Metabolic interrelations of hydroxy-substituted ether-linked glycerolipids in the pink portion of the rabbit harderian gland.

The pink portion of the rabbit harderian gland is known to contain a preponderance of ether-linked glycerolipids consisting primarily of 1-(O-acyl)hydroxyalkyl-2,3-diacyl-sn-glycerols and smaller amounts of 1-alkyl-2,3-diacyl-sn-glycerols. In the present study, we have used a combination of chemical, enzymatic, and chromatographic techniques to identify two minor lipid components in the gland as 1-hydroxyalkyl-2-acyl-sn-glycerols and 1-hydroxyalkyl-2,3-diacyl-sn-glycerols. The long-chain acyl groups occurring in the 1-hydroxyalkyl-2-acyl-sn-glycerols and 1-hydroxyalkyl-2,3-diacyl-sn-glycerols are almost exclusively hexadecanoic acid, whereas the 1-(O-acyl)hydroxyalkyl-2,3-diacyl-sn-glycerols have a ratio of hexadecanoic acid to octadecanoic acid of $\text{2}\text{1}$. The 1-(O-acyl) hydroxyalkyl-2,3-diacyl-sn-glycerols and the 1-hydroxyalkyl-2,3-diacyl-sn-glycerols also contain a short-chain acyl moiety identified as 3-methylbutanoic acid (isovaleric acid). This acid was found to occupy the 3-position of the glycerol backbone in these lipid classes.Metabolic experiments demonstrate that 3-methylbutanoic acid in the lipids of the gland is derived from the catabolism of l-leucine. Pulse-chase data show a precursor-product relation between the 1-hydroxyalkyl-2,3-diacyl-sn-glycerols and 1-(O-acyl-hydroxyalkyl-2,3-diacyl-sn-glycerols and rule out direct hydroxylation of 1-alkyl-2,3-diacyl-sn-glycerols as a possible biosynthetic route to the 1-(O-acyl)hydroxyalkyl-2,3-diacyl-sn-glycerols.Characterization of the alkyl and acyl groups and the positional distributions of the acyl moieties in combination with the metabolic information indicated the acylation sequence involved in the formation of 1-(O-acyl)hydroxyalkyl-2,3-diacyl-sn-glycerol is 1-hydroxyalkyl-2-acyl-sn-glycerols → 1-hydroxyalkyl-2,3-diacyl-sn-glycerols → 1-(O-acyl)hydroxyalkyl-2,3-diacyl-sn-glycerols. The data also suggest that hydroxylation of the alkyl side-chain occurs before or at the alkylacylglycerol stage.     

A short-chain acyl-CoA: 1-alkyl-2-acyl-sn-glycerol acyltrasnferase from a microsomal fraction of the rabbit Harderian gland.

The 3-position of the alkyldiacylglycerols from the pink portion of the rabbit harderian gland is occupied exclusively by isovaleric acid. We describe a microsomal 1-alkyl-2-acyl-sn-glycerol acyltransferase from this gland which specifically incorporates short-chain acyl-CoA's into the 3-position of alkylacyl-glycerols. The enzyme is most active in the presence of CoA esters with chain lengths similar to isovaleric acid and is inactive in the presence of acetyl CoA and long-chain acyl-CoA's. No evidence was found for an enzyme that would transfer long-chain acyl-CoA's to the same substrate. The specificity of this acyltransferase can account for the exclusion of long-chain acyl moieties from the 3-position of the alkyldiacylglycerols in the harderian gland of rabbits.     

