The purification of plasma membranes from WI-38 fibroblasts: effects of ageing on their composition

A three-step method for the purification of plasma membranes from WI-38 fibroblasts was developed thus allowing the recovery of 36--44% of the plasma membrane. Except in the case of galactosyltransferase, the activity of the contaminating enzymes was very low. Morphological observations confirm the presence of a homogeneous population of vesicles. Preparations obtained from young and old cell cultures were compared for their enzymatic and protein contents. With ageing the activity of 5-nucleotidase significantly increases whereas that of alkaline phosphodiesterase I decreases. Out of the 26 components detected after sodium dodecyl sulphate polyacrylamide gel electrophoresis, four decreased but only one increased. Cellular ageing seems to fulfil a specific and localized effect on the plasma membrane.     

Seed ageing-induced inhibition of germination and post-germination root growth is related to lower activity of plasma membrane H(+)-ATPase in maize roots

Seeds of most crops can be severely damaged and lose vigor when stored under conditions of high humidity and temperature. The aged seeds are characterized by delayed germination and slow post-germination growth. To date, little is known about the physiological mechanisms responsible for slow root growth of seedlings derived from aged seeds. Plasma membrane H(+)-ATPase is a universal H(+) pump in plant cells and is involved in various physiological processes including the elongation growth of plant cells. In the present study, we investigated the effect of a mild seed ageing treatment on plasma membrane H(+)-ATPase activity of seedling roots. Maize (Zea mays L.) seeds with 17% water content were aged at 45 degrees C for 30h. The aged seeds showed a 20% reduction in germination. Seedlings from aged seeds grew slowly during an experimental period of 120h after imbibition. Plasma membranes of maize seedling roots were isolated for investigation in vitro. Plasma membrane H(+)-ATPase (EC 3.6.3.6) activity was 14% lower for seedling roots developed from aged seeds as compared to control seeds. Protein gel immunoblotting analysis demonstrated that the reduced activity of plasma membrane H(+)-ATPase was attributed to a decrease in steady-state protein concentration of this enzyme. In conclusion, seed ageing causes a lower steady-state enzyme concentration of the H(+)-ATPase in the plasma membrane, which is related to slow germination and post-germination growth of seedling roots.     

Isolation of plasma membranes from mung bean hypocotyl sections by two-phase partitioning: suitability of the technique for ageing tissues

This paper discusses the application of a particular two-phase partitioning system to the isolation of plasma membranes from heterogeneous starting material, differing in physiological age. Plasma membranes were isolated from hypocotyl segments of mung beans ( Vigna radiata L. Wilczek) on four successive days in order to examine the variation caused by ageing of the seedling. Additionally, the segments were cut at different positions of the hypocotyl to measure variation caused by position-related ageing. To assess purity and degree of contamination of the plasma membrane-enriched preparations, a series of membrane enzyme markers were screened for all isolated fractions. Glucan synthetase II activities were enriched in the plasma membrane fractions, but enrichment and recovery became less pronounced with increasing age. Plasma membrane ATPase activity affected by VO₄^3-, Ca²⁺ and K⁺ was similar in all segments throughout the time-course of the experiment (4 days). However, control ATPase activity varied with segment origin: the physiologically oldest segments showed only 75% activity compared to the youngest ones. K_m and V_max values indicated a smaller proportion of active enzyme but higher substrate affinity as the age of the segments increased. Contamination by intracellular membranes was minimal and unrelated to tissue age.     

