Les alcools aliphatiques sulfatés: nouveaux lipides polaires isolés de diverses fucacées

The mono and polyester glycosyl sulfates or phosphate diglycerides account for a group of polar lipids which is found in large amounts in the three fucacae that are studied : Pelvetia canaliculata (L) Decn and Thur, Fucus vesiculosus (L), Fucus serratus (L).These polar lipids have been shown to have complex structures, most of them are unknown in the present nomenclature. Both quantity and composition of these polar lipids are species characteristics, forming the equipment of polar lipids for every species of algae.Glycosyl ester sulfate and phosphate diglycerides are very unstable substances when pure, moreover photolabile and thermodegradable. This extreme fragility caused many difficulties in the determination of molecular structures which require a very high purity of isolated substances.The determination of the structures, studies of quantities and composition, cytological localization of these polar lipids should allow to define clearly their physiological function and importance from the biochemical and ecological point of view.     

Aliphatic alcohol sulfates: new polar lipids isolated from various Fucacea]

Four new sulfolipids have been found in the three Fucacea from the coast of Britany P. canaliculata (L) Deen et Thur, F. vesiculosus (L), F. serratus (L). These four polar lipids form a separate group, their structures being very different from those of the glyceride by-products already known. By acid hydrolysis of these substances the aliphatic mono and dialcohols can be separated. The aliphatic hydrocarbons studied by gas chromatography and spectrometric methods (IR, MASS), have been established as being saturated C30 mono or dialcohols, saturated C18 and C20 monoinsaturated dialcohols. SAA are the only substances found: there was no sulfonate or phosphate ester in the three algae studied. The quantity and composition of SAA are not characteristic of the species. Their variations depend on the physiological and biochemical states of the thallus and on the conditions of extraction and purification.     

Signature fatty acids in the polar lipids of acid-producing Thiobacillus spp.: Methoxy, cyclopropyl, alpha-hydroxy-cyclopropyl and branched and normal monoenoic fatty acids

Abstract The polar lipids of 5 species of Thiobacillus were extracted and purified. An analysis of the fatty acid composition of the polar lipids documented the presence of methoxy, cyclopropyl, monounsaturated and hydroxycyclopropyl fatty acids of sufficiently unusual structure to serve as 'signatures' for the presence of these organisms in environmental samples. The structures of the unusual fatty acids of the polar lipids were confirmed by mass spectrometry (MS) after isolation by capillary gas chromatography (GC).     

Separation and quantification of chicken and bovine growth plate cartilage matrix vesicle lipids by high-performance liquid chromatography using evaporative light scattering detection

Matrix vesicles (MV) are lipid bilayer-enclosed nanoscale structures that initiate extracellular mineral formation in most vertebrate species. Little attention has been given to differences between species in membrane lipid composition or to how new mineral is formed in MV. To explore more precisely the lipids of MV isolated from avian and bovine species, we developed a new high-performance liquid chromatography (HPLC) method used in combination with evaporative light scattering detection (ELSD) to quantify their lipid composition. HPLC analyses were performed on a Lichrosorb silica column using separate binary gradient elution systems for analyzing polar and nonpolar lipids. Standard mixtures of both phospholipids and nonpolar lipids were used to prepare calibration curves for each lipid, which were analyzed mathematically by polynomial regression for accurate quantitation. This new methodology provides high-resolution separations and quantitation of both the polar and the nonpolar lipids typically present in biological membranes, including lyso- (monoacyl-) phospholipids. We have applied this method to quantitate the phospholipid and nonpolar lipid composition of MV isolated from chicken and bovine growth plate cartilage. We also compared the ability of these MV to induce mineral formation. While the ability to induce mineralization and the lipid composition were generally similar, some significant differences between MV from these two disparate species were seen.     