Identification of 1-alkyl-2-acyl-3-(2',3'-diacylglycerol)glycerols, a new type of lipid class, in harderian gland tumors of mice

A new class of alkyl glycerolipids, 1-alkyl-2-acyl-3-(2',3'-diacylglycerol)glycerols, was identified in lipid extracts prepared from harderian gland tumors of mice. After saponification, this lipid class yielded 1-alkyl-3-(1'-glycerol)glycerols. Identification was based on mass spectrometry, proton nuclear magnetic resonance spectroscopy, infrared spectroscopy, and chromatography of various derivatives and appropriate standards that were synthesized. The alkyl moieties of this unique lipid class consisted of saturated aliphatic chains with chain lengths of 14 to 20 carbon atoms. The acyl moieties were mostly saturated and monounsaturated aliphatic chains ranging from 14 to 24 carbon atoms. The alkyl and acyl moieties of 1-alkyl-2-acyl-3-(2',3'-diacylglycerol)glycerols were similar to those of alkyldiacylglycerols present in the same tissue, except for the presence of monounsaturated alkyl moieties in the latter. 1-Alkyl-2-acyl-3-(2', 3'-diacylglycerol)glycerols were only found in trace amounts in the normal harderian glands of mice. The total quantity of the alkyl and acyl moieties with a chain length greater than 20 carbon atoms in the alkyldiacylglycerols from tumors were considerably lower than those found in normal harderian glands of mice. This is the first report of the presence of bisglyceryl ether lipids in mammalian tissue; its unique chemical structure is consistent with the type of ether-linked lipid products that could be synthesized in the reaction catalyzed by alkyldihydroxyacetone-P synthase.     

Coupling of the biosynthesis of fatty acids and fatty alcohols.

A cell-free system for the biosynthesis of fatty alcohols in the pink portion of the rabbit harderian gland is described. The radiolabeled substrates for the fatty acid reductase were generated using soluble fatty acid synthase from the gland in the presence of acetyl-CoA, malonyl-CoA, and NADPH. Harderian gland microsomes, ATP, and Mg²⁺ were absolute requirements for the synthesis of fatty alcohols and if any of these components were deleted from the assay mixture, no alcohols were detected. We were also unable to detect formation of fatty alcohols if acyl-CoAs were substituted for fatty acid synthase with either NADPH or NADH as reducing agents. The reductase was localized in the microsomal fraction and appears to be on the cytosol-membrane interface of the vesicles, as indicated in experiments using detergents and trypsin. The fatty alcohols formed by the system had the same chain length distribution as the fatty acids made by the fatty acid synthase. The alkyl moieties of the ether lipids in the harderian gland are exclusively saturated and the properties of the alcohol-synthesizing system described in this report can account for the observed exclusion of unsaturated alkyl moieties from the ether lipids of this gland.     

Isolation and identification of an alkyldiacylglycerol containing isovaleric acid

We have isolated and identified a unique subclass of alkyldiacylglycerols from the pink portion of the harderian gland of the New Zealand white rabbit. Using chemical, enzymic, chromatographic, and physical procedures, the lipid class has been identified as 1-alkyldiacylglycerol containing 1 mole of isovaleric acid. More than 50% of the O-alkyl moieties consist of 16:0 and 18:0 carbon chains, whereas the other major O-alkyl moieties are 15:0 and 17:0 branched chains ( approximately 30%). The long-chain acyl groups of the alkyldiacylglycerol subclass consist primarily of saturated fatty acids (60% 16:0 and 30% 18:0) and a small amount of branched-chain fatty acids ( approximately 5%), whereas the 3-position appears to be occupied by isovaleric acid.     

Synthesis and antiplasmodial activity of lycorine derivatives

Twenty seven lycorine derivatives were prepared and evaluated for their in vitro antimalarial activity against chloroquine-sensitive strains of Plasmodium falciparum. The best antiplasmodial activities were achieved with lycorine derivatives that present free hydroxyl groups at C-1 and C-2 or esterified as acetates or isobutyrates. The double bond C-2–C-3 is also important for the activity. Concerning to the antiplasmodial activity of the secolycorines, the higher values were obtained with the replacement of the methylenedioxy moiety by hydroxyl or acetate groups and with methyl substituent attached to the nitrogen atom.     

Synthesis and content of ether-linked glycerophospholipids in the harderian gland of rabbits.