The Effect of Vanadate on Phosphate Transport in Aged Potato Tuber Tissue 2Solarium tuberosum)

The effect of orthovanadate on the uptake of phosphate by agedpotato tuber tissue was investigated to study the relationshipwith plasma membrane ATPase activity. Vanadate inhibited therate of phosphate uptake by aged discs with a maximum effectat 500 µM (58% inhibition). When vanadate was added tothe ageing medium for 24 h, the subsequent rate of phosphateuptake was also markedly decreased (68% inhibition). The resultsshow that the inhibition by vanadate was not due to enhancedleakage of phosphate nor to a non-specific toxic effect. Furthermore,complementary experiments with erythrosin B and molybdate wereconsistent with the hypothesis that vanadate acts specificallyon the plasma membrane ATPase and that this enzyme is involvedin maintaining the driving force for active uptake of phosphate(via co-transport with protons) by storage cells of potato tubers. Key words: Proton-phosphate co-transport, vanadate, plasma membrane ATPase, unloading     

Identification of lysosomal sialidase NEU1 and plasma membrane sialidase NEU3 in human erythrocytes

The sialylation level of molecules, sialoglycoproteins and gangliosides, protruding from plasma membranes regulates multiple facets of erythrocyte function, from interaction with endothelium to cell lifespan. Our results demonstrate that: (a) Both sialidases NEU1 and NEU3 are present on erythrocyte plasma membrane; (b) NEU1 is kept on the plasma membrane in absence of the protective protein/cathepsin A (PPCA); (c) NEU1 and NEU3 are retained on the plasma membrane, as peripheral proteins, associated to the external leaflet and released by alkaline treatments; (d) NEU1 and NEU3 are segregated in Triton X‐100 detergent‐resistant membrane domains (DRMs); (e) NEU3 shows activity also at neutral pH; and (f) NEU1 and NEU3 are progressively lost during erythrocyte life. Interestingly, sialidase activity released from erythrocyte membranes after an alkaline treatment preserves its functionality and recognizes sialoglycoproteins and gangliosides. On the other hand, the weak anchorage of sialidases to the plasma membrane and their loss during erythrocyte life could be a tool to preserve the cellular sialic acid content in order to avoid the early ageing of erythrocyte and processes of cell aggregation in the capillaries. J. Cell. Biochem. 114: 204–211, 2012. © 2012 Wiley Periodicals, Inc.     

Membrane-bound 5'-nucleotidase inhibitor in Ehrlich ascites tumour cells and newborn mouse liver

5'-Nucleotidase activity in Ehrlich ascites tumour cells was undetectable. The cell homogenate, when mixed with adult mouse liver homogenate, inhibited the 5'-nucleotidase activity of the latter, without affecting its p-nitrophenyl phosphate-hydrolysing activity. The inhibitor activity was enriched (6.8-fold) in a membrane fraction which was enriched in (Na+ + K+)-ATPase (14-fold) and alkaline phosphatase (8-fold). 5'-Nucleotidase activity in this membrane fraction could be detected only after separating the inhibitor activity from the enzyme on Sephadex G-50. The inhibitor activity was decreased by 27% when heat-treated, 33% when treated with 6 M urea and was almost completely lost when treated with trypsin. It was dialysable from a tubing with a molecular exclusion limit of 10,000, but was retained in a tubing with an exclusion limit of 3000. From these results we conclude that a small molecular weight protein inhibitor(s) of 5'-nucleotidase is present in the plasma membrane of Ehrlich ascites tumour cells. Also, the presence of such an inhibitor in the newborn mouse liver but not in the adult liver suggests that it may have some role in cellular ageing and cancer.     

Age-related increase in xanthine oxidase activity in human plasma and rat tissues

This study assessed the role of xanthine oxidase in vascular ageing. A positive correlation between xanthine oxidase activity and age was found in human plasma. Similar results were found in rat plasma. Xanthine oxidase expression and activity in homogenates from the aortic wall were significantly higher in samples from old rats than in their young counterparts (p < 0.01). In rat skeletal muscle homogenates both xanthine oxidase expression and activity showed a similar age-related profile. Superoxide production by xanthine oxidase in aortic rings was higher in aged rats. Uric acid, the final product of xanthine oxidase has been proposed as a risk factor for coronary heart disease and an independent marker of worse prognosis in patients with moderate-to-severe chronic heart failure. These results give a possible explanation for this correlation and underscore the role of xanthine oxidase in ageing.     