Rapid degradation of polar lipids in frost damaged winter wheat crown and root tissue

The ettect of a lethal frost on the lipid composition of crown and root tissue of winter wheat after thawing was investigated. The data show rapid degradation of polar lipids with an increase first in diglycerides and later in unesterified fatty acids, while active synthesis of triglycerides was maintained during the first 6 hr after thawing. Polyunsaturated species of polar lipids were preferentially degraded. Extensive losses of total linoleic and linolenic acids suggest lipoxygenase action. The observed lipid degradation after frost is probably the result of decompartmentation following damage to membranes.     

Polar lipids in phototrophic bacteria of the Rhodospirillaceae and Chromatiaceae families.

The polar lipids of photosynthetic purple bacteria of the genera Chromatium, Thiocapsa, Thiocystis, Ectothiorhodospira, Rhodopseudomonas, Rhodospirillum, and Rhodomicrobium were analyzed. Characteristic compositions of the polar lipids were found for most of the Rhodospirillaceae and Chromatiaceae species. Phosphatidylethanolamine, phosphatidylglycerol, and cardiolipin were the major phospholipids in most species. Phosphatidylcholine was present as a major component in all species of the genus Ectothiorhodospira, but was not detected in the remaining Chromatiaceae. It was also present in most of the Rhodospirillaceae species. No glycolipids were found in any of the Ectothiorhodospira species. In the Rhodospirillaceae, the glycolipids mono- and digalactosyl diglycerides were generally absent. Sulfoquinovosyl diglyceride was present in significant amounts in at least three species of the Rhodospirillaceae and may have been present in most of them, but only in traces. All of the Chromatiaceae species contained several glycolipids, one of which was similar to monogalactosyl diglyceride. Ornithine lipids were found in large amounts in most Rhodospirillaceae, but were absent in Ectothiorhodospira and in the other Chromatiaceae. The species examined could be divided into three groups on the basis of their lipid composition: (i) the genus Ectothiorhodospira; (ii) the remaining Chromatiaceae; and (iii) the Rhodospirillaceae. The data presented are compared with those available in the literature, and differences from other phototrophic organisms are discussed.     

The lipids of phosphorescent Vibrio albensis bacteria]

The lipid composition of fluorescent vibrios, V. eltor and nonagglutinating vibrios has been studied. In the fraction of polar lipids phosphatidylethanolamine, phosphatidylinositol and cardiolipin and in the fraction of neutral lipids monoglycerides, free fatty acids, diglycerides, triglycerides, sterol esters have been identified. The fatty acid composition of some classes of neutral lipids have been determined. Both similarity and differences between the strains under study in their lipid and fatty acid composition have been established.     

Ether polar lipids of methanogenic bacteria: structures, comparative aspects, and biosyntheses.

Complete structures of nearly 40 ether polar lipids from seven species of methanogens have been elucidated during the past 10 years. Three kinds of variations of core lipids, macrocyclic archaeol and two hydroxyarchaeols, were identified, in addition to the usual archaeol and caldarchaeol (for the nomenclature of archaeal [archaebacterial] ether lipids, see the text). Polar head groups of methanogen phospholipids include ethanolamine, serine, inositol, N-acetylglucosamine, dimethyl- and trimethylaminopentanetetrol, and glucosaminylinositol. Glucose is the sole hexose moiety of glycolipids in most methanogens, and galactose and mannose have been found in a few species. Methanogen lipids are characterized by their diversity in phosphate-containing polar head groups and core lipids, which in turn can be used for chemotaxonomy of methanogens. This was shown by preliminary simplified analyses of lipid component residues. Core lipid analysis by high-pressure liquid chromatography provides a method of determining the methanogenic biomass in natural samples. There has been significant progress in the biosynthetic studies of methanogen lipids in recent years. In vivo incorporation experiments have led to delineation of the outline of the synthetic route of the diphytanylglycerol ether core. The mechanisms of biosynthesis of tetraether lipids and various polar lipids, and cell-free systems of either lipid synthesis, however, remain to be elucidated. The significance and the origin of archaeal ether lipids is discussed in terms of the lipid composition of bacteria living in a wide variety of environments, the oxygen requirement for biosynthesis of hydrocarbon chains, and the physicochemical properties and functions of lipids as membrane constituents.     

