Changes in the fatty acid composition of symbiotic dinoflagellates from the hermatypic coral <Emphasis Type="Italic">Echinopora lamellosa</Emphasis> during adaptation to the irradiance level

The composition of fatty acids (FAs) of symbiotic dinoflagellates isolated from the hermatypic coral Echinoporal lamellosa adapted to the irradiance of 95, 30, 8, and 2% PAR was studied. Polar lipids and triacylglycerols (TAG) differed between them in FA composition. Polar lipids were enriched in unsaturated FAs, whereas TAG, in saturated FAs. Light exerted a substantial influence on the FA composition in both polar lipids and TAG. The elevation of irradiance resulted in the accumulation of 16:0 acid in both lipid groups and 16:1(n-7) acid in TAG. It seems likely that de novo synthesis of 16:0 acid occurred actively in the cells of symbiotic dinoflagellates in high light. Since these processes are energy-consuming ones, they utilize excessive energy. When light intensity declined, 18:4(n-3) and 20:5(n-3) acids accumulated in polar lipids, which was accompanied by the increase in the content of chlorophyll a in the cells of zooxanthellae, whereas the levels of 22:6(n-3) and 20:4(n-6) acids reduced. Although the relative content of particular FAs varied substantially in dependence of irradiance, the balance between the sum of saturated and unsaturated FAs changed insignificantly. We concluded that the role of photoadaptation could not be limited only to changes in the degree of lipid unsaturation and membrane fluidity. It is supposed that light-induced changes in the FA composition reflect the interrelation between photosynthesis and FA biosynthesis.     

Role of ω-3 fatty acid desaturases in the regulation of the level of trienoic fatty acids during leaf cell maturation

Trienoic fatty acids, namely -linolenic acid and hexadecatrienoic acid, present in leaf lipids are produced by -3 fatty acid desaturases located in the endoplasmic reticulum and plastid membranes. The changes in the level of trienoic fatty acids during leaf maturation were investigated in wild-type plants of Arabidopsis thaliana (L.) Heynh. and in the fad7 mutant deficient in the activity of a plastid -3 desaturase. The levels of trienoic fatty acids increased in 26 °C- and 15 °C-grown wild-type plants with maturation of leaves. The increase in trienoic fatty acids was mainly due to galactolipids enriched in plastid membranes. In addition, the relative levels of trienoic fatty acids in major glycerolipids, including phospholipids enriched in the endoplasmic reticulum membranes, also increased with leaf maturation. By contrast, when the fad7 mutant was grown at 26 °C, the relative levels of trienoic fatty acids in individual lipids decreased with leaf maturation. The decreases in the levels of trienoic fatty acids, however, were alleviated when the fad7 mutant was grown at 15 °C. These results suggest that the plastid -3 desaturase plays a major role in increasing the levels of trienoic fatty acids with leaf maturation.Abbreviations 163 hexadecatrienoic acid - 183 -linolenic acid - DGD digalactosyldiacylglycerol - MGD monogalactosyldiacylglycerol - PC phosphatidylcholine - PE phosphatidylethanolamine - TA trienoic fatty acid - WT wild type - -3 refers to the position of the double bond from the methyl end of a fatty acid This research was supported in part by Grants-in-Aid for Scientific research (#07251214 and #06804050 to K.I.) from the Ministry of Education, Science and Culture, Japan, and by the research grant from Shorai Foundation.     

Dependence of temperature on loss rates of rotifers,lipids, and ω3 fatty acids in starved Brachionus plicatilis cultures

Rotifer cultures of Brachionus plicatilis (SINTEF-strain, length 250 m) rich in 3 fatty acids were starved for > 5 days at variable temperature (0–18 °C). The net specific loss rate of rotifer numbers were 0.04 day^–1 (range 0–0.08 day^–1) at 5–18 °C, but reached values up to 0.25 day^–1 at 0–3 °C. The loss rate was independent on culture density (range 40–1000 ind ml^–1), but was to some extent dependent on the initial physiological state of the rotifers (i.e., egg ratio).The loss rate of lipids was 0.02–0.05 day^–1 below 10 °C, where the potential growth rate of the rotifer is low (0–0.09 day^–1). The loss rate of lipids increased rapidly for higher temperatures where the rotifer can maintain positive growth, and reached 0.19 day^–1 at 18 °C. The Q₁₀ for the lipid loss rate versus temperature was higher than the Q₁₀ for respiration found in other strains. This may suggest that other processes than respiration were involved in lipid catabolism. The content of 3 fatty acids became reduced somewhat faster than the lipids (i.e. in particular 22:6 3), but the fatty acid per cent distribution remained remarkably unaffected by the temperature during starvation.The results showed that rotifer cultures could be starved for up to 4 days at 5–8 °C without essential quantitative losses of lipids, 3 fatty acids, and rotifers. The rotifers exhausted their endogenous lipids through reproduction (anabolism) and respiration (including enhanced locomotion) at higher temperatures. At lower temperatures, the mortality rate became very high.     