Membrane-bound 5′-nucleotidase inhibitor in Ehrlich ascites tumour cells and newborn mouse liver

5′-Nucleotidase activity in Ehrlich ascites tumour cells was undetectable. The cell homogenate, when mixed with adult mouse liver homogenate, inhibited the 5′-nucleotidase activity of the latter, without affecting is p-nitrophenyl phosphate-hydrolysing activity. The inhibitor activity was enriched (6.8-fold) in a membrane fraction which was enriched in (Na⁺ + K⁺)-ATPase (14-fold) and alkaline phosphatase (8-fold). 5′-Nucleotidase activity in this membrane fraction could be detected only after separating the inhibitor activity from the enzyme on Sephadex G-50. The inhibitor activity was decreased by 27% when heat-treated, 33% when treated with 6 M urea and was almost completely lost when treated with trypsin. It was dialysable from a tubing with a molecular exclusion limit of 10 000, but was retained in a tubing with an exclusion limit of 3000. From these results we conclude that a small molecular weight protein inhibitor(s) of 5′-nucleotidase is present in the plasma membrane of Ehrlich ascites tumour cells. Also, the presence of such an inhibitor in the newborn mouse liver but not in the adult liver suggests that it may have some role in cellular ageing and cancer.     

Age-related increase in xanthine oxidase activity in human plasma and rat tissues

This study assessed the role of xanthine oxidase in vascular ageing. A positive correlation between xanthine oxidase activity and age was found in human plasma. Similar results were found in rat plasma. Xanthine oxidase expression and activity in homogenates from the aortic wall were significantly higher in samples from old rats than in their young counterparts (p<0.01). In rat skeletal muscle homogenates both xanthine oxidase expression and activity showed a similar age-related profile. Superoxide production by xanthine oxidase in aortic rings was higher in aged rats. Uric acid, the final product of xanthine oxidase has been proposed as a risk factor for coronary heart disease and an independent marker of worse prognosis in patients with moderate-to-severe chronic heart failure. These results give a possible explanation for this correlation and underscore the role of xanthine oxidase in ageing.     

Enhanced seed viability and lipid compositional changes during natural ageing by suppressing phospholipase Dα in soybean seed

Changes in phospholipid composition and consequent loss of membrane integrity are correlated with loss of seed viability. Furthermore, phospholipid compositional changes affect the composition of the triacylglycerols (TAG), i.e. the storage lipids. Phospholipase D (PLD) catalyses the hydrolysis of phospholipids to phosphatidic acid, and PLDα is an abundant PLD isoform. Although wild‐type (WT) seeds stored for 33 months were non‐viable, 30%–50% of PLDα‐knockdown (PLD‐KD) soybean seeds stored for 33 months germinated. WT and PLD‐KD seeds increased in lysophospholipid levels and in TAG fatty acid unsaturation during ageing, but the levels of lysophospholipids increased more in WT than in PLD‐KD seeds. The loss of viability of WT seeds was correlated with alterations in ultrastructure, including detachment of the plasma membrane from the cell wall complex and disorganization of oil bodies. The data demonstrate that, during natural ageing, PLDα affects the soybean phospholipid profile and the TAG profile. Suppression of PLD activity in soybean seed has potential for improving seed quality during long‐term storage.     

Modifications in the activities of membrane-bound enzymes during in vivo ageing of human and rabbit erythrocytes

Erythrocyte plasma membranes were isolated from a homogeneous population of human or rabbit erythrocytes fractionated into classes representing young, middle-age and old age in vivo. Lipid analyses of human erythrocyte plasma membranes reveal a decrease of the cholesterol to phospholipid molar ratio, followed by a marked decrease in the activities of the membrane-bound enzymes (Na+,K+)-stimulated ATPase, acetylcholinesterase and NAD+ase from young to old age. Such changes were not observed between young and middle-age rabbit erythrocytes. Incubation of rabbit young erythrocytes with phosphatidylcholine vesicles (liposomes) to obtain partial depletion of their membrane cholesterol, indicated that cholesterol depletion causes a statistically significant decrease of the (Na+,K+)-stimulated ATPase and acetylcholinesterase activities, but the NAD+ase activity remained almost unchanged. The biological significance of these data are discussed in terms of the differences and modifications in the interaction of membrane-bound enzymes with membrane lipids during in vivo ageing of erythrocytes.     

