Age changes of structural state of synaptic membranes of brain

In the brain synaptic membranes from old rats (24-26 months) in comparison with the mature ones (6-7 months) an increase was shown in disintegration rate with DDS Na, mobility of 5-, 16-doxyl-stearate spin probes and in thermosensitivity of acetylcholinesterase. The total number of SH-groups decreased. While protein composition remained constant lysophosphatidylcholine and saturated fatty acid content in old animals increased. The age-dependent structural rearrangement of synaptic membranes is suggested.     

Structural state of rat liver mitochondrial and microsomal membranes in aging and after treatment with thyroxine

Rotation mobility of stearic acid spin labelling in mitochondria and microsomes of 24 months old rats is shown to decrease in comparison with that of 1 month rats. This decrease correlates with an increase in the free cholesterol content in membranes. The phospholipid composition is practically unchanged. With age the osmoresistance of organelles decreases and the cryoresistance increases, supporting indirectly the existence of structural changes in membranes with ageing. The most pronounced activation of NADPH-cytochrome C reductase in the microsomal membrane after the treatment with triton X-100 is observed in case of old animals. The thyroxine treatment of old rats causes a "rejuvenative" effect on the structural state of mitochondrial and microsomal membranes, evidencing for the important role of hormonal regulation in mechanisms of their age rearrangement.     

Cross-linking of SH-groups in the erythrocyte membrane enhances transbilayer reorientation of phospholipids. Evidence for a limited access of phospholipids to the reorientation sites

Oxidation of erythrocyte membrane SH-groups and concomitant cross-linking of spectrin, which induce a partial loss of phospholipid asymmetry (Haest, C.W.M., Plasa, G., Kamp, D. and Deuticke, B. (1978) Biochim. Biophys. Acta 509, 21-32) are now shown to result in a remarkable increase of the rates of transbilayer reorientation of exogenously incorporated lysophospholipids. Reorientation of both, neutral lysophosphatidylcholine and of negatively charged lysophosphatidylserine is enhanced. A decrease of the activation energy of the reorientation process as well as quantitative changes of the dependence of reorientation on the lysophosphatidylcholine and cholesterol content of the membrane indicate formation of new reorientation sites or modification of existing sites. A common mechanism may underly the formation of reorientation sites and the occurrence of leaks for small solutes (Deuticke, B., Poser, B., Lütkemeier, P. and Haest, C.W.M. (1983) Biochim. Biophys. Acta 731, 196-210) subsequent to oxidation of membrane SH-groups. Whereas exogenous lysophospholipids completely equilibrate between the two lipid layers regardless of the extent of oxidation of SH-groups, endogenous inner layer phospholipids become available for reorientation in a graded way. Native phospholipid asymmetry is therefore not the result of a low transbilayer mobility of phospholipids, but probably due to a lack of access of inner layer phospholipids to the reorientation sites.     

The effect of antimembrane testicular antibodies on Na+, K(+)-ATPase activity in the testicles of rats of different ages]

The effect of large and small doses of rabbit antibodies specific to plasma membranes of the rat testicle cells has been studied in the experiments on Wistar rats of three age groups (preadolescent--aged 20 days, puberal--aged 5-7 months and old--aged 24-26 months). It is stated that incubation of plasma membranes by IgG fraction isolated from antimembrane testicular serum (IgG-ATCSm) in a large dose (43 g of protein G per 125 g of protein of membrane fraction) caused statistically reliable inhibition of Na+, K(+)-ATPase activity in the membranes of testicle cells of puberal and old rats. Preadolescent rats exhibit only a tendency to decrease the activity of this enzyme. Incubation of plasma membranes of testicle cells in rats of different age by small doses of IgG-ATCSm (0.43 g of protein G per 125 g of membrane protein) induced a statistically reliable increase of Na+, K(+)-ATPase activity in puberal and old animals and its slight increase in preadolescent rats. The IgG fraction isolated from normal rabbit serum (IgG-NRS) exerted a less pronounced effect on Na+, K(+)-ATPase activity parallel with retention of a tendency to a decrease of activity under the influence of large doses of the drug and to an increase with introduction of small doses.     

