsorption to hydroxyapatite. In low-salt gradients macromolecule-bound oestrogen sedimented at predominantly 7.4S and binding was 1560 times that of the homogenate. Under high-salt conditions oestradiol-binding activity occurred at both 3.6S and 4.9S.     

Monoclonal antibody TOP 71 recognizes a tonoplast protein of wide distribution in the plant kingdom

Highly purified tonoplast and plasma-membrane vesicles isolated from roots of Lepidium sativum L. (garden cress) were used as a starting material for generating a monoclonal antibody against plant tonoplast. Tonoplast vesicles were isolated by discontinuous-sucrose-gradient centrifugation followed by free-flow electrophoresis. The deglycosylated tonoplast fraction was used to generate monoclonal antibodies by immunization of Balb/c-mice and by fusion of their -lymphocytes with the mouse cell line X 63 Ag 8.653. Using plasma membrane purified by two-phase partitioning and freeflow electrophoresis to define the negative signal in screening, and purified tonoplast to define the positive signal in screening, a monoclonal antibody (TOP 71) was obtained which recognized a tonoplast protein of 71 kDa by immunoblotting in cress-root membrane fractions. Two-dimensional gel electrophoresis, affinoblotting and binding to concanavalin A showed that the TOP 71-antigen was a glycosylated protein and had an isoelectric point (pI) of 4.5. The TOP 71-antigen was found in the different tissues of organs of several higher plants (Glycine max L., Curcurbita pepo L., Zea mays L.) where it did not cross-react with the purified plasma-membrane fractions of these plants. Additionally, TOP 71 recognized its antigen in microsomal fractions of two lower plants (Chara globularis Thuili., Matteucia struthiopteris Tod.).Abbreviations ELISA enzyme-linked immunosorbent assay - FFE free-flow electrophoresis - IEF isoelectric focusing - MAB monoclonal antibody - P_FFE purified plasma membrane after FFE - pI isoelectric point - SDS-PAGE sodium dodecyl sulfatepolyacrylamide gel electrophoresis - T_gr tonoplast-enriched fraction (gr = gradient) - T_FFE purified tonoplast after FFE We thank I. Hartmann for technical assistance, R. Görlich (Institut für Landwirtschaftliche Botanik, Universität Bonn, Bonn, FRG) for advice on hybridoma techniques, M.F. Manolson (Department of Biological Sciences, Carnegie Mellon University, Pittsburgh, Pa., USA) for the gift of the anti-A subunit-ATPase antibody, and R. Liedtke, H. Geithmann, and A. Heppekausen for preparation of figures. This work was financially supported by the Deutsche Forschungsgemeinschaft and the Bundesministerium für Forschung und Technologie.     

Scavenging and antioxidant activities of immunomodulating polysaccharides isolated from Salvia officinalis L.

Crude polysaccharides, isolated from the aerial parts of sage (Salvia officinalis L.) by sequential extraction with water (A), hot ammonium oxalate (B), dimethyl sulfoxide (C), 1 M (D) and 4 M (E) potassium hydroxide solutions, and six ion-exchange fractions of A were examined for their ability to inhibit peroxidation of liposome lipid by hydroxyl radicals and to reduced DPPH radical content. The highest inhibition of liposome lipid peroxidation was found with crude polysaccharides A, B and D, antioxidant activities reached ～37%. The purified fractions A1 and A2 inhibited the liposome peroxidation to ～35%. However, the radical scavenging abilities of the most active crude polysaccharides A, B and C on DPPH radicals were found in the range 80–90%, while the most active purified fractions A₃–A₆ in three or fourfold doses achieved 75–92%. The least effective tested polysaccharides succeeded 20% inhibition using both methods.     

ISOLATION AND CHARACTERIZATION OF MYELIN-RELATED MEMBRANES

Abstract— Myelin related membrane fractions from rat brain and spinal cord were isolated from material normally discarded during standard myelin isolation procedures. A fraction which floated on 0.32 M-sucrose (F) and the material released after subjecting the myelin fraction to osmotic shock at two stages in the purification (W₁ and W₂) were characterized. These fractions were subjected to subfractionation on three step discontinuous sucrose gradients. Morphologically, the heavier subfrac-tions of W₁ and W₂ were shown to consist mainly of single membranes and vesicles. Sodium dodecyl sulphate (SDS) polyacrylamide gel electrophoresis showed that, relative to myelin, proteolipid and basic protein were reduced in all subfractions, while the high molecular weight proteins were increased. The specific activity of 2′,3′-cyclic nucleotide 3′-phosphohydrolase (CNP) was up to 2-fold higher than that of myelin in the heavier subfractions of W₁ and W₂. The major myelin-associated glycoprotein was also increased in these subfractions as determined by periodic acid-Schiff staining. Differential centrifugation of the initial tissue homogenate to remove microsomes prior to myelin isolation gave rise to W₁ and W₂ subfractions with a CNP specific activity 3–4 times that of myelin. The high molecular weight proteins and glycoproteins were enriched in these microsome-depleted subfractions, but were qualitatively similar to those of myelin. Some of the membranes in these fractions may be derived from the continuum between the plasma membrane of the oligodendrocyte and compact myelin. Fraction F consisted of small membrane fragments and many vesicles, and was particularly deficient in proteolipid. The specific activity of CNP in fraction F was about the same as myelin, while the major myelin associated glycoprotein could not be detected. Fraction F from normal CNS tissue appears to be similar to the floating fractions previously isolated in larger amounts from pathological brain undergoing edematous demyelination.