Accelerated ageing and subsequent imbibition affect seed viability and the efficiency of antioxidant system in macaw palm seeds

Accelerated ageing is an accurate test indicator of seed vigor and storability that helps to understand the mechanisms of cellular and biochemical deterioration that occur during seed ageing. This study was carried out to elucidate the mechanisms of ageing in macaw palm embryos. Seeds were artificially aged during 4, 8 and 12 days at 45 °C and 100% relative humidity. After ageing, seeds were tested for viability (tetrazolium), electrical conductivity, lipid peroxidation (MDA) and hydrogen peroxide (H₂O₂) content. Part of the aged seeds was imbibed for 8 days and then determined the hydrogen peroxide content and the activity of antioxidant system enzymes (superoxide dismutase, catalase and glutathione reductase). Ageing reduced the embryo viability from 8 days of treatment and increased malondialdehyde content (MDA) and solute leakage. Hence, membrane permeability correlated with both loss of viability and lipid peroxidation. Imbibition after ageing significantly increased H₂O₂ content along with superoxide dismutase activity. Catalase activity was significantly higher than control in embryos aged from 8 days and imbibed, and glutathione reductase activity did not change. Our results suggest that macaw palm seed deterioration during accelerated ageing is closely related to lipid peroxidation, and that enzymatic antioxidant system is not completely efficient in reducing reactive oxygen species after imbibition, a critical phase to germination. Moreover, accelerated ageing test can be used as a reliable model to understand the mechanisms involved in palm seeds deterioration.     

Evidence for the presence of carbonic anhydrase in the plasma membrane of rat hepatocytes

The cellular distribution of carbonic anhydrase is a key characteristic for the role of the enzyme in cell function. In several epithelia involved in bicarbonate transport this enzyme is located in the plasma membrane. Because bicarbonate secretion is an important mechanism in bile formation by the liver, we investigated the presence of carbonic anhydrase activity in isolated plasma membranes from rat hepatocytes. Carbonic anhydrase activity was enriched 1.79-fold in plasma membrane preparations. This activity was inhibited by acetazolamide and activated by Triton X-100, but was insensitive to Cl- or CNO-. It is highly unlikely that the low contamination of cytoplasm and intracellular membranes could account for the presence of carbonic anhydrase activity in plasma membrane preparations. Moreover, the results from resuspension/washing of plasma membrane fractions in ionic media suggest an absence of soluble carbonic anhydrase adsorption upon plasma membrane. Accordingly, the present findings provide strong evidence for the presence of carbonic anhydrase in the plasma membrane of rat hepatocytes.     

RNases and nucleases in embryos and endosperms from naturally aged wheat seeds stored in different conditions

Temperature and moisture content are particularly important factors influencing the longevity of seeds, and therefore the ageing of seeds is closely tied to storage conditions. The ageing process is characterised by many physiological and biochemical changes: membranes tend to leak, enzymes lose catalytic activity, and chromosomes accumulate mutations. Since viability loss is also associated with the breakdown of nucleic acids, the aim of the study was to determine whether the damage induced by ageing could be associated with changes in the activity of RNases and nucleases in embryos and endosperms of differently stored wheat seeds. In order to better characterise seed conditions, the damage to membranes during seed ageing was evaluated by measuring the conductivity of the soaking solution during imbibition, and by using the Evans Blue colorant; lipid peroxidation was also recorded. RNases and nucleases were studied by SDS-PAGE and activity staining. Ageing of seeds stored in a dry state involved a progressive loss of membrane integrity, which increased with the degree of ageing, while lipid peroxidation remained unchanged. Changes in nucleolytic enzyme activity were recorded in embryos: a decrease in RNases and an increase in nucleases. In the endosperm compartment there were no significant differences in ribonuclease and nuclease patterns during seed ageing. Moreover, neutral RNases were absent in endosperms of dry seeds and were activated following imbibition. Present studies reveal that embryos and endosperms have different enzymatic patterns, thus highlighting that the two seed compartments age independently. A different nucleolytic pattern was present in seeds of comparable viability and membrane damage, which were stored differently, and nuclease metabolism was subject to regulation according to both ageing and the length of the storage period.     