Mechanism of human erythrocyte hemolysis induced by short-chain phosphatidylcholines and lysophosphatidylcholine

The incorporation and accumulation of a certain amount of short-chain phosphatidylcholine or lysophosphatidylcholine into lipid bilayers of erythrocyte membranes is the first step causing membrane perturbation in the process of hemolysis. Accumulation of dilauroylglycerophosphocholine into membranes makes human erythrocytes "permeable cells"; Ions such as Na+ or K+ can permeate through the membrane, though large molecules such as hemoglobin can not. The "pore" formation was partially reproduced in liposomes prepared from lipids extracted from human erythrocyte membranes; C12:0PC induced the release of glucose from liposomes but did not significantly induce the release of dextran. It was suggested that the phase boundary between dilauroylglycerophosphocholine and the host membrane bilayer or dilauroylglycerophosphocholine rich domain itself behaves as "pores." Erythrocytes could expand to 1.5 times the original cell volume without any appreciable hemolysis when incubated with C12:0PC at 37 degrees C. The capacity of the erythrocytes to expand was temperature dependent. The capacity may play an important role in the resistance of the cells against lysis. The "permeable cell" stage could be hardly observed when erythrocytes were treated with didecanoylglycerophosphocholine and lysophosphatidylcholine. Perturbation induced by accumulation of didecanoylglycerophosphocholine or lysophosphatidylcholine may cause non specific destruction of membranes rather than formation of a kind of "pore."     

Age specificity of lipid fluidity in the sarcoplasmic reticulum of the rat heart

The lipid fluidity in heart sarcoplasmic reticulum membranes prepared from adult (12 mo.) and old (24 mo.) rats has been measured by the fluorescence probe (DPPH) and spin probe (5NS) methods at 22 and 37 degrees C. The lipid fluidity in the old rat membranes is higher than that in the adult rat ones. It has been suggested that this difference is caused by age lowering in reliability of membrane fluidity stabilization systems.     

Effects of cold water swimming on blood rheological properties and composition of fatty acids in erythrocyte membranes of untrained older rats

This is the first report on the effects of a single bout of swimming to exhaustion in cold water on rat erythrocyte deformability, aggregation and fatty acid composition in erythrocyte membranes. The results indicate that there was a significant decrease in body temperature of experimental rats swimming in water at 4 degrees C and 25 degrees C when compared to the control. Erythrocyte aggregation indices did not change after swimming in water at 4 degrees C whereas erythrocyte deformability increased at shear stress 1,13 [Pa] and 15,96 [Pa]. Physical effort performed in water at 4 degrees C when compared to the control group resulted in an increase in monounsaturated and polyunsaturated n-3 fatty acid content in erythrocyte membranes that influenced the increase in their fluidity and permeability even though that of polyunsaturated n-6 fatty acids decreased. Physical effort performed in 25 degrees C water resulted in an increase in saturated fatty acid content and a decrease in all polyunsaturated fatty acids and polyunsaturated n-6 fatty acids when compared to the control group. Swimming of untrained old rats in cold water affected rheological properties oferythrocytes in a negligible way while changes in the fatty acid composition of erythrocyte membranes were more pronounced.     

Synaptic plasma membrane-bound acetylcholinesterase activity is not affected by docosahexaenoic acid-induced decrease in membrane order

We investigated the effect of administration of docosahexaenoic acid (C22:6, n-3; 300 mg/kg.day, for 12 weeks) on the degree of membrane order and membrane-bound acetylcholinesterase activity of the cerebral cortex synaptic plasma membrane in male Wistar rats. Docosahexaenoic acid levels in the synaptic plasma membrane increased significantly by 16% over levels in control rats concomitant with an increase in the molar ratio of docosahexaenoic acid to arachidonic acid. Synaptic plasma membrane order, assessed by 1,6-diphenyl-1,3,5-hexatriene, which measures order of the bulk internal hydrophobic lipid core, decreased significantly in the docosahexaenoic acid-fed rats. Lateral mobility of both global and annular lipids measured by pyrene also increased. Acetylcholinesterase activity of the synaptic plasma membrane was unaffected, and synaptic plasma membrane phospholipid contents increased in the docosahexaenoic acid-fed rats, with a concomitant decrease in the cholesterol/phospholipid molar ratio. Lipid peroxide and reactive oxygen species, indicators of tissue oxidative stress, decreased in both the cerebral cortex synaptosome and homogenate of the docosahexaenoic acid-fed rats. Arrhenius plot showed a break point in acetylcholinesterase activity at 22 degrees C and 24 degrees C in plasma membranes from docosahexaenoic acid-fed and control rats, respectively. The present experiment indicates that chronic administration of docosahexaenoic acid does not affect synaptic acetylcholinesterase activity and evoke oxidative stress, although it increases the disorder of the global and annular lipids of rat synaptic plasma membranes.     

