A mutual inhibitory effect on absorption of sphingomyelin and cholesterol

Several studies have shown that there is a strong physical interaction between cholesterol and sphingomyelin (SM). The critical factor is thought to be the high degree of saturation in the very long acyl chains of SM. In this study we examined the effects of SM on cholesterol absorption in the rat and compared them with those of phosphatidylcholine (PC). Cholesterol absorption was studied by use of the dual-isotope plasma ratio method. We also studied the effect of sterols on the fecal excretion of undigested SM and its metabolites after a single oral meal of (3)H-dihydrosphingosine-labeled SM. When cholesterol was given dissolved in soybean oil, without addition of SM or other phospholipids, absorption was 68 +/- 12% in the rat intestine. As a general feature the absorption was less efficient from the cholesterol/phospholipid dispersions. In dispersions with cholesterol and SM, the lowest cholesterol absorption (9 +/- 2%) was seen with a cholesterol:SM molar ratio of 1:1. With dispersions of cholesterol and different PC substrates the absorption of cholesterol was lower with saturated PC (16 +/- 8%) than with soybean-PC (22 +/- 4%) or dioleoyl PC (23 +/- 8%). Uptake of SM in the rat intestine was reduced by sterols. For example, percentage recovery of (3)H radioactivity in fecal lipids was 38 +/- 8% when SM was given with cholesterol and 16 +/- 3% without any sterol. One third of the radioactivity in feces was present as ceramide. Sitostanol had the same effect on uptake of SM as cholesterol. This study shows that when rats are fed mixtures of SM and cholesterol the intestinal uptake of both lipids is decreased. By feeding mixtures of SM and sterols the exposure of the colon to ceramide can be increased.     

Role of the phospholipid environment in modulating the activity of the rat brain synaptic plasma membrane Ca2(+)-ATPase

The role of the phospholipid environment in modulating the activity of the rat brain synaptic plasma membrane (SPM) Ca2(+)-ATPase was investigated by its reconstitution into different phospholipids. Retention of activity of the solubilized Ca2(+)-ATPase depended on addition of exogenous phospholipids. As the cholate concentration used for solubilization of native SPM increased, a larger excess of exogeneous phospholipids, relative to membrane protein, had to be added to maintain optimal activity. Highest ATP-dependent Ca2+ transport activity was obtained when reconstitution was carried out in calf brain phospholipids (BPLs) followed by soybean phospholipids (SPLs) and the lowest in egg PC; reconstitution at a 40:1 weight ratio of exogenous phospholipids to native SPM protein resulted in ATP-dependent Ca2+ transport of 40.0 +/- 4.16, 23.4 +/- 8.48, and 11.54 +/- 2.31 nmol of Ca2+ (mg of protein)-1 (5 min)-1, respectively. Partial substitution of egg PC with BPLs led to an increase in the activity of the reconstituted Ca2+ pump. The highest ATP-dependent Ca2+ uptake was obtained when ratios of 15:25 or 10:30 egg PC to BPLs were used. Testing the individual phospholipids participating in the BPL mixture showed that addition of PS to egg PC led to a consistent increase in Ca2+ pump activity. Substitution of 50% of the PC with PS resulted in a 3.8-fold higher ATP-dependent Ca2+ uptake than that obtained in egg PC alone. No other phospholipid tested--PE, SM, or PI--had a similar effect. Increasing the proportion of PS within the BPL mixture above its original content led to a gradual decrease in the reconstituted SPM Ca2+ pump activity. Enrichment of asolectin with PS led first to increased Ca2+ pump activity; then, as the proportion of PS increased, Ca2+ transport of the reconstituted pump decreased. An increased proportion of PE, SM, or PI within the BPLs or asolectin, above their original contents, resulted in decreased Ca2+ transport. These results indicate that optimal SPM Ca2+ pump activity requires the combined presence of a critical amount of PC and PS within the reconstituted membrane.     