Identification, isolation and characterization of tetracosapolyenoic acids in lipids of marine coelenterates.

Several tetracosapolyenoic acids (TPA) were detected in lipids of different marine coelenterates. Two of these acids were isolated and their structures were confirmed by chemical and spectral methods as all-cis-6,9,12,15,18-tetracosapentaenoic and all-cis-6,9,12,15,18,21-tetracosahexaenoic acid. Their distribution among lipids of a number of species of different classes of coelenterates from the northern and tropical seas, among neutral and polar lipids of these organisms was investigated. Significant quantities of TPA were found in all of the Octacorallia species studied. In some cases the sum of TPA reaches the level of 20% of total lipid fatty acids. The fatty acid composition of different coelenterates is also discussed.     

Simultaneous differential staining of nucleic acids, proteins, conjugated proteins and polar lipids by a cationic carbocyanine dye.

The multiple interactions of the cationic carbocyanine dye, 1-ethyl-naptho-[1,2d]thiazolin-2-ylidene)-2-methylpropenyl]naptho[1,2d]thiazolium bromide, 'Stains-described. Many of these substances could be distinguished from one another on the basis of color in conjunction with chemical and enzymatic digestions. Further studies with this dye have shown that under certain conditions polar lipids as well may be distinguished from these substances. Stains-all has a highly sensitive metachromatic reaction for the presence of polar lipids. It is possible to detect the lipids in large part because they are green and contrast with a red- or pink-stained protein background and with the blue-purple of nuclei or cartilage. Where other green substances occur as in sialoglycoproteins of mucous or membranes, the lipids can be distinguished because they are extracted by chloroform-methanol (2:1) or pyridine.     

Antibodies to liposomes, phospholipids and phosphate esters

Polyclonal and monoclonal antibodies to liposomes having various phospholipid compositions have been produced. Binding of the anti-lipid bilayer antibodies is influenced both by the chemical composition and the physical state of the liposomal lipids. The antibodies to liposomes have a ‘subsite’ in the binding site that recognizes small soluble phosphorylated haptens such as nucleotides (e.g. ATP). The capacity of anti-liposome antibodies to bind to phosphate is also shared by antibodies to numerous other substances, including lipid A from Gram-negative bacterial lipopolysaccharide, cardiolipin, DNA, polynucleotides, and lipoteichoic acids from Gram-positive bacteria. Because of similarities of chemical structures between all of these molecules widespread immunological cross-reactivities are observed.     

Physiological studies on Phymatotrichum omnivorum VI. Lipid composition of mycelium and sclerotia

The lipid composition of the mycelium and sclerotia ofPhymatotrichum omnivorum was compared. The lipids of the mycelium contained 47.9 % polar lipids as compared to 21.4 % in the sclerotia. Sterols represented 10 % of the lipids in sclerotia as contrasted to 3.6 % of the mycelium. More monoglycerides (17.5 %) were detected in the sclerotia as compared to the mycelium (1.6 %). Fatty acid analysis indicated that linoleic acid was the predominant fatty acid in the total fatty acids fraction in both the mycelium and the sclerotia. Palmitic acid was the major free fatty acid in the mycelium, whereas myristic acid was the predominant free fatty acid in the sclerotia. In the fatty acids of the diglycerides of sclerotia, palmitic acid represented 71 % of that fraction, as compared to 6.6 % of the fatty acids of the diglycerides in the mycelium. The major fatty acid in the diglycerides of the mycelium was oleic acid.     