Age related changes in fluidity of rat renal brushborder membrane vesicles

Fluorescence anisotrophy of 1,6 diphenyl-1,3,5-hexatriene was determined in renal brushborder membranes prepared from rats 7, 14, 21 and 28 days of age, and adults, from 5 degrees C to 45 degrees C. There is a parallel relationship between temperature and mean fluorescence anisotrophy in the different age groups with a progressive decrease in fluidity with age. There is no phase transition apparent in membranes from any age group as evidenced by the lack of a fluorescence polarization "break point". There is also a linear relationship between limiting hindered anisotrophy and previously determined values for the height of the Na+-proline overshoot. This suggests that the physical characteristics of the renal brushborder membrane responsible for differences in fluidity are related to age-dependent transport alterations.     

The effect of clofibrate on the phospholipid composition of the peroxisomal membranes in mouse liver

Membranes were prepared from peroxisomes which had been isolated from the livers of normal mice and from mice treated with clofibrate (a hypolipidemic drug and peroxisome proliferator). Phospholipid analysis of these membranes revealed that clofibrate treatment resulted in a decrease in the membrane content of phosphatidylcholine, the most abundant phospholipid, and a concomitant increase in the amount of lysophosphatidylcholine, this latter component reaching a level of almost 6% of the total membrane phospholipid. The concentrations of other phospholipids in these membranes were not significantly altered. The parallel analysis of microsomal membranes demonstrated an analogous increase in the level of lysophosphatidylcholine following clofibrate treatment. In control experiments with microsomal membranes employing quinacrine, an inhibitor of phospholipase A2, the increased lysophosphatidylcholine concentration was still observed in clofibrate-treated animals. As well, a decrease in the proportion of microsomal phosphatidylcholine with clofibrate treatment was seen when quinacrine was used. Fatty acid analysis of the phosphatidylcholines from peroxisomal membranes showed some minor changes, including an increase in one component tentatively identified as docosahexaenoic acid, in clofibrate-treated animals. Overall, these data demonstrate that clofibrate causes a marked perturbation of the phospholipid composition of peroxisomal membranes, and are interpreted as indicating that the main site of action of the drug is the deacylation-reacylation cycle between phosphatidylcholine and lysophosphatidylcholine.     

Transport of univalent cations across the erythrocyte membrane of hypertensive rats of various ages

In the erythrocytes incubated at low temperature (3-6 degrees C), the uptake of Li+ in 6- and 16-week old spontaneously hypertensive rats (SHR) was significantly higher than in the normotensive rats (WKY) of the same age. During the incubation of cells at 37 degrees C no difference occurred in either ouabain-sensitive or ouabain-resistant fluxes of Rb+, Na+ and Li+ between the 16-week old SHR and the WKY. K+ efflux from the erythrocytes at 3 degrees C was consistently stimulated after addition to the incubation medium of 1 mmol/l Ca2+. The value of Ca2+-dependent K+-transport was significantly elevated in 16-week old SHR than in the WKY, but there was no difference in 6-week old rats. Propranolol-induced Ca2+-dependent K+ efflux from the cells at 22 degrees C was markedly higher in 6- and 16-week old SHR as compared with the WKY. The results provide a further evidence in favor of the hypothesis on the existence of a "membrane defect" in red blood cells in the SHR.     

Influence of Carbicron (O-[(2-butenoic acid)-N,N-dimethylamide-3-YL] O,O-dimethylphosphate) on some biochemical and biophysical parameters of rat liver membranes

• 1.1. Treatment of rats with carbicron induced a reduction of the phospholipids in both microsomal and plasma membranes.
• 2.2. A decrease of the structural order parameter (S_DPH) and an increase of the pyrene excimer-to-monomer fluorescence ratio (I_E/I_M) was also observed, indicating membrane fluidization.
• 3.3. The specific activity of membrane-bound phospholipase A₂ and phospholipase C were decreased in both types of membranes, whereas acyl-CoA:lysophosphatidylcholine acyltransferase activity was augmented due to carbicron treatment.

