Seasonal dynamics of fatty acid composition in female northern pike (Esox lucius L.)

Seasonal changes in the fatty acid composition of neutral and polar lipids were measured in the ovary, liver, white muscle, and adipopancreatic tissue of northern pike. The role of environmental and physiological factors underlying these changes was evaluated. From late summer (August–September) to winter (January–March), the weight percentage of n-3 polyunsaturated fatty acids (especially 22:6n3) declined significantly in the neutral lipids of all somatic tissues examined. However, large quantities of n-3 polyunsaturated fatty acids accumulated in the recrude cing ovaries during fall and the weight percentage of n-3 polyunsaturated fatty acids in ovary polar lipids also increased significantly. Additionally, the n-3 polyunsaturated fatty acid content of somatic polar lipids increased significantly during fall due to increases in the total polar lipid content of the somatic tissues. This suggests that during fall n-3 polyunsaturated fatty acid are diverted away from somatic neutral lipids and thereby conserved for use in ovary construction and for incorporation into tissue polar lipids. The percentage of n-3 polyunsaturated fatty acid in ovary neutral lipids also declined during fall and early winter, perhaps as an adaptation to conserve these fatty acids for storage in oocyte polar lipids and later incorporation into cellular membranes of the developing embryo. Reductions in the n-3 polyunsaturated fatty acids content of somatic and ovarian neutral lipids during fall were compensated for specifically by increases in the percentage of monounsaturated fatty acids rather than saturated fatty acids. This suggests that the ratio of saturated to unsaturated fatty acids in pike neutral lipid, is regulated physiologically, and hence may influence the physiological functioning of these lipids. During fall and early winter the percentage of saturated fatty acids declined significantly in the polar lipids of all tissues examined. This change was consistent with the known effects of cold acclimation on the fatty acid composition of cellular membranes. As the ovaries were recrudescing from September to January, liver polar lipids exhibited significant decreases in the percentage of total polyunsaturated fatty acids and n-3 polyunsaturated fatty acids and increases in monounsaturated fatty acids, and acquired a fatty acid composition very similar to that of ovary polar lipids. Therefore, seasonal changes in the percentage of polyunsaturated and monounsaturated fatty acids in liver polar lipids probably reflect the liver's role in vitellogenesis rather than the effects of temperature on membrane fatty acid composition. At all times of year, the fatty acid compositions of white muscle and adipopancreatic tissue neutral lipids were very similar, which may indicate a close metabolic relationship between these lipid compartments.Abbreviations AP adipopancreatic - BHT butylated hydroxytoluene - CI confidence interval - EFA essential fatty acids - MUFA monounsaturated fatty acids - NL neutral lipids - PL polar lipids - PUFA polyunsaturated fatty acids - SFA saturated fatty acids     

Fatty acids and cholesterol in the liver cell nuclei of hibernating Yakutian ground squirrels

The content of neutral lipids in tissue homogenates and liver cell nuclei of hibernating Yakutian ground squirrels was studied. In homogenates, hibernation increases the content of fatty acids and reduces the content of glycerides and cholesterol. When studying the liver cell nuclei of torpid winter ground squirrels, we detected a twofold increase in the content of fatty acids, cholesterol, and monoglycerides as compared to the “summer” ground squirrels. In the active “winter” ground squirrels, as compared to the torpid winter ones, the content of cholesterol did not change, whereas the content of fatty acids, monoglycerides, and diglycerides decreased but remained higher than in the “summer” ground squirrels.     

Characteristics of lipid composition in arthrospores, budding cells and mycelium of the fungus Mucor hiemalis

The fungus Mucor hiemalis F-1156, which is believed to be monomorphic, was found to be able to grow dimorphically in a liquid medium that is free of chemical agents influencing morphogenesis. The growing mycelium produced arthrospores in large amounts. The lipids of the mycelium, yeastlike budding cells, and arthrospores differed in the contents of saturated and unsaturated fatty acids and in the proportion of polar and neutral lipids. The arthrospores contained more monoenoic fatty acids in the total lipids, more triacylglycerides and sterol esters in the neutral lipids, and more phosphatidylcholine and phosphatidylethanolamine in the polar lipids than the yeastlike cells. These differences in the lipid composition of different types of fungal cells should be taken into account in the studies of the lipogenesis of M. hiemalis.     