One-step isolation of plasma membrane proteins using magnetic beads with immobilized concanavalin A

We have developed a simple method for isolating and purifying plasma membrane proteins from various cell types. This one-step affinity-chromatography method uses the property of the lectin concanavalin A (ConA) and the technique of magnetic bead separation to obtain highly purified plasma membrane proteins from crude membrane preparations or cell lines. ConA is immobilized onto magnetic beads by binding biotinylated ConA to streptavidin magnetic beads. When these ConA magnetic beads were used to enrich plasma membranes from a crude membrane preparation, this procedure resulted in 3.7-fold enrichment of plasma membrane marker 5′-nucleotidase activity with 70% recovery of the activity in the crude membrane fraction of rat liver. In agreement with the results of 5′-nucleotidase activity, immunoblotting with antibodies specific for a rat liver plasma membrane protein, CEACAM1, indicated that CEACAM1 was enriched about threefold relative to that of the original membranes. In similar experiments, this method produced 13-fold enrichment of 5′-nucleotidase activity with 45% recovery of the activity from a total cell lysate of PC-3 cells and 7.1-fold enrichment of 5′-nucleotidase activity with 33% recovery of the activity from a total cell lysate of HeLa cells. These results suggest that this one-step purification method can be used to isolate total plasma membrane proteins from tissue or cells for the identification of membrane biomarkers.     

Reduction of cyclic AMP phosphodiesterase activity of several subcellular fractions of rat brain after pretreatment with phospholipase C

Cyclic AMP phosphodiesterase (PDE) activity was assayed in the plasma membrane, mitochondrial and microsomal fractions of rat brain. The specific activity of the enzyme was highest in the plasma membrane fraction followed by mitochondrial and then the microsomal fraction. Phosphodiesterase activity of all three fractions was reduced after pretreatment with lecithinase C (PCase) from Clostridium perfringens but less markedly affected by the pretreatment with sphingomyelinase (SMase) from human placenta. The PDE activity of the plasma membrane fraction was more sensitive to PCase treatment compared with the other two particulate fractions, which showed only a slight loss of activity. Temperature seemed to affect PDE activity of the plasma membrane. The enzyme was quite stable at 30 degrees C but its activity dropped by approximately 46% at 37 degrees C after 90 min of incubation. Pretreatment of the plasma membrane at 30 degrees C with PCase at a concentration of more than 5 U caused a marked loss of PDE activity and the decrease in activity reached a plateau at concentrations above 10 U.     

Evaluation of methods for the isolation of plasma membranes displaying guanosine 5'-triphosphate-dependence for the regulation of adenylate cyclase activity: potential application to the study of other guanosine 5'-triphosphate-dependent transduction systems

The GTP-dependence for stimulatory and inhibitory regulation of plasma membrane adenylate cyclase activity was measured in plasma membrane fractions isolated from a variety of cell types (platelets, lymphocytes, PC12 cells, GH3 cells, NBP2 cells, and hepatocytes). This report shows that the isolation of plasma membranes for the study of GTP-dependent adenylate cyclase activity was, for some cells, enhanced by the exposure of the cells to glycerol prior to cell lysis. The isolation of plasma membranes from other cells, which did not appear to be sensitive to glycerol pretreatment, was enhanced by the removal of heavy particulate matter prior to fractionation of the cell lysate. The regulation of enzyme activity by various agents was found to be dependent upon the presence of (exogenous) GTP to varying degrees, indicating variable contamination of membrane preparations with GTP. It is concluded that (i) exposure of platelets and lymphocytes to glycerol prior to cell lysis decreases subsequent contamination of the plasma membrane preparation with GTP, and (ii) although glycerol pretreatment of other cells does not ensure the subsequent isolation of plasma membrane adenylate cyclase activity displaying high requirements for (exogenous) GTP, it is a reasonable first approach to be used during the development of procedures for the isolation of plasma membranes.     