Molecular species analysis of mitogen-stimulated 1,2-diglycerides in fibroblasts. Comparison of alpha-thrombin, epidermal growth factor, and platelet-derived growth factor

Recent studies have implicated the hydrolysis of phosphoinositides and phosphatidylcholine in agonist-stimulated events. The potent mitogen, alpha-thrombin, stimulates the generation of diglycerides in a biphasic and sustained manner in IIC9 fibroblasts (Wright, T. M., Rangan, L. A., Shin, H. S., and Raben, D. M. (1988) J. Biol. Chem. 263, 9374-9380). Using measurements of radiolabeled headgroup release and molecular species analysis, we previously determined that alpha-thrombin generates diglycerides through the hydrolysis of both the phosphoinositides and phosphatidylcholine at early times (15 s), and at later times (greater than or equal to 5 min) through the hydrolysis of primarily, if not exclusively, phosphatidylcholine (Pessin, M. S., and Raben, D. M. (1989) J. Biol. Chem. 264, 8729-8738). In contrast, IIC9 fibroblasts respond to the mitogenic treatments of (a) alpha-thrombin following chymotrypsin pretreatment or (b) epidermal growth factor by increasing their levels of diglycerides in a monophasic and sustained manner (Wright, T. M., Rangan, L. A., Shin, H. S., and Raben, D. M. (1988) J. Biol. Chem. 263, 9374-9380). In this report, we have analyzed the molecular species of the diglycerides generated by these two different treatments and have also examined the lipid response of IIC9 fibroblasts to platelet-derived growth factor. Based on both the molecular species analyses and the release of radiolabeled head-groups, all three of these different mitogenic treatments generate diglycerides primarily through the stimulation of phosphatidylcholine hydrolysis. However, while similar, the molecular species profiles of the diglycerides generated by these three treatments are not identical to the molecular species profile of total cellular phosphatidylcholine. In addition, the molecular species profiles of the diglycerides generated by these three mitogenic treatments greatly resemble each other, with significant differences between any two profiles occurring in at most one molecular species. This finding differs from that seen with alpha-thrombin stimulation alone, where the molecular species profile of the diglycerides generated following 5 min of alpha-thrombin stimulation is nearly identical to the molecular species profile of total cellular phosphatidylcholine. These data support the possibility of hormone-sensitive phosphatidylcholine pools or selective diglyceride metabolism.     

The lipid composition of the non-photosynthetic diatom Nitzschia alba

The lipid composition of the non-photosynthetic marine diatom, Nitzschia alba, has been quantitatively determined. Triglycerides accounted for 20% of the cell dry weight and 87% of the total lipids. Smaller amounts of 1,2- and 1,3-diglycerides, free sterol (24-methylene cholesterol), hydrocarbons and an unknown component were the remaining neutral lipids detected. Phosphatidylsulfocholine (phosphatidyl S,S-dimethylmercaptoethanol), present in amounts of 0.8% of cell dry weight (35% of total polar lipids), was the major polar lipid component. Other phospholipids were lysophosphatidylsulfocholine, phosphatidylglycerol, phosphatidylinositol and cardiolipin, but both phosphatidylcholine and phosphatidylethanolamine were completely absent. Another novel sulfolipid, deoxyceramide sulfonic acid, as well as the sulfate ester of the free sterol, were also present. Considerable amounts of the four lipids often associated with photosynthetic organisms, mono- and di-galactosyl diglycerides, sulfoquinovosyl diglyceride and phosphatidylglycerol, were identified in N. alba. However, the fatty acid components of the glycosyl diglycerides did not show the high amounts of polyunsaturated acids (18 : 2, 18 : 3) normally found in photosynthesizing organisms. All polar lipids were found to be associated with various cell membrane fractions in N. alba.     

Membranes of Tetrahymena. IV. Isolation and characterization of temperature-responsive smooth and rough microsomal subfractions.