Fungal lipid accumulation and development of mycelial structures by two arbuscular mycorrhizal fungi

We monitored the development of intraradical and extraradical mycelia of the arbuscular mycorrhizal (AM) fungi Scutellospora calospora and Glomus intraradices when colonizing Plantago lanceolata. The occurrence of arbuscules (branched hyphal structures) and vesicles (lipid storage organs) was compared with the amounts of signature fatty acids. The fatty acid 16:1omega5 was used as a signature for both AM fungal phospholipids (membrane constituents) and neutral lipids (energy storage) in roots (intraradical mycelium) and in soil (extraradical mycelium). The formation of arbuscules and the accumulation of AM fungal phospholipids in intraradical mycelium followed each other closely in both fungal species. In contrast, the neutral lipids of G. intraradices increased continuously in the intraradical mycelium, while vesicle occurrence decreased after initial rapid root colonization by the fungus. S. calospora does not form vesicles and accumulated more neutral lipids in extraradical than in intraradical mycelium, while the opposite pattern was found for G. intraradices. G. intraradices allocated more of its lipids to storage than did S. calospora. Thus, within a species, the fatty acid 16:1omega5 is a good indicator for AM fungal development. The phospholipid fatty acid 16:1omega5 is especially suitable for indicating the frequency of arbuscules in the symbiosis. We propose that the ratio of neutral lipids to phospholipids is more important than is the presence of vesicles in determining the storage status of AM fungi.     

Lipid Composition of the Arthrospores, Yeastlike Cells, and Mycelium of the Fungus Mucor hiemalis

The fungus Mucor hiemalisF-1156, which is believed to be monomorphic, was found to be able to grow dimorphically in a liquid medium that is free of chemical agents influencing morphogenesis. The growing mycelium produced arthrospores in large amounts. The lipids of the mycelium, yeastlike budding cells, and arthrospores differed in the contents of saturated and unsaturated fatty acids and in the proportion of polar and neutral lipids. The arthrospores contained more monoenoic fatty acids in the total lipids, more triacylglycerides and sterol esters in the neutral lipids, and more phosphatidylcholine and phosphatidylethanolamine in the polar lipids than the yeastlike cells. These differences in the lipid composition of different types of fungal cells should be taken into account in the studies of the lipogenesis of M. hiemalis.     

Plasma and muscle phospholipids are involved in the metabolic response to long-distance migration in a shorebird

We studied: (1) concentrations and fatty acid compositions of plasma non-esterified fatty acids, neutral lipids, and phospholipids, and (2) fatty acid composition of flight muscle phospholipids in wintering, premigratory, and spring and fall migrating western sandpipers ( Calidris mauri). Plasma neutral lipid and phospholipid levels were elevated in migrants, reflecting high rates of fat deposition. An important role of phospholipids in fattening is suggested by the fact that the amount of fatty acids in plasma phospholipids was similar to, or in spring as much as twice, that of neutral lipids. Changes in the ratio of plasma neutral lipids to phospholipids may indicate seasonal changes in triacylglycerol stores of invertebrate prey. Monounsaturation and total unsaturation of plasma neutral lipids and phospholipids increased during migration. Muscle phospholipids were more monounsaturated in spring and fall, but total unsaturation was reduced in fall. Arachidonic acid [20:4(n-6)] was especially abundant in muscle phospholipids in winter (29%) and declined during migration (19-22%), contributing to a decline in the ratio of n-6 to n-3 fatty acids. The abundance of plasma phospholipids and variability of neutral lipid to phospholipid ratio indicates that measurement of plasma phospholipids will improve methods for assessment of fattening rates of birds. The functional significance of changes in muscle phospholipids is unclear, but may relate to depletion of essential n-6 fatty acids during exercise.     

Isolation and composition of the carotenoid-containing oil droplets from cone photoreceptors.