Application of 31P MRS to the analysis of phospholipid changes in plasma of patients with acute leukemia

The aim of the experiment was to evaluate the changes of phospholipid concentrations in patients (n=30) with acute leukemia compared with reference group of healthy volunteers (n=21). The analysis focused on the following phospholipids (PL) collected from plasma: phosphatidylcholine (PC), plasmalogen of phosphatidylcholine (CPLAS), lysophosphatidylcholine (LPC), sphingomyelin (SM), phosphatidylethanolamine (PE), and phosphatidylinositol (PI). Phospholipid extracts were obtained by Folch's method from 4 ml of plasma. 31P MR spectra were obtained on an AMX Bruker 300 MHz (7.05 T) spectrometer. Calculation of concentration based on integral intensity of the phospholipid relative to an internal concentration standard of MDPA. For healthy volunteers, the following values of phospholipid concentrations were obtained: (5.18+/-1.615) mmol/l for PC+CPLAS; (0.364+/-0.178) mmol/l for LPC; (1.211+/-0.411) mmol/l for SM; (0.343+/-0.124) mmol/l for PI+PE. PLs of patients were assayed at least twice: at the time of diagnosis and, when appropriate, at the time of complete remission from the disease (CR). At the time of diagnosis, the mean concentrations of studied compounds were: (1.602+/-0.716) mmol/l for PC+CPLAS; (0.041+/-0.048) mmol/l for LPC; (0.398+/-0.198) mmol/l for SM; (0.045+/-0.071) mmol/l for PI+PE. After attainment of complete remission (CR), the respective values were as follows: (4.094+/-1.886) mmol/l for PC+CPLAS; (0.295+/-0.139) mmol/l for LPC; (1.123+/-0.634) mmol/l for SM; (0.230+/-0.125) mmol/l for PI+PE. All concentrations found in patients at the time of diagnosis were significantly lower than in reference group and in those benefited from complete remission (CR). By contrast the differences in concentrations of phospholipids in plasma between patients with complete remission (CR) and healthy volunteers were no statistically significant.     

Comparison of linoleate,palmitate and acetate metabolism in rat ventral prostate

Rat ventral prostate incorporated (1-¹⁴C)acetate, (1-¹⁴C)palmitate and (1-¹⁴C)linoleate into different phospholipids in a time-dependent process. The rate of incorporation into total phospholipids was higher with linoleate (10.0 nmol/g) than with either palmitate (5.8 nmol/g) or acetate (4.7 nmol/g). Predominant labelling with all the radioactive substrates assayed was found in choline glycerophospholipids (PC). The radioactive profiles for linoleate in the other ventral prostate phospholipids differed from those obtained with palmitate and acetate. Specifically linoleate was incorporated into inositol glycerophospholipids plus lysoethanolamine glycerophospholipids (PI+LPE) and not into sphingomyelin (SM), while palmitate and acetate incorporated into SM but not into PI+LPE. Acetate showed the highest oxidation to CO₂ whereas no differences were observed in the radioactivity incorporated into CO₂ from a saturated (palmitate) or an essential unsaturated fatty acid (linoleate). These studies also show zinc-dependence by the acetate to CO₂ oxidation.Abbreviations PL total phospholipids - PC choline glycerophospholipids - PE ethanolamine glycerophospholipids - PI+LPE inositol glycerophospholipids plus lysoethanolamine glycerophospholipids - PS serine glycerophospholipids - SM sphingomyelin     

Changes of membrane phospholipid composition of human erythrocytes in hyperlipidemias. I. Increased phosphatidylcholine and reduced sphingomyelin in patients with elevated levels of triacylglycerol-rich lipoproteins.

The composition of red blood cell membrane and plasma phospholipids has been analyzed in patients with hyperlipidemias. In red cells of patients with elevated levels of triacylglycerol-rich lipoproteins, phosphatidylcholine (PC) was raised and sphingomyelin (SM) reduced, resulting in a 20% increase of the membrane PC/SM ratio. In plasma phospholipids of these patients PC and SM levels were also higher and lower, respectively and the plasma PC/SM ratio was elevated by more than 50%. Close positive correlations between plasma and membrane phospholipids were obtained for PC, SM and the PC/SM ratio in normolipidemic and hyperlipidemic donors. Plasmalogen phosphatidylethanolamine (PE), a supposed endogenous protector against lipid oxidation, was reduced by about 20% in red cell membrane lipids in hyperlipidemic patients. Also plasmalogen-PE in plasma tended to be reduced in hyperlipidemic donors. Plasma HDL levels were positively related to the content of plasmalogen PE in the red cell membrane. In conclusion, there are closely related increases in PC/SM ratios in plasma and the red cell membrane in patients with elevated levels of triacylglycerol-rich lipoproteins. It is speculated that decreases in red cell membrane plasmalogen-PE in hyperlipidemic patients could be related to impaired antioxidant protection, possibly as a consequence of reductions in plasma HDL levels.     