Although harderian glands are rich in neutral glycerolipids with ether bonds, less than 20% of the choline glycerophospholipids have ether bonds in the white and pink portions of the adult rabbit harderian gland. Only 6% of these are plasmalogens while 94% are alkylacyl glycerophosphocholines. The ethanolamine glycerophospholipids include 37% with ether bonds in both white and pink portions. In the white portion 96% are plasmalogens but only 19% are plasmalogens in the pink portion. The microsomal ethanolaminephosphotransferase (EC 2.7.8.1) is more active with diacylglycerols than with alkylacylglycerols. The microsomal cholinephosphotransferase (EC 2.7.8.2) is equally active with both diradylglycerols. Particularly with microsomes from the pink portion, the apparent Km values for CDPethanolamine and CDPcholine are ower in the presence of alkylacylglycerols than in the presence of diacylglycerols. The incorporation of radioactivity from CDP[14C]ethanolamine and CDP[14C]choline into ethanolamine and choline plasmalogens was increased several-fold by addition of alkylacylglycerols but was not increased substantially by addition of diacylglycerols.     

Enzymatic regioselective deprotection of peracetylated mono- and disaccharides

Selective enzymatic hydrolysis of the peracetylated disaccharides, namely cellobiose, lactose, maltose and melibiose, with lipase from Asperilligus niger in aqueous buffer and organic solvent for 30 min afforded exclusively the corresponding heptaacetates with a free hydroxyl group at C-1 in high yield. Prolonged reaction of the β-1,4 linked cellobiose and lactose peracetates afforded selectively their hexaacetates with free hydroxyl groups at C-1,2, whereas the α-1,4 linked disaccharides maltose and melibiose peracetate gave a complex mixture of products. The reaction of 2-acetamido-2-deoxy-1,3,4,6-tetra-O-acetylglucopyranose (11) for 22 h afforded as the major product the diacetate 12 with free hydroxyl groups at C-1,4.     

Formation of optically active ether lipids from race-mic-1-O-tetradecylglycerol in plant cell cultures

Photomixotrophic rape cells in culture specifically incorporate 1-O-tetradecyl-sn-glycerol from a racemic mixture into complex alkyl glycerolipids. Thus, both neutral and ionic 1-O- alkyl-2-O-acyl-sn-glycerolipids with defined alkyl moieties can be prepared from racemic mixtures of alkylglycerols.     

Synthetic rates of key stored fatty acids in the biosynthesis of sex pheromone in the moth Heliothis virescens

Using a tracer–tracee approach, we fed 1-d-old virgin Heliothis virescens U-¹³C-glucose and analyzed the key labeled fatty acids, (Z)-11-hexadecenoate, hexadecanoate and octadecanoate, known to be intermediates in pheromone biosynthesis, by mass isotopomer distribution analysis. This method allowed determination of enrichment, and fractional (FSR) and absolute (ASR) synthetic rates. As expected, FSRs and ASRs for all three moieties were greater in the scotophase than photophase. However, in whole gland extracts, FSRs and ASRs of (Z)-11-hexadecenoate and hexadecanoate were much lower than those of the major pheromone component, (Z)-11-hexadecenal, determined previously. Since pheromone is made via these acids, we postulated that pheromone was produced directly and very rapidly via a small pool of acyl CoA thioesters of these acids and that the pool of acids we analyzed in our whole gland extract was largely a ‘dead end’ pool of excess acids (i.e., not converted directly to pheromone) stored in glycerolipids. We tested this by fractionating the whole glandular extract and analyzing the glycerolipid fraction. FSRs and ASRs for the two acids in the glycerolipid fraction were similar to those for the whole gland extract, confirming our postulate. Thus, most acetate produced in the pheromone gland is converted rapidly and directly to pheromone, while excess fatty acids are stored in glycerolipids and remain relatively inaccessible for pheromone production, at least over the two periods studied. Precursor enrichment of octadecanoate was substantially lower than that determined for the two 16-carbon acids and pheromone component. This suggests that hexadecanoate is the principal product of the multi-enzyme complex fatty acid synthase in the gland, and that octadecanoate is formed by subsequent chain elongation of hexadecanoate.     