A procedure for isolating the carotenoid-containing oil droplets of cone retinal photoreceptors of Gallus domesticus is described. The oil droplets, composed almost entirely of neutral lipids and carotenoids, have been separated into ten chromatographic components. Similar separations have been carried out on the total retinal neutral lipids for comparison. The neutral lipids represented 26.1% of the total retinal lipid. Cholesterol, cholesterol ester, mono-, di- and triacylglycerols represented 92.6% of the total neutral lipid. Each of these and other minor neutral lipid components were also present in the lipids extracted from the isolated oil droplets in correspondingly similar concentrations. However, the concentrations of carotenoids were greatly enriched in the neutral lipids of the oil droplets. Each of the major fatty acyl-containing neutral lipids from the chromatography of oil droplet lipids is greatly enriched in polyunsaturated fatty acids when compared with the corresponding component from the total neutral lipid chromatography. In the acylglycerols and free fatty acid fraction from the oil droplets, linoleic and arachidonic acid together represented 52-83% of the total polyunsaturated fatty acids present. The remainder was generally distributed about equally among six other acids. Except for the diacylglycerol fraction, linoleic acid was usually the most enriched acid in a specific oil droplet fraction when compared with any other polyunsaturated fatty acids. A similar pattern of polyunsaturated fatty acid enrichment observed in the fatty acids of the outer segment phospholipids relative to the corresponding total phospholipid fractions of this cone rich retina (Johnston, D. and Hudson, R.A. (1974) Biochim. Biophys. Acta 369, 269) suggest possible metabolic relationships between the oil droplet neutral lipids and the outer segment membrane phospholipids of the cone photoreceptors. A mechanism for the accumulation of the carotenoids in the oil droplets is also discussed.     

Synthesis of lipids in isolated nuclei from rat thymus and liver cells

Synthesis of lipids was studied in isolated nuclei from rat thymus and liver cells. On incubation of the isolated nuclei with [2-¹⁴C]acetate and [1-¹⁴C]glycerol, the label was intensively incorporated into phospholipids and with a significantly lower intensity into fatty acids and cholesterol. Only trace amounts of radioactivity were detected in the lipids of chromatin prepared from isolated thymus nuclei after their incubation, and this suggested that lipids were mainly synthesized on the nuclear membrane. On the preincubation of thymus tissue homogenate with [2-¹⁴C]acetate and the subsequent isolation of the nuclei and chromatin, the radioactivity of chromatin lipids was comparable to the radioactivity of nuclear lipids. The findings suggested that in the isolated nuclei the newly synthesized lipids were not transported into chromatin from the nuclear membrane. The specific radioactivities of individual phospholipids and fatty acids were different in the isolated nuclei and in nuclei obtained from preincubated homogenate. Mechanisms of lipid synthesis in isolated nuclei and causes of the different radioactivities of lipids in the isolated nuclei and in the nuclei obtained from the preincubated homogenate are discussed.     

Fungal Lipid Accumulation and Development of Mycelial Structures by Two Arbuscular Mycorrhizal Fungi

We monitored the development of intraradical and extraradical mycelia of the arbuscular mycorrhizal (AM) fungi Scutellospora calospora and Glomus intraradices when colonizing Plantago lanceolata. The occurrence of arbuscules (branched hyphal structures) and vesicles (lipid storage organs) was compared with the amounts of signature fatty acids. The fatty acid 16:1ω5 was used as a signature for both AM fungal phospholipids (membrane constituents) and neutral lipids (energy storage) in roots (intraradical mycelium) and in soil (extraradical mycelium). The formation of arbuscules and the accumulation of AM fungal phospholipids in intraradical mycelium followed each other closely in both fungal species. In contrast, the neutral lipids of G. intraradices increased continuously in the intraradical mycelium, while vesicle occurrence decreased after initial rapid root colonization by the fungus. S. calospora does not form vesicles and accumulated more neutral lipids in extraradical than in intraradical mycelium, while the opposite pattern was found for G. intraradices. G. intraradices allocated more of its lipids to storage than did S. calospora. Thus, within a species, the fatty acid 16:1ω5 is a good indicator for AM fungal development. The phospholipid fatty acid 16:1ω5 is especially suitable for indicating the frequency of arbuscules in the symbiosis. We propose that the ratio of neutral lipids to phospholipids is more important than is the presence of vesicles in determining the storage status of AM fungi.     