     

Lipid fluidity and composition of intestinal microvillus membranes isolated from rats of different ages

The lipid composition and fluidity of microvillus (luminal) membranes isolated from the small intestines of Fisher 344 rats aged 6, 17, and 117 weeks were compared. Lipid fluidity, as assessed by the fluorescence anisotropy of 1,6-diphenyl-1,3,5-hexatriene, was significantly greater in rats aged 6 weeks as compared to 17 or 117 weeks. A lipid thermotropic transition was observed at 17.5 +/- 1.3 degrees C in the membranes of the youngest group, approx. 5-6 degrees C lower than that of the older animals. The differences in lipid composition which account for the higher fluidity of the youngest preparations include a decreased cholesterol/phospholipid molar ratio in both the proximal and distal halves of the small intestine and, in the proximal half alone, increases in the lipid/protein ratio and double bond index. The foregoing reduction in cholesterol/phospholipid ratio derives mainly from a higher content of total phospholipid, and the increment in double bond index results from an increase in arachidonic acid residues. The results demonstrate an age-dependent decrease in fluidity of intestinal microvillus membranes in the early post-weaning period in the rat. This pattern was unlike that of the microvillus membrane p-nitrophenylphosphatase, whose specific activity declined progressively in the older age groups.     

ATP-dependent Ca2+-transporting system in the rat brain during an early period of acute radiation injury

The rate of Mg2+, Ca2+-ATPase reaction and ATP-dependent Ca2+ accumulation in a preparation of plasma membranes from brain synaptosomes increases 60 min following whole-body X-irradiation of rats with a dose of 0.21 C/kg, a calcium sensitivity of both processes being increased. A unidirectional change in their kinetics indicates the early radiosensitivity of Ca2+ transfer systems in the brain synaptosome membranes. There is an increase in the availability of SH-groups of membrane preparation proteins for SH-reagents and in the sensitivity of Mg2+, Ca2+-ATPase reaction and ATP-dependent Ca2+ accumulation to trifluoperazine, a calmodulin inhibitor. Both processes lose their ability to be activated by exogenous calmodulin. It is suggested that at an early stage of radiation affection, a change occurs in the molecular organization of the ATPase-calmodulin membrane complex in plasma membranes of rat brain synaptosomes.     

Interaction of spin-labelled phosphatidyl choline with Ca-dependent ATPase from sarcoplasmic reticulum

The interaction between 3-acyl-2-(6-doxylpalmitoyl) phosphatidyl choline used as a hydrophobic spin probe and Ca2+-dependent ATPase from sarcoplasmic reticulum membranes of rabbit and carp white skeletal muscles was studied. The spin label incorporation into ATPase preparations was performed at initial steps of ATPase isolation by incubating reticulum membranes with the spin probe in the presence of cholic acid. A comparison of the molecular mobility of the probe incorporated into ATPase preparations and into liposomes formed from ATPase phospholipids demonstrated that the presence of the protein in the membrane produces the same effect on the probe mobility as does the decrease of temperature by 10-15 degrees C. The molecular mobility of the probe in the ATPase preparation is increased during protein thermal denaturation. The breaks on the Arrhenius plots for the probe molecular mobility are revealed at the same temperatures (25 degrees for rabbit reticulum and 16 degrees for carp reticulum) as those for the ATPase activity.     

Characteristics of lipid composition and properties of the synaptic membranes of the cerebral cortex of rats of various ages

The content of cholesterol, total and individual phospholipids, fatty acid composition, level of lipid peroxidation, as well as viscosity of lipid phase of synaptic membranes isolated from the cerebral cortex were estimated in experiments on adult and old male rats. The content of cholesterol and cholesterol phospholipids ratio were found to increase with age. The total content of phospholipids remained unchanged during ageing, while their composition varied. An increase in the content of minor forms of phospholipids, i.e. phosphatidylserine and phosphatidylinositol, in the sphingomyelin/phosphatidyl ethanolamine ratio and, especially, in the content of lysophosphatidylcholine was found in old vs adult rats. No age-related changes were found in the viscosity of the lipid phase of synaptic membranes with purene used as a fluorescent probe.     