Involvement of mitochondrial inner membrane anion carriers in the uncoupling effect of fatty acids

This paper considers stages of the search (initiated by V. P. Skulachev) for a receptor protein for fatty acids that is involved in their uncoupling effect. Based on these studies, mechanism of the ADP/ATP antiporter involvement in the uncoupling induced by fatty acids was proposed (Skulachev, V. P. (1991) FEBS Lett., 294, 158– 162). New data (suppression by carboxyatractylate of the SDS-induced uncoupling, pH-dependence of the ADP/ATP and the glutamate/aspartate antiporter contributions to the uncoupling, etc.) led to modification of this hypothesis. During discussion of the uncoupling effect of fatty acids caused by opening of the Ca²⁺-dependent pore, special attention is given to the effects of carboxyatractylate added in the presence of ADP. The functioning of the uncoupling protein UCP2 in kidney mitochondria is considered, as well as the diversity observed by us in effects of 200 µM GDP on decrease in under the influence of oleic acid added after H₂O₂ (in the presence of succinate, oligomycin, malonate). A speculative explanation of the findings is as follows: 1) products of lipid and/or fatty acid peroxidation (PPO)modify the ADP/ATP antiporter in such a way that its involvement in the fatty acid-induced uncoupling is suppressed by GDP; 2) GDP increases the PPO concentration in the matrix by suppression of efflux of fatty acid hydroperoxide anions through the UCP (Goglia, F., and Skulachev, V. P. (2003) FASEB, 17, 1585–1591)and/or of efflux of PPO anions with involvement of the GDP-sensitive ADP/ATP antiporter; 3) PPO can potentiate the oleate-induced decrease in due to inhibition of succinate oxidation.Translated from Biokhimiya, Vol. 70, No. 2, 2005, pp. 197–202.Original Russian Text Copyright © 2005 by Mokhova, Khailova.This revised version was published online in April 2005 with corrections to the post codes.     

Fatty acid composition of vitellogenin from four teleost species

The fatty acid compositions of vitellogenin and liver from cod (Gadus morhua), rainbow trout (Oncorhynchus mykiss), turbot (Scophthalmus maximus) and wolffish (Anarhichas lupus) were determined. Vitellogenin was isolated from plasma of estradiol-17-treated fish by precipitation with EDTA-Mg²⁺ and distilled water or by high-performance ion-exchange chromatography. In all investigated species, vitellogenin contained 16–18% (w/w) lipid, in which polyunsaturated fatty acids, predominantly 20:5 (n-3) and 22:6 (n-3), comprised about 50% of the total fatty acids. The proportions of saturated, monounsaturated, polyunsaturated and (n-3) fatty acids in vitellogenin of the different species were generally similar, although the relative content of specific fatty acids was distinctive for each species. The distribution of fatty acids in total lipids of vitellogenin was highly consistent among individual females of each species. In contrast, liver fatty acid composition varied considerably, both within and between species. Altogether, the differences in the fatty acid composition of vitellogenin and liver from each species indicate that a specific selection of fatty acids occurs during the lipidation of vitellogenin.Abbreviations BHT butylated hydroxytoluene - E-17 estradiol-17 - EDTA ethylenedinitrilo tetra-acetic acid disodium salt dihydrate - FA fatty acids - FAME fatty acid methyl esters - HDL high density lipoproteins - PUFA polyunsaturated fatty acids - SD standard deviation - TLC thin-layer chromatography - VHDL very high density lipoproteins - VLDL very low density lipoproteins - v/v volume per volume - w/v weight per volume - w/w weight per weight     

Seasonal variation in the lipid content of culturedLaminaria japonica: fatty acids,sterols, β-carotene and tocopherol

Seasonal variation in major lipid constituents of nutritional importance in culturedLaminaria japonica Aresch., such as fatty acids, sterols, -carotene and tocopherol, were investigated from December to October, the growing season. The total and saturated fatty acid contents were minimal in midsummer. Mono-unsaturated fatty acids gradually increased from late summer to autumn. The polyunsaturated fatty acid content (PUFA, (n-6) family) was maximal during warm months, while (n-3) PUFAs were most abundant during the cold months when algal thalli were very young, and decreased gradually toward October when sori had developed. Fucosterol content was maximum from February to June, but decreased steeply by nearly a half toward October, when 24-methylene cholesterol was highest although much less than fucosterol. The -carotene and tocopherol contents were maximal from July to September and slight during the winter.     