DNA-bound lipids from eukaryotic (loach spermatozoa, pigeon erythrocytes) and prokaryotic (E. coli B, phage T2) cells

Using thin-layer chromatography, some specific DNA-bound neutral lipids and phospholipids of loach spermatozoa, pigeon erythrocytes, E. coli B and phage T2 cells were studied. These lipids are represented by loosely and firmly bound components. The content of neutral lipids in the above DNAs (per mg of DNA) is 10.6, 4.8, 7.81 and 1.43 micrograms, respectively; that of phospholipids is 4.31, 1.28, 1.14 and 0.54 micrograms, respectively. The eucaryotic DNA-bound lipids are highly deficient of free cholesterol, phosphatidylcholine, phosphatidylinositol and phosphatidylserine but are rich in cardiolipin, phosphatidylethanolamine, cholesterol esters, diglycerides and free fatty acids. The quantitative and qualitative composition of DNA-bound lipids of loach spermatozoa changes during the transition from the superhelical to the relaxed conformation of DNA. Procaryotic DNA-bound neutral lipids are also represented by the free cholesterol, diglyceride and free fatty acid fractions, whereas the DNA-bound phospholipids of procaryotes consist of only two fractions, i.e., cardiolipin and phosphatidylethanolamine. The role of DNA-bound lipids in the structural and functional organization of eucaryotic and procaryotic genomes is discussed.     

Metabolism of polyunsaturated fatty acids by rabbit reticulocytes

Rabbit reticulocytes obtained by repeated bleeding metabolize exogenous [1-14C]linoleic acid and [1-14C]arachidonic acid by three different pathways. 1. Incorporation into cellular lipids: 50% of the fatty acids metabolized are incorporated into phospholipids, mainly phosphatidylcholine (32.8%) but also into phosphatidylethanolamine (12%), whereas about 10% of the radioactivity was found in the neutral lipids (mono- di- and triacylglycerols, but not cholesterol esters). 2. Formation of lipoxygenase products: 30% of the fatty acids metabolized are converted via the lipoxygenase pathway mainly to hydroxy fatty acids. Their formation is strongly inhibited by lipoxygenase inhibitors such as 5,8,11,14-eicosatetraynoic acid or nordihydroguaiaretic acid. Inhibition of the lipoxygenase pathway results in an increase of the incorporation of the fatty acids into cellular lipids. 15-Hydroxy-5,8,11,13(Z,Z,Z,E)eicosatetraenoic acid and 13-hydroxy-9,11(Z,E)-octadecadienoic acid are incorporated by reticulocytes into cellular lipids and also are metabolized via beta-oxidation. The metabolism of arachidonic acid and linoleic acid is very similar except for a higher incorporation of linoleic acid into neutral lipids. 3. beta-Oxidation of the exogenous fatty acids: about 10% of the polyenoic fatty acids are metabolized via beta-oxidation to 14CO2. Addition of 5,8,11,14-eicosatetraynoic acid strongly increased the 14CO2 formation from the polyenoic fatty acids whereas antimycin A completely abolished beta-oxidation. Erythrocytes show very little incorporation of unsaturated fatty acids into phospholipids and neutral lipids. Without addition of calcium and ionophore A23187 lipoxygenase metabolites could not be detected.     