Evidence for bidirectional transverse diffusion of spin-labeled phospholipids in the plasma membrane of guinea pig blood cells

The distribution and transverse diffusion kinetics of four spin-labeled phospholipid analogues (two with choline heads: phosphatidylcholine (PC) and sphingomyelin (SM); two with amino heads: phosphatidylserine (PS) and phosphatidylethanolamine (PE) were studied in the plasma membrane of guinea pig blood cells: erythrocytes, reticulocytes, and leukemic lymphocytes. Nitroxide reduction by the internal content of the cells was used as an indicator to determine the phospholipids that penetrated the cells. The reduction rates were in the order, PS greater than PE greater than PC greater than SM in all cells. Reoxidation of phospholipids extracted by serum albumin revealed the distribution of the phospholipids at a given time. In all cells, the distribution equilibrium was reached in less than 2 h and the amounts left in the external leaflet were in the following proportional order: PS less than PE less than PC less than SM. In the erythrocytes and especially in the reticulocytes, the shape change induced by adding phospholipids relaxed partially or completely at a lower speed but kept the same proportional order as at equilibrium. All the results were analyzed quantitatively with a simple kinetic model including the rates of transverse diffusion (flip and flop), the exchange between plasma membrane and internal membranes, and the reduction rate of free radicals (determined in either the internal or external membrane leaflet). The calculated rate constants of transverse diffusion varied from 2 x 10(-3) to 1.2 x 10(-1) min-1 for the flip and from 4 x 10(-3) to 1.2 x 10(-1) for the flop, depending on the polar head and the cell type. Possible interpretations of the external phospholipid reduction mechanism and cell deformation are discussed.     

Effects of membrane lipids and -proteins and cytoskeletal proteins on the kinetics of cholesterol exchange between high density lipoprotein and human red blood cells, ghosts and microvesicles.

To better understand the effects of plasma membrane lipids and proteins and the cytoskeleton on the kinetics of cellular cholesterol efflux, the effects of (1), selectively depleting either sphingomyelin (SM) or phosphatidylcholine (PC); (2), cross-linking the cytoskeleton, and (3), removing certain cytoskeletal and integral membrane proteins on radiolabelled cholesterol efflux from red blood cells (RBC) have been studied. When RBC were treated with either phospholipase A2 or sphingomyelinase C to hydrolyze either 30-40% of the PC or 40-50% of the SM, respectively, the halftimes (t1/2) for cholesterol efflux to excess HDL3 were not significantly altered, with the values being 4.4 +/- 0.8 h or 3.7 +/- 0.4 h, respectively, compared to 4.6 +/- 0.6 h for control RBC. To investigate the effects of the cytoskeleton on the rate of free cholesterol (FC) desorption from the plasma membrane, the cytoskeletal proteins were cross-linked by either heat-treatment or exposure to diamide and cholesterol efflux from ghosts of these cells was measured. Cross-linking the cytoskeletal proteins by diamide treatment resulted in no significant change in t1/2 for treated (3.6 +/- 0.6 h) compared to control (4.2 +/- 0.4 h) ghosts: this suggests that the cytoskeleton does not play a large role in modulating cholesterol efflux. To investigate the effects of membrane proteins on cholesterol efflux, RBC microvesicles, containing mainly band 3 and 4 proteins and little of the cytoskeletal proteins, such as spectrin (bands 1,2) or actin (band 5), were obtained by incubation with the ionophore A23187. With excess HDL3 present, microvesicles exhibited a t1/2 of 4.2 +/- 1.9 h (compared to the t1/2 of 4.2 +/- 0.4 h for control ghosts). The results described in this paper suggest that neither changing the SM/PC ratio in the membrane nor cross-linking the cytoskeletal proteins nor removing the cytoskeleton changes the t1/2 for cholesterol efflux to excess HDL3. Presumably, the cholesterol-phospholipid interactions are insensitive to these perturbations in membrane structure.     