Fatty acid utilization by young Wistar rats fed a cafeteria diet

The content and accretion of fatty acids in 30, 45 and 60-day old Wistar rats fed either reference chow or a cafeteria diet has been studied, together with their actual fatty acid intake during that period. Diet had a small overall effect on the pattern of deposition of fatty acids, but the deposition of fat was much higher in cafeteria rats. The fat-rich cafeteria diet allowed the direct incorporation of most fatty acids into lipid storage, whilst chow-feeding activated lipogenesis and the deposition of a shorter chain and more saturated type of fatty acids. During the second month of the rat's life, the elongation pathway as well as ⁹-desaturase became functional, thus helping to shape the pattern of fatty acids actually accrued. The 60-day rats showed a relative impairment in the operation of ⁵-desaturase, since their lipids had a higher C20:4/C20:3 ratio than those of the diet ingested. Cafeteria-diet feeding minimized this effect since the large supply of dietary polyunsaturated fatty acids made the operation of the elongation-desaturase pathways practically unnecessary.     

Lipid and hydrocarbon compositions of a collection strain and a wild sample of the green microalga Botryococcus

Lipid composition and hydrocarbon structure of two colonial green algae of the genus Botryococcus, i.e., a museum strain and a field sample collected for the first time from Lake Shira (Khakasia, Siberia), have been compared. Polar lipids, diacylglycerols, alcohols, triacylglycerols, sterols, sterol esters, free fatty acids and hydrocarbons have been identified among lipids in the laboratory culture. The dominant fraction in the museum strain was formed by polar lipids (up to 50% of the lipids) made up of fatty acids from C₁₂ to C₂₄. Palmitic, oleic, C₁₆ - C₁₈ dienoic and trienoic acids were the main fatty acids of the museum strain. Aliphatic hydrocarbons were found in the lipid of the museum strain. However, these amounted maximally to about 1% of the dry biomass at the end of exponential growth phase. The qualitative and quantitative compositions of FAs and hydrocarbons of the museum strain of Botryococcus, (registered at the Cambridge collection as Botryococcus braunii Kutz No LB 807/1 Droop 1950 H-252) differed from those of the Botryococcus strain described in the literature as Botryococcus braunii. The Botryococcus sp. found in Lake Shira is characterized by a higher lipid content (<40% of the dry weight). Polar lipids, sterols, triacylglycerols, free fatty acids and hydrocarbons have been identified among lipids in the field sample. The main lipids in this sample were dienes and trienes (hydrocarbons <60% of total lipid). Monounsaturated and very long chain monounsaturated fatty acids, including C_28:1 and C_32:1 acids, were identified in the Botryococcus found in Lake Shira. The chemo-taxonomic criteria allow us to unequivocally characterize the organism collected from Lake Shira as Botryococcus braunii, race A.     

Influence of nitrogen deficiency on biochemical composition of the green alga <Emphasis Type="Italic">Botryococcus</Emphasis>

A study has been carried out to investigate the influence of nitrogen deficiency on intracellular lipid composition, including total fatty acid composition of lipids, polar lipids, and triacylglycerols, of the alga Botryococcus braunii Kütz IPPAS H-252 in batch culture. Under nitrogen limitation, the alga accumulates lipids as triacylglycerols and the total fatty acid (FA) composition changes: trienoic acids decrease (from 52.8–57.2 to 19.5–24.7% of the total FAs) and the oleic acid increases (from 1.1–1.2 to 17.1–24.4%) as does the saturated acids (from 23.7–26 to 32.9–46.1%). A similar rearrangement in the FA spectrum occurs at later times in the control culture, but it is less pronounced. Under nitrogen limitation, considerable changes in the polar lipid FAs are registered at day 13: saturated acids increase (from 28.6–35.5 to 76.8%) and all polyenoic acids markedly decrease (from 56.9–64.1 to 6.8%). Changes in the triacylglycerol fatty acid spectrum are seen on day 7: the oleic acid increases (from 14.7 to 34.2%) and remains at a high level till the end of the culture. In the control, triacylglycerols with large contents of oleic acid are detected at day 13, the total lipids and triacylglycerols still remaining unchanged.     