Structure of Shigella sonnei lipid A

The detailed chemical structure of lipid A of Shigella sonnei phase II was elucidated. The lipid A backbone consists of a β-1,6-linked glucosamine disaccharide substituted with (mono) phosphates both at C-1 and C-4′. This was shown by selective degradation followed by ³¹P-NMR studies. C-4 and C-6′ were found to contain unsubstituted hydroxyl groups, the latter being the point of attachment of KDO as reported for other enterobacterial lipids A.The amino groups of the glucosamine disaccharide are substituted by 3-hydroxy fatty acids: 3-O-(14:0) 14:0 at the non-reducing glucosamine and 3-O-(12:0) 14:0 at the reducing glucosamine. In contrast to earlier reports, no ethanolamine or phosphodiester linkages were found in lipid A.     

The metabolism of esterified cholesterol in rabbit plasma low density lipoproteins

The metabolism of esterified cholesterol in plasma low density lipoproteins (LDL) has been studied in rabbits. LDL labelled with ³H in the esterified and free cholesterol moieties was isolated from the serum of donar rabbits which has been injected with [³H]mevalonic acid, and subsequently either incubated at 37°C in vitro with unlabelled rabbit serum or unlabelled rabbit lipoprotein fractions, or reinjected into other rabbits.In vitro there was found to be a transfer of 40–60% of the esterified [³H]-cholesterol out of LDL into both the very low density lipoprotein (VLDL) and high density lipoprotein (HDL) fractions which could not be explained in terms of net transfer of esterified cholesterol mass. In the incubations of labelled LDL with either of the other unlabelled lipoprotein fractions, transfers were apparent only if the dialysed 1.21 g/ml infranatant of rabbit serum was also present. The transfer of esterified [³H]cholesterol out of LDL was enhanced when lecithin:cholesterol acyltransferase was active.After reinjecting labelled LDL into other rabbits, it was found that more than half of the esterified [³H]cholesterol removed from the recipient LDL fraction during the first 30 min was not lost from the plasma compartment, but rather was recovered in HDL. There was only minimal in vivo transfer of LDL esterified [³H]cholesterol into VLDL.It has been concluded that in vitro the esterified cholesterol in LDL exchanges with that in both the VLDL and HDL, and that in vivo the esterified cholesterol pools in LDL and HDL may represent parts of a progressively equilibrating plasma pool.     

The manipulation of fatty acid composition in L-M cell monolayers supplemented with cyclopentenyl fatty acids

Mouse L-M fibroblasts, grown in a serum-free medium, were supplemented with fatty acids of 16 and 18 carbon chain lengths that contain a cyclopentene ring in the ω position. These fatty acids, unnatural to mammalian systems, were incorporated into the major lipid classes of L-M fibroblasts. Supplementation with the cyclopentenyl fatty acids caused an accumulation of neutral glycerolipids and marked inhibition of cell growth. Following the addition of supplement, the cells became more rounded. Of particular interest was the fact that the phospholipid fraction isolated from treated cells contained cyclic fatty acids that accounted for as much as 24% of the total phospholipid acyl groups. Unlike the pattern of distribution displayed by endogenous natural monoenes, the majority of the cyclic acid present was esterified in the sn-1 position of both phosphatidylcholine and phosphatidylethanolamine. The 18-carbon cyclic fatty acid [chaulmoogric acid, 13-(2-cyclopenten-1-yl)tridecanoic acid] was incorporated at the expense of the endogenous C-16:0, C-18:0, and C-18:1 fatty acids of the glycerophospholipids. The esterification altered the ratio of saturated to unsaturated acyl groups in the cellular phospholipids. No biochemical modification of chaulmoogric acid was detected.Our results imply that incorporation of unnatural fatty acid analogs, such as chaulmoogric acid, into cellular membranes would alter the functional properties of biological membranes that are dependent on membrane fluidity and structural organization.     