Temperature-responsive microsomes of the ciliate protozoan Tetrahymena have been originally fractionated by step centrifugation on two-layered, Mg2+-containing sucrose gradients. Three fractions have been obtained, which are termed smooth I, smooth II and rough according to the appearance of the membrane vesicles upon electron-microscopy. Smooth I, smooth II, and rough microsomes exhibit RNA/protein ratios of 0.09, 0.20, and 0.34; their phospholipid/protein ratios and their neutral lipid/phospholipid ratios were 0.52, 0.43 and 0.25, and 0.17, 0.18 and 0.13, respectively. All three fractions contain equivalent, low succinic dehydrogenase and 5'-nucleotidase activities. Glucose-6-phosphatase and acid phosphatase are more concentrated in smooth I membranes than in rough membranes. The reverse is true for ATPase. The smooth II membranes occupy an intermediate position except that their ATPase activity is the lowest of the three fractions. The specific activities of these enzymes of the three microsomal fractions are compared to those of homogenates of whole cells. Thin-layer chromatography reveals a very similar polar and nonpolar lipid pattern of the three microsomal fractions. The major phospholipid compounds are phosphatidlethanolamine, glycerideaminoethylphosphonate and phosphatidylcholine, while diglycerides, an unknown NL-compound, and triglycerides are the major apolar lipids. Gas liquid chromatography shows that the fatty acids are mainly even-numbered ranging between C12 and C18. The smooth I, smooth II and rough membranes contain 65.2, 69.3 and 72.7% unsaturated fatty acids in their polar lipids, whereas only 52.7, 49.7 and 48.3% unsaturated acids are found in their apolar lipids, respectively. The fatty acids are more unevenly distributed among the individual polar lipids than in the apolar ones.     

Composition en lipides et acides gras de deux esèces de Taphrina parasites de Prunus domestica

Four strains of both Taphrina pruni and T. institiae were cultivated under identical conditions and and lipids and fatty acids were quantitatively analysed at two stages of their development. Tri- and diglycerides are the major neutral lipids in both species. Phosphatidylcholine and phosphatidylethanolamine are the most abundant polar lipids. Qualitatively, the two species show identical fatty acid contents, except for margaric acid (17:0) which was only found in Taphrine pruni. Quantitatively there are several differences: palmitoleic acid (16:1) occurs in reasonable amounts regularly and only in Taphrina pruni. The ratios 16:0/18:0 and 18:1/18:2 are generally higher for T. insititiae whereas the degree of unsaturation of fatty acids is higher in the former. The results are discussed with regard to data on other fungal species.     

Etude comparee des lipides et de la fixation passive du calcium dans les racines et les fractions subcellulaires du Lupinus luteus et de la Vicia faba

In both lupin and broad bean, the root lipids contain paraffins, triglycerides, diglycerides, free fatty acids and polar lipids (phospholipids and galactolipids). The polar lipids and the triglycerides are the more abundant classes. The root galactolipids are mono- and di-galactosyldiglycerides; two steryl glycosides are also present. The phospholipids in both species are: phosphatidylinositol, phosphatidylcholine, phosphatidylglycerol, phosphatidylserine, phosphatidylethanolamine, diphosphatidylglycerol and phosphatidic acid. This last phospholipid represents 8·3% of total lipid phosphorus in Lupinus against 2·3% in Vicia. The other acidic phospholipids represent 30·4% in Lupinus against 20·9% in Vicia. The lipids of Lupinus are rich in linolenic acid whereas those found in Vicia are richer in linoleic acid. The various subcellular fractions prepared from the roots of both species have an homogeneous lipid composition, reflecting exactly that of entire cells. The calcium passive fixation capacity in microsomes and mitochondria of Lupinus roots is more important than that in the same organelles of Vicia faba roots. Thus a relationship is suggested between the amount of phospholipids in membranes and the passive fixation of calcium.     

The effect of changing the composition of phosphatidylglycerol from thylakoid polar lipids of oleander and cucumber on the temperature of the transition related to chilling injury