Uptake and interconversion of fluorescent lipid analogs in the protozoan parasite, Perkinsus marinus, of the oyster, Crassostrea virginica

Uptake, distribution, and interconversion of fluorescent lipid analogs (phosphatidylcholine, PC; cholesteryl ester, CHE; phosphatidylethanolamine, PE; palmitic acid, C16; sphingomyelin, SM) by the two life stages, meront and prezoosporangium, of the oyster protozoan parasite, Perkinsus marinus, were investigated. Class composition of these two life stages and lipid contents in meront cells were also examined. Both meronts and prezoosporangia incorporated and modified fluorescent lipids from the medium, but their metabolic modes differ to some extent. Results revealed that among the tested analogs, neutral lipid components (CHE and C16) were incorporated to a greater degree than the phospholipids (PC, PE, and SM). HPLC analysis of meront lipids showed that while the majority of the incorporated PC, CHE, and PE remained as parent compounds, most of the incorporated C16 was in triacylglycerol (TAG) and SM was in ceramide and free fatty acids. The cellular distribution of fluorescent labels varied with lipid analogs and the extent of their metabolism by the parasite. Fluorescence distribution was primarily in cytoplasmic lipid droplets of both life stages after 24 h incubation with PC. After 24 h incubation with SM, fluorescence appeared in the membrane and cytosol. Total lipid contents in meront cultures increased during proliferation and TAG accounted for most of the increased total lipids. Since total lipid content per meront cell did not increase until the day of culture termination, the lipid increase in the meront culture was mainly a result of increased cell numbers. Both life stages contain relatively high levels of phospholipids, 53.8% in 8-day-old meronts and 39.4% in prezoosporangia. PC was the predominant phospholipid.     

Asymmetric distribution of phosphatidylcholine and sphingomyelin between micellar and vesicular phases. Potential implications for canalicular bile formation.

Both phosphatidylcholine (PC) and sphingomyelin (SM) are the major phospholipids in the outer leaflet of the hepatocyte canalicular membrane. Yet, the phospholipids secreted into bile consist principally (>95%) of PC. In order to understand the physical;-chemical basis for preferential biliary PC secretion, we compared interactions with bile salts (taurocholate) and cholesterol of egg yolk (EY)SM (mainly 16:0 acyl chains, similar to trace SM in bile), buttermilk (BM)SM (mainly saturated long (>20 C-atoms) acyl chains, similar to canalicular membrane SM) and egg yolk (EY)PC (mainly unsaturated acyl chains at sn-2 position, similar to bile PC). Main gel to liquid-crystalline transition temperatures were 33. 6 degrees C for BMSM and 36.6 degrees C for EYSM. There were no significant effects of varying phospholipid species on micellar sizes or intermixed-micellar/vesicular bile salt concentrations in taurocholate-phospholipid mixtures (3 g/dL, 37 degrees C, PL/BS + PL = 0.2 or 0.4). Various phases were separated from model systems containing both EYPC and (EY or BM)SM, taurocholate, and variable amounts of cholesterol, by ultracentrifugation with ultrafiltration and dialysis of the supernatant. At increasing cholesterol content, there was preferential distribution of lipids and enrichment with SM containing long saturated acyl chains in the detergent-insoluble pelletable fraction consisting of aggregated vesicles. In contrast, both micelles and small unilamellar vesicles in the supernatant were progressively enriched in PC. Although SM containing vesicles without cholesterol were very sensitive to micellar solubilization upon taurocholate addition, incorporation of the sterol rendered SM-containing vesicles highly resistant against the detergent effects of the bile salt. These findings may have important implications for canalicular bile formation.     

Lipid composition of the main fractions of rabbit semen

Rabbit semen contains mature spermatozoa and several other fractions (seminal plasma, droplets and vesicles) which are separated by various procedures. These fractions have a variable lipid profile: spermatozoa contain the largest amount of phospholipids (PL), whereas seminal plasma, droplets and vesicles accounted for 49.8% of the total PLs. The cholesterol content in raw semen was 811 microg/10(9) but was only 21-23% in spermatozoa. The main PL classes of rabbit spermatozoa were PC, LPC, PE, PS, SM and PI, which varied according to the separation procedures used. Percoll-separated spermatozoa (Sp(p)) showed an increase of LPC, a higher LPC/PC ratio but a lower lipid content compared to the theoretical amount. This membrane modification did not affect the number of live cells but greatly influenced the functional properties of the rabbit spermatozoa, i.e. the HOS-test and induced acrosome reaction. PC, followed by PE and LPC were the most abundant PL classes of seminal plasma, droplets and vesicles. These fractions have higher PE and SM levels and lower PC/PE+PC ratios than in the germinal cells. Some physiological implications are discussed.     