Effect of "marine" phospholipids omega-3 fatty acids on the composition of fatty acids of rat liver microsomal membrane under oxidative stress

As a result of experiments conducted the marine phospholipids preparation enriched by omega-3 fatty acids was defined to modify fatty acids content due to changes of fatty acids level change in the neutral lipids and phospholipids fractions. As well it was identified, that at the oxidative stress induced by administration of CCl4 the growth of arachidonic and docozahexaenoic acids in the neutral lipids fractions was observed if compare with the norm. At the same time, the presented fatty acids in the phospholipids fractions remained unchanged. At oxidative stress the phospholipids fraction reacts to levels of arachidonic and docozahexaenoic acids just only as a result of administrating phospholipids with omega-3 fatty acids. The most attractive is the change of correlation C20:4/C22:6--increasing at administration of CCl4 and decreasing both at phospolipids and vitamin E injection. Thus, at the oxidative stress the first reacting ones are the fatty acids of neutral lipids microsomal membranes.     

Lipids of Pinus halepensis pollen

The total lipids of Pinus halepensis pollen were separated into individual classes of neutral and polar lipids and the components of each class were identified and determined quantitatively. Free fatty acids, waxes and triacylglycerols were found as the main constituents of neutral lipids and phosphatidylcholine and phosphatidylethanolamine of polar lipids. Glycerylether derivatives were detected in neutral and polar lipid fractions. Free and esterified volatile fatty acids were also found in pollen and its neutral lipid fraction.     

The effects of branched chain fatty acid incorporation into Neurospora crassa membranes

Phytanic acid (3,7,11,15-tetramethylhexadecanoic acid), an unusual branched chain fatty acid thought to disrupt the hydrophobic regions of membranes, can be incorporated into the lipids of growing Neurospora cultures. The phytanic acid must be supplied in a water soluble form, esterified to a Tween detergent (Tween-Phytanic). This fatty acid and its oxidation product, pristanic acid, were found in both the phospholipid and neutral lipid fractions of Neurospora. In phospholipids of the wild-type strain, phytanic acid was present to the extent of 4 to 5 moles percent of the fatty acids and pristanic acid, about 41 moles percent. The neutral lipids contained 42 and 4 moles percent of phytanic and pristanic acids respectively. By employing a fatty acid-requiring mutant strain (cel^?), the phytanic acid level was raised to a maximum of 16 moles percent in the phospholipids and to 63 moles percent in the neutral lipids. Under this condition, the level of pristanic acid was reduced to about 6 moles percent in phospholipids and 1 mole percent in the neutral lipids. The phytanic acid levels could not be further elevated by increased supplementation with phytanic acid or by a change in the growth temperature. In strains with a high phytanic acid content, the complete fatty acid distribution of the phospholipids and neutral lipids was determined. In the neutral lipids, phytanic acid appeared to replace the 18 carbon fatty acids, particularly linoleic acid. The presence of phytanic acid in the phospholipids was confirmed by mass spectrometry, and by the isolation of a phospholipid fraction containing this fatty acid via silicic acid column chromatography. Most of the phytanic acid in phospholipids appeared to be in phosphatidylethanolamine, and 2 lines of evidence suggest that it was esterified to both positions of this molecule. In the fatty acid-requiring mutant strain (cel^?), the replacement by phytanic acid of 10 to 15% of the fatty acids in the phospholipid produced an aberrant morphological change in the growth pattern of Neurospora and caused this organism to be osmotically more fragile than the wild-type strain. The lack of noticeable effect of the high levels of pristanic acid in the phospholipids suggests that it is not just the presence of the methyl groups in a branched chain fatty acid which leads to the altered membrane function in this organism.     

Membrane Lipids of Mycoplasma hominis

Essentially all of the lipids of Mycoplasma hominis (200 mug/mg of cell protein) were found to be located in the cell membrane. Over one-half were neutral lipids incorporated from the growth medium and consisting of 43% free cholesterol, 19% esterified cholesterol, 23% triglycerides, 10% free fatty acids, and small amounts of di- and monoglycerides. The polar lipids accounting for about 40% of the total were synthesized by the organisms. Phosphatidylglycerol was the predominant lipid of this fraction. The minor components, tentatively identified as lysophosphatidylglycerol and phosphatidic acid, seem to represent breakdown products of phosphatidylglycerol. No glycolipids were detected. Being unable to synthesize long-chain fatty acids, M. hominis utilized the fatty acids of the growth medium for polar lipid synthesis, preferentially the saturated ones, so that the polar lipids had highly saturated hydrocarbon chains. It is proposed that the large take up of unsaturated neutral lipids and cholesterol from the medium offsets the marked condensing effect of the saturated polar lipids, although electron paramagnetic resonance spectrometry of spin-labeled fatty acids incorporated into the M. hominis membrane indicated that the lipid region is still more rigid than that of the Acholeplasma laidlawii membrane.     