Isolation of microvillus plasma membranes from suckling-rat intestine. The influence of premature induction of digestive enzymes by injection of cortisol acetate

1. Cortisone administration to suckling rats leads prematurely to induction of enzymes of the intestinal microvillus plasma membrane and lengthening of the intestinal microvilli. To investigate the membrane changes that might be involved, a method for the isolation of a fraction enriched with microvillus plasma membrane was developed in suckling rats. Plasma-membrane fractions were compared from 13-day-old control rats and from 13-day-old rats given cortisol acetate by subcutaneous injection for 3 days. 2. After cortisol injection, the activity of maltase, trehalase, sucrase and leucyl beta-naphthylamidase increased markedly, and to the same extent, in intestinal homogenates and plasma-membrane preparations. Purification, and recovery of five marker enzymes with respect to homogenate activity, and recovery of protein, were similar for both membrane preparations, particularly after correction for non-membrane activity, which was high in suckling rats and affected by cortisol. 3. In material released from the plasma membrane by digestion with papain, maltase protein was increased after cortisol injection at least as much as maltase activity. Sucrase activity increased at least 200-fold, and this increase was associated with the appearance of a new sucrase band on polyacrylamide-gel electrophoresis. 4. Sodium dodecyl sulphate electrophoresis of plasma-membrane proteins revealed at least four additional macromolecules after cortisol injection. Concurrently several proteins disappeared from the plasma membrane. The added proteins appeared in the main to be removed from the plasma membrane by papain, whereas the deleted proteins were in the papain-resistant fraction. 5. Enzymic stimulation induced by cortisol acetate in the suckling-rat plasma membrane therefore appears to involve the addition of new proteins, rather than activation of proteins in situ. Deletion of proteins from the membrane during induction of hydrolytic enzymes may reflect other phenomena such as protein reorganization associated with the change in microvillus shape.     

Modeling the effect of stretch and plasma membrane tension on Na+-K+-ATPase activity in alveolar epithelial cells

While a number of whole cell mechanical models have been proposed, few, if any, have focused on the relationship among plasma membrane tension, plasma membrane unfolding, and plasma membrane expansion and relaxation via lipid insertion. The goal of this communication is to develop such a model to better understand how plasma membrane tension, which we propose stimulates Na(+)-K(+)-ATPase activity but possibly also causes cell injury, may be generated in alveolar epithelial cells during mechanical ventilation. Assuming basic relationships between plasma membrane unfolding and tension and lipid insertion as the result of tension, we have captured plasma membrane mechanical responses observed in alveolar epithelial cells: fast deformation during fast cyclic stretch, slower, time-dependent deformation via lipid insertion during tonic stretch, and cell recovery after release from stretch. The model estimates plasma membrane tension and predicts Na(+)-K(+)-ATPase activation for a specified cell deformation time course. Model parameters were fit to plasma membrane tension, whole cell capacitance, and plasma membrane area data collected from the literature for osmotically swollen and shrunken cells. Predictions of membrane tension and stretch-stimulated Na(+)-K(+)-ATPase activity were validated with measurements from previous studies. As a proof of concept, we demonstrate experimentally that tonic stretch and consequent plasma membrane recruitment can be exploited to condition cells against subsequent cyclic stretch and hence mitigate stretch-induced responses, including stretch-induced cell death and stretch-induced modulation of Na(+)-K(+)-ATPase activity. Finally, the model was exercised to evaluate plasma membrane tension and potential Na(+)-K(+)-ATPase stimulation for an assortment of traditional and novel ventilation techniques.