Influence of molecular packing and phospholipid type on rates of cholesterol exchange

The rates of [14C]cholesterol transfer from small unilamellar vesicles containing cholesterol dissolved in bilayers of different phospholipids have been determined to examine the influence of phospholipid-cholesterol interactions on the rate of cholesterol desorption from the lipid-water interface. The phospholipids included unsaturated phosphatidylcholines (PC's) (egg PC, dioleoyl-PC, and soybean PC), saturated PC (dimyristoyl-PC and dipalmitoyl-PC), and sphingomyelins (SM's) (egg SM, bovine brain SM, and N-palmitoyl-SM). At 37 degrees C, for vesicles containing 10 mol% cholesterol, the half-times for exchange are about 1, 13, and 80 h, respectively, for unsaturated PC, saturated PC, and SM. In order to probe how differences in molecular packing in the bilayers cause the rate constants for cholesterol desorption to be in the order unsaturated PC greater than saturated PC greater than SM, nuclear magnetic resonance (NMR) and monolayer methods were used to evaluate the cholesterol physical state and interactions with phospholipid. The NMR relaxation parameters for [4-13C]cholesterol reveal no differences in molecular dynamics in the above bilayers. Surface pressure (pi)-molecular area isotherms for mixed monolayers of cholesterol and the above phospholipids reveal that SM lateral packing density is greater than that of the PC with the same acyl chain saturation and length (e.g., at pi = 5 mN/m, where both monolayers are in the same physical state, dipalmitoyl-PC and palmitoyl-SM occupy 87 and 81 A2/molecule, respectively).(ABSTRACT TRUNCATED AT 250 WORDS)     

31P MRS analysis of the phospholipid composition of normal human peripheral blood mononuclear cells (PBMC)

The aim of this investigation was to characterize the phospholipid composition of normal human blood mononuclear cells using 31P NMR spectroscopy. Mononuclear cells of peripheral blood were obtained from 10 volunteers. Phospholipid extracts were prepared from 60x10(6) cells according to modified Folch's method. An AMX 300 Bruker spectrometer 7.05 T was used. The 31P spectrum of phospholipid extracts from normal human PBMC consisted of 9 peaks, with one each for phosphatidylcholine (PC), plasmalogen of phosphatidylcholine (CPLAS), lysophosphatidylcholine (LPC), sphingomyelin (SM), phosphatidylethanolamine (PE), phosphatidylinositol (PI), phosphatidylserine (PS) and cardiolipin (CL), and another one due to the external reference substance, methylenediphosphonic acid (MDPA). The concentrations of these phospholipids (PL), based on the integral intensities, were as follows: 0.398 +/- 0.078 mmole/l for PC; 0.033 +/- 0.019 mmole/l for CPLAS; 0.155 +/- 0.043 mmole/l for SM; 0.266 +/- 0.104 mmole/l for PI+PE; 0.101 +/- 0.040 mmole/l for PS, and 0.026 +/- 0.033 mmole/l for CL. The results of this study confirmed that 31P MRS is a convenient tool for measuring the phospholipid concentrations of biological samples.     

Investigation of human low-density lipoprotein by (1)H nuclear magnetic resonance spectroscopy: mobility of phosphatidylcholine and sphingomyelin headgroups characterizes the surface layer