Lipid composition of housefly microsomes

The lipid composition of microsomes isolated from whole-body preparations of a diazinon-resistant strain of the housefly (Musca domestica L.) was determined. When calculated on a mg% basis housefly microsomes are composed of 47% neutral lipids and 53% phospholipids. The free fatty acids compose the major group of compounds among neutral lipids (60%) and the major phospholipid is phosphatidylethanolamine (47.6%). The molar cholesterol/phospholipid ratio is 0.14, ca. twofold higher than the ratio found in mammalian liver microsomes. Fatty acid composition of housefly microsomes is notable only in that there is no uniform distribution of fatty acid moieties throughout the various classes of lipids, except for linoleic acid (18:2), which accounted for 9.2-12.6% of the neutral lipids. Eighty percent of the fatty acid moieties of phosphatidylserine (+ phosphatidylinositol) were unsaturated. The highest percentage of saturated fatty acid moieties (64.26%) was found in lysophosphatidylethanolamine. Palmitoleic acid (16:1), the major fatty acid found in higher dipterans, ranged from 13.51% in lysophosphatidylethanolamine to 37.45% in the free fatty acids. One prostaglandin (PGF_1d) and leukotriene B₄ were detected in the microsomal lipids at concentrations of 59.7 and 716 pg/200 mg of protein, respectively.     

Incorporation of 2-14C-acetate into isolated nuclei and cytosolic lipids of rat thymus cells

It is generally recognized nowadays that active lipid metabolism takes place in the nucleus of a mammalian cell. Experimental data testify to the biosynthesis of polyphosphoinositides and phosphatidylcholine and reveal corresponding enzymes within nuclei of mammalian cells. These findings suggest that lipidmediated signaling pathways in nuclei operate independently of lipid-mediated regulatory mechanisms functioning in membranes and cytosol. To explore the pathways of intranuclear lipid biosynthesis, we studied incorporation of 2-¹⁴C-acetate into lipids of cytosol and isolated nuclei of rat thymus cells after separate and combined incubation with the labeled precursor. The most efficient incorporation of 2-¹⁴C-acetate into lipids (cholesterol, free fatty acids, and phospholipids) was observed in a reaction mixture containing cytosol. When the reaction mixture contained only nuclei, incorporation of the radioactive precursor into lipids also took place, but specific radioactivity of the lipids was essentially lower than in the cytosol. In both cases, 2-¹⁴C-acetate incorporated into phosphatidylethanolamine, sphingomyelin, phosphatidylserine, phosphatidylinositol, and cardiolipin. Phosphatidylcholine, the most abundant membrane phospholipid, demonstrated the lowest radioactivity, which was significantly lower than that of phosphatidylethanolamine. Incorporation of newly synthesized free fatty acids in nuclear phospholipids was inhibited, if nuclei were incubated with cytosol. As a result, radioactive free fatty acids were accumulated in nuclei, while in cytosol they were efficiently incorporated into phospholipids. The levels of phospholipids and cholesterol remained constant regardless of incubation protocol, while the overall yield of free fatty acids decreased after combined incubation of nuclear and cytosolic fractions or after incubation of cytosol without nuclei. Putative mechanisms underlying the appearance of radioactive lipids in isolated nuclei of thymus cells are discussed.     

Extracellular lipids of Cladosporium (Amorphotheca) resinae grown on glucose or on n-alkanes.