Enzymatic formation of (20R, 22R)-20,22-dihydroxycholesterol from cholesterol and a mixture of 16O2 and 18O2: random incorporation of oxygen atoms

[4-¹⁴C]Cholesterol was incubated with an adrenocortical preparation in the presence of ¹⁶O₂ and ¹⁸O₂ devoid of significant ¹⁶O¹⁸O. Isolated (20R,22R)-20,22-dihydroxycholesterol was converted to a trimethylsilyl derivative and analyzed by gas chromatography - mass spectrometry to determine the isotope distribution of the oxygen atoms at C-20 and C-22. The ions of $\text{m}\text{e}$ 289, 291, and 293 (comprising the C₈ C-20 to C-27 side-chain and containing, respectively, ¹⁶O₂, ¹⁶O¹⁸O, and ¹⁸O₂) exhibited a binomial distribution indicating that the oxygen atoms of the vicinal glycol were drawn at random from the atomic pool of the oxygen molecules. If both side-chain hydroxyl groups had originated from the atoms of the same oxygen molecule, the ion of $\text{m}\text{e}$ 291 would have been absent.     

12-disinapolylglucose accumulated in cotyledons of dark-grown raphanus sativus seedlings

A new sinapic acid ester has been isolated and characterized as 1(E),2(E)-di-O-sinapoyl-β-d-glucopyranoside from cotyledons of dark-grown red radish (Raphanus sativus) seedlings. Its structure was elucidated by negative ion fast atom bombardment mass spectrometry, ¹H and ¹³C NMR spectra and enzymatic determination of the glucose moiety. A possible biosynthetic mechanism for the formation of this new ester is discussed in which the energy-rich acyl glucoside 1-O-sinapoyl-β-d-glucose acts as the acyl donor in a sinapoyl transfer to the hydroxyl group at C-2 of the glucose moiety of another molecule of 1-O-sinapoyl-β-d-glucose (‘disproportionation’).     

ω-O-Acylceramides but not ω-hydroxy ceramides are required for healthy lamellar phase architecture of skin barrier lipids

Epidermal omega-O-acylceramides (ω-O-acylCers) are essential components of a competent skin barrier. These unusual sphingolipids with ultralong N-acyl chains contain linoleic acid esterified to the terminal hydroxyl of the N-acyl, the formation of which requires the transacylase activity of patatin-like phospholipase domain containing 1 (PNPLA1). In ichthyosis with dysfunctional PNPLA1, ω-O-acylCer levels are significantly decreased, and ω-hydroxylated Cers (ω-OHCers) accumulate. Here, we explore the role of the linoleate moiety in ω-O-acylCers in the assembly of the skin lipid barrier. Ultrastructural studies of skin samples from neonatal Pnpla1^+/+ and Pnpla1^-/- mice showed that the linoleate moiety in ω-O-acylCers is essential for lamellar pairing in lamellar bodies, as well as for stratum corneum lipid assembly into the long periodicity lamellar phase. To further study the molecular details of ω-O-acylCer deficiency on skin barrier lipid assembly, we built in vitro lipid models composed of major stratum corneum lipid subclasses containing either ω-O-acylCer (healthy skin model), ω-OHCer (Pnpla1^-/- model), or combination of the two. X-ray diffraction, infrared spectroscopy, and permeability studies indicated that ω-OHCers could not substitute for ω-O-acylCers, although in favorable conditions, they form a medium lamellar phase with a 10.8 nm-repeat distance and permeability barrier properties similar to long periodicity lamellar phase. In the absence of ω-O-acylCers, skin lipids were prone to separation into two phases with diminished barrier properties. The models combining ω-OHCers with ω-O-acylCers indicated that accumulation of ω-OHCers does not prevent ω-O-acylCer-driven lamellar stacking. These data suggest that ω-O-acylCer supplementation may be a viable therapeutic option in patients with PNPLA1 deficiency.     