Effect of temperature on Ca-ATPase from sarcoplasmic reticulum membranes: ESR studies

Using spin-labeled fatty acid derivatives and maleimide, the effect of temperature on the structural state of various parts of the lipid bilayer of sarcoplasmic reticulum (SR) membranes and the segmental motion of the Ca-ATPase molecule were investigated. The mobility of the spin probes localized in the hydrophobic zone and the outer part of the SR membrane was shown to increase with a rise in temperature from 4 to 44 degrees C, the temperature of 20 degrees C being critical for these changes. In the presence of ATP, critical changes in the spin probe mobility occur at lower temperatures, while in the presence of ATP and Ca2+ they are observed at 20 degrees C for a spin probe localized in the outer part of the SR membrane. The mobility of a spin probe localized in the hydrophobic part of the membrane increases linearly with a rise in temperature. In the absence of ligands, the segmental motion of Ca-ATPase changes linearly within a temperature range of 10-30 degrees C. However, when ATP alone or ATP and Ca2+ are simultaneously added to the incubation mixture, the protein mobility undergoes critical changes at 20 degrees C. The Arrhenius plots for ATPase activity and Ca2+ uptake rate in SR membrane preparations also have a break at 20 degrees C. It is assumed that changes in the structural state of membrane lipids produce conformational changes in the Ca-ATPase molecule; the enzyme seems to be unsensitive to the structural state of the membrane lipid matrix in the absence of the ligands.     

Thermal transitions in erythrocyte membranes revealed by their permeability to ANS

A number of breaks were recorded on the curve of Arrhenius relationship of the rate constant of the dye 1-anilino-8-naphthalenesulphonate sodium salt (ANS) input into human erythrocytes of 20, 28, 36, 42 and 46 degrees C. Variations in the values of activation energies within the temperature range of 28-36 degrees and 42-46 degrees C obtained in various blood samples allow to consider these temperatures as those at which structural changes of the membranes take place. The values of activation energy of the process for temperature "conformers" of the erythrocyte membrane are 12(10-20 degrees C), 26.5 (20-28 degrees C), 34.2(36-42 degrees C) and 47 kcal/mol (t is greater than 46 degrees C). Within the temperature range of 28-36 degrees and 42-46 degrees C an irreversible decrease of permeability to ANS of the erythrocyte ghost after their incubation for 10 min at increased temperatures were observed. Thus the temperature regions of the change in erythrocyte permeability correspond to those at which the resealing of ghost takes place. The break in Arrhenius graph at 20 degrees C seems to characterize a highly cooperative "point" transition. The lipid nature of the initiator of structural transition within 28-36 degrees C is proved by a sharp increase of the permeability of liposomes prepared from erythrocyte membrane lipids to ANS at 28 degrees C. The nature of the initiators of two other thermal transitions is discussed.     

Transverse distribution and movement of lysophosphatidylcholine in sarcoplasmic reticulum membranes as determined by 13C NMR and lysophospholipase.

1. The transverse distribution of 1-palmitoyl-sn-glycero-3-phospho-N-[Me-13C]-choline in vitro incorporated in sarcoplasmic reticulum has been measured by means of 13C NMR and DyCl3 as an impermeable shift reagent. 2. Lysophosphatidylcholine added to the membranes equilibrates within 30 min at 20 degrees C between outer and inner membrane leaflet so that 42% is located in the inner leaflet. 3. Lysophosphatidylcholine diffuses back from the inner leaflet to the outer upon lysophospholipase action on the outer lysophosphatidylcholine pool.     

Age-related decline in chaperone-mediated autophagy

Intracellular protein degradation rates decrease with age in many tissues and organs. In cultured cells, chaperone-mediated autophagy, which is responsible for the selective degradation of cytosolic proteins in lysosomes, decreases with age. In this work we use lysosomes isolated from rat liver to analyze age-related changes in the levels and activities of the main components of chaperone-mediated autophagy. Lysosomes from "old" (22-month-old) rats show lower rates of chaperone-mediated autophagy, and both substrate binding to the lysosomal membrane and transport into lysosomes decline with age. A progressive age-related decrease in the levels of the lysosome-associated membrane protein type 2a that acts as a receptor for chaperone-mediated autophagy was responsible for decreased substrate binding in lysosomes from old rats as well as from late passage human fibroblasts. The cytosolic levels and activity of the 73-kDa heat-shock cognate protein required for substrate targeting to lysosomes were unchanged with age. The levels of lysosome-associated hsc73 were increased only in the oldest rats. This increase may be an attempt to compensate for reduced activity of the pathway with age.