The resolution of the trimethyl headgroup resonance of phosphatidylcholine (PC) and sphingomyelin (SM) in the intact human low-density lipoprotein (LDL) (1)H NMR spectrum at 600 MHz enabled the investigation of LDL surface structure and phospholipid-apoB interactions. We have previously shown that a higher proportion of PC headgroups (25-35% of total PC in LDL) compared to SM were tightly bound to apoB and therefore NMR-invisible [Murphy, H. C., et al. (1997) Biochem. Biophys. Res. Commun. 234 (3), 733-737]. In the present study, we have investigated the mobility of phospholipid (PL) headgroups, using (1)H NMR spin-spin (T(2)) relaxation measurements, in LDL isolated from nine volunteers. We show that both PC and SM exist in two additional and distinct environments indicated by the biexponential behavior of the relaxation decays in each case. The data showed that 36% of PC headgroups had a short T(2) component, mean T(2) of 31 ms, and 64% had a longer T(2) component of 54 ms. Approximately 15% of SM headgroups had a short T(2) component (mean T(2) of 27 ms) and 85% had a longer T(2) component of 78 ms. Therefore the majority of SM headgroups (85%) were more mobile than PC (P < 0.001) and since PC headgroups in organic media were more mobile than SM, we conclude that the characteristic high mobility of LDL SM is not an intrinsic property but arises from a high degree of order in molecular packing of the surface PL of human LDL. We suggest that because PC and SM interact differentially with cholesterol and possibly with neighboring phospholipids, this results in the formation of relatively long-lived microdomains of PL in vivo.     

Effect of Lead on Lipid Peroxidation, Phospholipids Composition, and Methylation in Erythrocyte of Human

Lead (Pb) is one of the most abundant heavy metals on earth considered as number one environmental persistent toxin and health hazard affecting millions of people in all age groups. After entering bloodstream, 99 % of Pb is accumulated in erythrocytes and causes poisoning. Toxic Pb effects on erythrocytes membrane’s composition of phosphatidyl serine (PS), phosphatidyl ethanolamine (PE), phosphatidyl choline (PC), and sphingomyelin (SM), and phospholipids transmethylation were determined. Lipid peroxidation in Pb-exposed erythrocytes was evaluated as malondialdehyde (MDA) formation in presence of Fe and vitamin E to understand severity of Pb toxicity and its mitigation. Pb (0.5–5.0 μM) degraded PS (12 to 31 %, P?<?0.05–0.001) and elevated SM (19–51 %, P?<?0.05–0.001). Composition of PC and PE were diminished (22 %) and elevated (29 %), respectively, with higher Pb exposure (5.0 μM, P?<?0.001). Pb toxicity suppressed (P?<?0.001) transmethylation of phospholipids in membranes (34, 41, and 50 %, respectively, with 0.5, 2.5, and 5.0 μM). Pb-induced dose-related MDA production (P?<?0.05–0.001) in erythrocytes was obtained, which was accentuated in presence of Fe (P?<?0.05–0.001). The vitamin E mitigated (P?<?0.05–0.01) the severity of Pb-induced lipid peroxidation. The ratio PS/SM showed maximum change of ?27 (P?<?0.01), ?30 (P?<?0.01), and ?54 % (P?<?0.001), respectively at 0.5, 2.5, and 5.0 μM Pb exposures. Ratios PC/SM and PS/PE were at the second, whereas PE/PS at the third order. The study suggests that the mechanisms underlying distortion of compositional phospholipids, inhibition of transmethylation, and exasperated phospholipid peroxidative damage are the active phenomena of Pb toxicity in erythrocytes.

Interaction of cholesterol with sphingomyelins and acyl-chain-matched phosphatidylcholines: a comparative study of the effect of the chain length.

In this study we have synthesized sphingomyelins (SM) and phosphatidylcholines (PC) with amide-linked or sn-2 linked acyl chains with lengths from 14 to 24 carbons. The purpose was to examine how the chain length and degree of unsaturation affected the interaction of cholesterol with these phospholipids in model membrane systems. Monolayers of saturated SMs and PCs with acyl chain lengths above 14 carbons were condensed and displayed a high collapse pressure ( approximately 70 mN/m). Monolayers of N-14:0-SM and 1(16:0)-2(14:0)-PC had a much lower collapse pressure (58-60 mN/m) and monounsaturated SMs collapsed at approximately 50 mN/m. The relative interaction of cholesterol with these phospholipids was determined at 22 degreesC by measuring the rate of cholesterol desorption from mixed monolayers (50 mol % cholesterol; 20 mN/m) to beta-cyclodextrin in the subphase (1.7 mM). The rate of cholesterol desorption was lower from saturated SM monolayers than from chain-matched PC monolayers. In SM monolayers, the rate of cholesterol desorption was very slow for all N-linked chains, whereas for PC monolayers we could observe higher desorption rates from monolayers of longer PCs. These results show that cholesterol interacts favorably with SMs (low rate of desorption), whereas its interaction (or miscibility) with long chain PCs is weaker. Introduction of a single cis-unsaturation in the N-linked acyl chain of SMs led to faster rates of cholesterol desorption as compared with saturated SMs. The exception was monolayers of N-22:1-SM and N-24:1-SM from which cholesterol desorbed almost as slowly as from the corresponding saturated SM monolayers. The results of this study suggest that cholesterol is most likely capable of interacting with all physiologically relevant (including long-chain) SMs present in the plasma membrane of cells.     