Carbonic anhydrases in the mouse harderian gland

The harderian gland is located within the orbit of the eye of most terrestrial vertebrates. It is especially noticeable in rodents, in which it synthesises lipids, porphyrins, and indoles. Various functions have been ascribed to the harderian gland, such as lubrication of the eyes, a site of immune response, and a source of growth factors. Carbonic anhydrases (CAs) are zinc-containing metalloenzymes that catalyse the reaction \( {\text{CO}}_{2} + {\text{H}}_{2} {\text{O}} \Leftrightarrow {\text{H}}^{ + } + {\text{HCO}}_{3}^{ - } \). They are involved in the adjustment of pH in the secretions of different glands. Thirteen enzymatically active isozymes have been described in the mammalian α-CA family. Here, we first investigated the mRNA expression of all 13 active CAs in the mouse harderian gland by quantitative real-time PCR. Nine CA mRNAs were detectable in the gland. Car5b and Car13 showed the highest signals. Car4, Car6, and Car12 showed moderate expression levels, whereas Car2, Car3, Car7, and Car15 mRNAs were barely within the detection limits. Immunohistochemical staining was performed to study the expression of Car2, Car4, Car5b, Car12, and Car13 at the protein level. The epithelial cells were intensively stained for CAVB, whereas only weak signal was detected for CAXIII. Positive signals for CAIV and CAXII were observed in the capillary endothelial cells and the basolateral plasma membrane of the epithelial cells, respectively. This study provides an expression profile of all CAs in the mouse harderian gland. These results should improve our understanding of the distribution of CA isozymes and their potential roles in the function of harderian gland. The high expression of mitochondrial CAVB at both mRNA and protein levels suggests a role in lipid synthesis, a key physiological process of the harderian gland.     

Biosynthesis of alkyl lipids: displacement of the acyl moiety of acyldihydroxyacetone phosphate with fatty alcohol analogs

The first step in the biosynthesis of ether-linked glycerolipids proceeds as follows: ROH + acyldihydroxyacetone-P → alkyldihydroxy-acetone-P + RCOOH. Data obtained with a series of ³H-labeled fatty alcohol analogs and [1-¹⁴C]hexadecanol demonstrate that the microsomal enzyme from tumors that substitutes the alcohol group for the acyl group of acyl-dihydroxyacetone-P is not very selective. However, if hydroxyl groups are inserted at either the C-2 or C-16 position of hexadecanol, neither alkyl-dihydroxyacetone-P nor its dephosphorylated product is formed. The effect of modifying the terminal end of the alcohol was also apparent when iso and anteiso branched chain alcohols were used as substrates, i.e., the latter was incorporated into alkyldihydroxyacetone-P to a much greater extent.     

Détermination des sites d'oxydation des dérivés du α-D-glucofuranose utilisés comme donneurs

The sites of oxidation, by catalytic transfer of H, of derivatives of 1,2-O-isopropylidene-α-D-glucofuranose suggest a regiospecific reaction. Compounds having vicinal hydroxyl groups at C-5 and C-6, or at C-3 and C-5, are oxidized at OH-5, whereas compounds having two hydroxyl groups at C-3 and C-6 or three hydroxyl groups give first aldehydes and then lactones.     

Regioselective synthesis of kojic acid esters by Bacillus subtilis protease

The lipophilicity of kojic acid [5-hydroxy-2-(hydroxymethyl)-4H-pyran-4-one] was improved by esterifying kojic acid with either divinyl adipate, vinyl hexanoate, vinyl octanoate or vinyl decanoate using protease from Bacillus subtilis for 7 d. ¹H-NMR and ¹³C-NMR showed that the primary hydroxyl group at the C-7 position of kojic acid was regioselectively esterified to afford 7-O-vinyl adipoyl kojic acid, 7-O-hexanoyl kojic acid, 7-O-octanoyl kojic acid and 7-O-decanoyl kojic acid (13–27% yield). The kojic acid esters had radical scavenging activities, inhibited tyrosinase activity and was biodegradable.