Cladosporium (Amorphotheca) resinae was grown in shake culture on glucose, n-dodecane, or n-hexadecane. Growth was most rapid on glucose, and more acid accumulated in the medium than in n-alkane-grown cultures. Neutral lipid was the major lipid fraction and triglycerides were the only extracellular neutral lipids detected. Dodecanoic (lauir) acid was the predominant fatty acid (greater than 60%) in neutral lipids from all three media, with lesser amounts of tetradecanoic, hexadecanoic, and octadecanoic acids. Extracellular phospholipids identified were phosphatidylcholine, phosphatidylserine, phosphatidylethanolamine, and cardiolipin or a cardiolipin-like compound. Phospholipids from all three media contained dodecanoic acid as their principle fatty acid. Dodecanoic acid was the only extracellular free fatty acid detected. Glucose medium contained acetic, glyoxylic, and glycolic acids and an unidentified organic acid which may contribute to the lower pH in cultures after growth on glucose. In all classes of extracellular lipids the fatty acids do not correspond to the fatty acids previously determined to be associated with cellular lipids. Moreover, the fatty acids of extracellular lipids do not reflect the chain length of the n-alkane growth substrate.     

Human stratum corneum lipids: characterization and regional variations

The lipids of mammalian stratum corneum are known to be important regulators of skin permeability. Since the human stratum corneum displays remarkable regional variations in skin permeability, we assessed the total lipid concentration, the distribution of all major lipid species, and the fatty acid composition in Bligh-Dyer extracts from four skin sites (abdomen, leg, face, and sole) that are known to display widely disparate permeability. Statistically significant differences in lipid weight were found at the four sites that were inversely proportional to their known permeability. In all four sites, among the polar lipids, the stratum corneum contained negligible phospholipids, but substantially more cholesterol sulfate (1-7%) than previously appreciated. As in the stratum corneum from other mammals, the bulk of the lipids consisted of neutral (60-80%) and sphingolipids (15-35%). Of the neutral lipids, free sterols (4- to 5-times greater than esterified sterols), free fatty acids, triglycerides, and highly nonpolar species (n-alkanes and squalene) predominated. n-Alkanes, which were present in greater quantities than previously appreciated, comprised a homologous series of odd- and even-chained compounds ranging from C19 to C34. The sphingolipids comprised over 80% ceramides vs. lesser quantities of glycosphingolipids. In all four sites, the sphingolipids were the major repository of long-chain, saturated fatty acids. The neutral lipid:sphingolipid ratio generally was proportional to the known permeability of each site: higher neutral lipids and lower sphingolipids generally were associated with superior barrier properties. These studies provide: 1) the first detailed, quantitative analysis of human stratum corneum lipids and 2) information about the variability in lipid composition at four skin sites with known differences in permeability. The latter results suggest that variations in neutral lipids, rather than sphingolipids, may underlie local variations in skin permeability.     

Occurrence of long-chain fatty acids and glycolipids in the cell-envelope fractions of baker''s yeast

1. The total yield of fatty acids from the whole envelopes was markedly higher than that obtained from the ordinary cell walls. In both samples the major fatty acids were C(16) and C(18) acids. 2. The whole envelopes contained C(18) acids and long-chain (C(19)-C(26)) fatty acids, in a higher proportion than did the ordinary cell walls. Fifteen fatty acids with more than 18 carbon atoms were identified, among which 2-hydroxy-C(26:0) and C(26:0) acids predominated. 3. A complex sphingolipid containing inositol, phosphorus and mannose was isolated from the whole cell envelopes. The main fatty acids of this lipid were 2-hydroxy-C(26:0) and C(26:0) acids. It was concluded that this sphingolipid is present both in the ordinary cell wall and in the plasma membrane of baker's yeast. 4. The neutral lipids amounted to over 50% and the glycerophosphatides to about 30% of the total fatty acid content of the whole envelope. The major fatty acids in these lipids were C(16:1), C(18:1) and C(16:0) acids. The proportion of fatty acids with more than 18 carbon atoms was lowest in the neutral lipids, whereas the neutral glycolipids contained the highest percentage of these fatty acids. Acidic glycolipids amounted to 14% of the total fatty acid content of the whole envelope. The presence of a cerebroside sulphate in this lipid fraction was demonstrated, whereas the high content of 2-hydroxy-C(26:0) acid found is caused by the complex inositol- and mannose-containing sphingolipid.