Comparative analysis of phenotypic and genotypic characteristics of two desulfurizing bacterial strains, Mycobacterium phlei SM120-1 and Mycobacterium phlei GTIS10

AIM: To compare few phenotypic and genotypic characteristics of two desulfurizing bacterial strains, Mycobacterium phlei SM120-1 and Mycobacterium phlei GTIS10. METHODS AND RESULTS: In the present study, dibenzothiophene (DBT) desulfurizing activity, composition of fatty acids of cell membranes, DBT sulfone monoxygenase gene (bdsA) and the selection pressure applied during the growth and enrichment of the bacterial strains M. phlei SM120-1 and M. phlei GTIS10 were compared in our laboratory. The DBT desulfurization activity of M. phlei SM120-1 was found to be 0.17 +/- 0.02 micromol 2-HBP min(-1) (gram dry cell weight)(-1) and that of the bacterial strain M. phlei GTIS10 was 1.09 +/- 0.05 micromol 2-HBP min(-1) (gram dry cell weight)(-1). Fatty acid methyl ester analysis of cell membranes of these two bacterial strains in the presence of light gas oil showed that both the strains had different fatty acid profiles in their cell membranes. Comparison of the full gene sequences of the desulfurization gene bdsA in the two bacterial strains showed significant difference in the bdsA gene sequences. There was a significant difference observed in the selection pressure applied during the growth and enrichment of the two bacterial strains. CONCLUSIONS: The results of the comparative study of the bacterial strains, M. phlei SM120-1 and M. phlei GTIS10 showed that there were considerable differences in the phenotypic and genotypic characteristics of these two strains. SIGNIFICANCE AND IMPACT OF STUDY: The present study would broaden the understanding of biodesulfurization trait at intra-species level.     

Incorporation of cholesterol in sphingomyelin- phosphatidylcholine vesicles has profound effects on detergent-induced phase transitions

Vesicle <--> micelle transitions are important phenomena during bile formation and intestinal lipid processing. The hepatocyte canalicular membrane outer leaflet contains appreciable amounts of phosphatidylcholine (PC) and sphingomyelin (SM), and both phospholipids are found in the human diet. Dietary SM enrichment inhibits intestinal cholesterol absorption. We therefore studied detergent-induced vesicle --> micelle transitions in SM-PC vesicles. Phase transitions were evaluated by spectrophotometry and cryotransmission electron microscopy (cryo-TEM) after addition of taurocholate (3-7 mM) to SM-PC vesicles (4 mM phospholipid, SM/PC 40%/60%, without or with 1.6 mM cholesterol). After addition of excess (5-7 mM) taurocholate, SM-PC vesicles were more sensitive to micellization than PC vesicles. As shown by sequential cryo-TEM, addition of equimolar (4 mM) taurocholate to SM-PC vesicles induced formation of open vesicles, then (at the absorbance peak) fusion of bilayer fragments into large open structures (around 200 nm diameter) coexisting with some multilamellar or fused vesicles and thread-like micelles and, finally, transformation into an uniform picture with long thread-like micelles. Incorporation of cholesterol in the SM/PC bilayer changed initial vesicular shape from spherical into ellipsoid and profoundly increased detergent resistance. Disk-like micelles and multilamellar vesicles, and then extremely large vesicular structures, were observed by sequential cryo-TEM under these circumstances, with persistently increased absorbance values by spectrophotometry. These findings may be relevant for bile formation and intestinal lipid processing. Inhibition of intestinal cholesterol absorption by dietary SM enrichment may relate to high resistance against bile salt-induced micellization of intestinal lipids in presence of the sphingolipid.     