The composition and phase behavior of some lipid classes and mixtures of thylakoid polar lipids were measured to investigate their role as determinants of the temperature of the transition associated with chilling injury. For Nerium oleander L., a plant which acclimates to growth temperature, a mixture of the phosphatidylglycerol (PG) and sulfoquinovosyldiacylglycerol (SQDG) showed transition temperatures of 22° and 10° C for plants grown at 45° and 20° C, respectively. This difference was similar to the 9 Celsius degrees differential in the transition of the polar lipids and indicated that the PG and-or the PG-SQDG mixture could be the major determinants of the transition temperature. Reconstitution of the PG-SQDG mixture from 20°-grown oleander with the galactolipids from 45°-grown plants, however, reduced the transition temperature by only 4 Celsius degrees. This indicates that some, low-melting-point lipids, which are structurally capable of forming a co-gel with the high-melting-point lipids, also play a role in determining the temperature of the transition and that the composition of these low-melting-point lipids also changes with growth temperature. More specific information on the role of PG was obtained using polar lipids from Cucumis sativus L., a chilling-sensitive plant. For this material the transition in the polar lipids was reduced from 9° to 5° and 4° C when the transition of the PG was reduced from 32° to 25° and 22° C. This was accomplished by reducing the proportion of disaturated molecular species in PG from 78 to 56 and 44 mol% by the addition of a fraction of the PG enriched in unsaturated molecular species. The data indicate that the transition temperature of the polar lipids of cucumber would be reduced to below 0° C, typical of a chillinginsensitive plant, when the transition temperature of PG was reduced to 15° C and this would occur at 21 mol% of disaturated molecular species. It is concluded that the transition in the thylakoid polar lipids, associated with chilling injury, involves both high- and low-meltingpoint lipids but can be reduced when the transition temperature of the high-melting-point component is reduced.Abbreviations DGDG digalactosyldiacylglycerol - MGDG monogalactosyldiacylglycerol - PG phosphatidylglycerol - SQDG sulfoquinovosyldiacylglycerol     

Paired helical filaments contain small amounts of cholesterol, phosphatidylcholine and sphingolipids

By using qualitative and quantitative high-performance thin layer chromatography (hpTLC) we found lipids associated with purified Alzheimer's (AD) paired helical filaments (PHF) in an amount of 1.4+/-0.2% of the total anhydrous mass. Compared to normal brain tissue these lipids have an unusual lipid class composition. The most prominent lipid classes were phosphatidylcholine (PC), cholesterol (CH), galactocerebrosides (GC) and sphingomyelin (SM). In addition, the use of micro high-performance liquid chromatography (HPLC) in combination with matrix-assisted laser desorption and ionisation time-of-flight mass spectrometry (MALDI-TOF-MS) allowed the determination of the molecular species of the polar membrane lipid classes present in PHF. The lipid pattern of intracellular PHF shows many characteristics of the conserved lipid pattern previously described for extracellular amyloid fibrils, suggesting similarities in their pathway of formation.     

Activation of protein kinase C by naturally occurring ether-linked diglycerides

Recent studies have demonstrated that ether-linked diglycerides are endogenous constituents of biologic tissues and accumulate during agonist stimulation (Daniel, L. W., Waite, M., and Wykle, R. L. (1986) J. Biol. Chem. 261, 9128-9132) and myocardial ischemia (Ford, D. A., and Gross, R. W. (1989) Circ. Res. 64, 173-177). Although protein kinase C previously had been thought to specifically require 1,2-diacyl-sn-glycerol (DAG) molecular species for activation, the present study demonstrates that purified rat brain protein kinase C is activated by naturally occurring ether-linked diglycerides (e.g. 1-O-hexadec-1'-enyl-2-octa-dec-9'-enoyl-sn-glycerol and 1-O-hexadecyl-2-octa-dec-9'-enoyl-sn-glycerol) with a similar dose response curve to that for DAG molecular species. Although in vitro assays demonstrated that DAG could partially activate protein kinase C in the absence of free calcium, activation by ether-linked diglycerides required free calcium concentrations found only in stimulated cells (greater than 1 microM [Ca2+]free). To substantiate these findings the alpha and beta isoforms of protein kinase C from rat brain cortical grey matter were resolved by hydroxylapatite chromatography. Although the beta isoform of protein kinase C was substantially activated by DAG in the absence of free calcium, activation by ether-linked diglycerides had an absolute requirement for physiologic increments in free calcium ion found in stimulated cells. Since ether lipids are localized in specific subcellular membrane compartments, accumulate during several pathophysiologic perturbations and are effective activators of protein kinase C with separate and distinct calcium requirements in comparison to DAG, these results suggest that ether-linked diglycerides are important and potentially specific biologic activators of one or more isoforms of protein kinase C.