ESI-MS quantitation of increased sphingomyelin in Niemann-Pick disease type B HDL

HDLs have been proposed to have antiatherogenic properties because of their role in reverse cholesterol transport as lipid acceptors. To elucidate the phospholipid profile of these particles, we used electrospray ionization mass spectrometry to examine the phosphatidylcholine (PC) and sphingomyelin (SM) composition of HDLs purified from plasma and nascently generated in vitro from fibroblasts. We also quantitatively compared the phospholipids present in these lipoproteins between normal and Niemann-Pick disease type B (NPD-B) subjects characterized by sphingomyelinase (SMase) deficiency. We demonstrated that plasma HDLs from NPD-B were significantly enriched in SM by an average of 28%, particularly the palmitoyl SM (with an increase of 95%), which accounted for approximately 25-44% of total SM molecular species. Similarly, we observed an increase of approximately 63% in total SM levels in nascent HDLs prepared from NPD-B fibroblasts. Although PC levels in nascent HDLs were comparable between control and NPD-B cells, there was a 95% increase in total PC levels similar to that of SM in plasma HDLs extracted from NPD-B subjects. These data provide insight into the structure of HDLs and identify potential new roles for SMase in lipoprotein metabolism.     

Metabolism of cholesterol and phospholipids in cultured human vascular smooth muscle cells: differences between artery and vein-derived cells and the effect of oxygen partial pressure

Human smooth muscle (SM) cells derived from vena saphena magna, aorta abdominalis and arteria mamaria were grown in culture under 40 or 145 mmHg oxygen partial pressure (pO2) and their lipid metabolism studied. Esterification of the cellular [3H]cholesterol was higher by 2.5-fold in artery derived than in vein-derived cells and was slightly higher in cultures exposed to 145 mmHg than to 40 mmHg pO2. Cholesterol efflux in the presence of high density lipoprotein (HDL) in the incubation medium was higher in artery-derived than vein-derived cells. Apolipoprotein (apo) AI also supported cholesterol efflux to a higher extent in artery than in vein-derived cells. Cholesterol efflux in the presence of apo AI was accompanied by a decrease of 50% in cellular [3H]cholesteryl ester in both cell types. SM cultures exposed to [3H]choline incorporated about 90% of the radioactivity to phosphatidylcholine (PC) and 10% to sphingomyelin (SPM). During 5 days exposure to [3H]choline, 10 to 15% and 20 to 30% of the newly synthesized PC and SPM, respectively, were released by vein-derived cells into the incubation medium. The relative amount of SPM of the total radioactive phospholipids released by vein-derived cultures was significantly higher in cultures growing under 40 mmHg than 145 mmHg pO2 reaching a value of up to 33% of the radioactive phospholipids in the incubation medium. HDL was shown to serve as an acceptor for phospholipids released by both vein and artery-derived SM cells, while free apo AI supported phospholipid efflux in artery but not in vein-derived SM cells.(ABSTRACT TRUNCATED AT 250 WORDS)     

Circulating lupus-type anticoagulant, a risk factor for thrombosis by inhibition of protein C activation

The lupus anticoagulant is a risk factor of thrombosis. The non thrombogenic endothelial surface could be a target for the lupus anticoagulant. We have investigated the effect of purified immunoglobulins G of five patients with LA on the thrombomodulin activity of cultured human endothelial cells from umbilical cord vein. The rate of activation of purified protein C (PC) (30 nM) by the endothelial cells in the presence of thrombin (0.1 U/dish) has been measured by hydrolysis of substrate S 2366. Activated PC has been 7.37 +/- 0.78 pmoles X ml-1 X h-1 in the presence of buffer and 7.2 +/- 0.78 pmoles X ml-1 X h-1 in the presence of control IgG (2 mg/dish). Heat aggregated IgG did not induce any significant change. Patient's IgG lowered significantly the rate of PC activation (4.86 +/- 1.04 pmoles X ml-1 X h-1, p less than 0.001). Fab fragment from two of these patient's IgG displayed the same inhibition. Moreover neutralization of this effect was obtained by addition of phospholipids (70% phosphatidylcholine, 30% phosphatidylserine) in excess to patient's IgG. Activation of PC has been also performed using purified rabbit thrombomodulin and a similar inhibition by patient's IgG was found. These results seem to indicate that antibodies present in the IgG fractions containing LA could be directed against phospholipids associated to thrombomodulin activity. Reduction of PC activation if present in the patients with LA could play a role in the occurrence of thrombosis.