Is strain DS5 hydratase a C-10 positional specific enzyme? Identification of bioconversion products from α- and γ-linolenic acids byFlavobacterium sp. DS5

Summary Previously, we reported the isolation of a new microbial strain,Flavobacterium sp. DS5 (NRRL B-14859) which converted oleic and linoleic acids to their corresponding 10-keto- and 10--ydroxy-fatty acids. The hydration enzyme seemed to be specific to the C-10 position. Now we have identified, by GC/MS, NMR, and FTIR, the bioconversion products from -linolenic acid as 10-hydroxy-12(Z), 15(Z)-octadecadienoic acid and from -linolenic acid as 10-hydroxy-6(Z), 12(Z)-octadecadienoic acid. Products from 9(E)-unsaturated fatty acids were also identified as their corresponding 10-hydroxy or 10-keto fatty acids. From these results, it is concluded that strain DS5 hydratase is indeed a C-10 positional-specific enzyme and prefers an 18-carbon mono-unsaturated fatty acid. Among the C18 unsaturated fatty acids, an additional double bond on either side of the C-9 position lowers the enzyme hydration activity.     

The two β-oxidation sites in pea cotyledons

Two sites for -oxidation of fatty acids in pea (Pisum sativum L.) cotyledons exist. One site is the microbody, the other the mitochondrion. Mitochondrial -oxidation of fatty acids is carnitine-dependent. The fatty acid permeates the membrane as palmitoylcarnitine which is formed from cytosolic-side palmitoyl-CoA by a carnitine palmitoyltransferase located on the exterior face of the inner mitochondrial membrane as a peripheral protein. A single-gated pore integral membrane translocator is proposed to exchange the palmitoylcarnitine for carnitine or acetylcarnitine across the membrane. An internal (matrix side) carnitine palmitoyltransferase then reforms palmitoyl-CoA which enters -oxidation and subsequently the tricarboxylic-acid cycle.     

Saving for the future: Pre‐winter uptake of algal lipids supports copepod egg production in spring

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Intramyocardial fate of 15-p-iodophenyl-β-methylpentadecanoic acid (IMPPA): Is it a good tracer of fatty acid myocardial uptake?

Summary Iodinated fatty acids (FAs) are now used in Nuclear Medicine to assess, by external detection, myocardial metabolism. Methylated FAs have been proposed as tracers of FA myocardial uptake. IMPPA is a new FA analogue in which a methyl group have been introduced in position to inhibit -oxidation and a terminal phenyl group prevents a possible omega oxidation. We have compared the intramyocardial behaviour of this FA with the 15-p-iodophenyl-pentadecanoic acid (IPPA), the straight chain analogue, and with the 15-phenyl--methylpentadecanoic acid (MPPA), the 3 of them being labelled with C14 on the carboxyl group, in isolated rat hearts perfused in a recirculating system.When IMPPA is compared to IPPA (influence of the methyl group), we observe 1 — an inhibition of -oxidation (no significant production of labelled C02 and very low radioactivity in the aqueous phase) leading to a reduced uptake, 2 — a lower radioactivity in the organic phase due to a hindrance to the esterification process both into TGs and PLs, the free FAs level being higher. When IMPPA is compared to MPPA (influence of the iodine atom), we observe 1 — the same inhibition of -oxidation, 2 — a higher myocardial radioactivity due to a much higher level of free FAs, the esterification into TGs and PLs being reduced.This study with IMPPA indicates that it is taken up by the heart and trapped there, as it is not oxydized. This long retention time, apart from giving good scintigraphic images, should make IMPPA useful to study the regional myocardial uptake of FAs.     

Production of a novel ω1-eicosapentaenoic acid by Mortierella alpina 1S-4 grown on 1-hexadecene

An arachidonic-producing fungus, Mortierella alpina 1S-4, was found to accumulate -unsaturated fatty acids of C-20 chain length together with 1-hexadecenoic acid, 1-octadecenoic acid and so on, when grown on 1-alkenes, i.e., 1-hexadecene and 1-octadecene. The results of mass spectroscopy and proton NMR showed that a C₂₀ polyunsaturated fatty acid (PUFA) is a novel cis-5,8,11,14,19-eicosapentaenoic acid (20:51). This PUFA was obtained at a yield of 0.13 mg/ml culture broth (2.8% of the fungal total fatty acid content) on cultivation of the fungus in a medium containing 4% (v/v) 1-hexadecene and 1% yeast extract at 28°C for 1 week. Investigation of the distribution of fatty acids showed that about 90% (by mol.) of the PUFA was present in the triglycerides and 10% was in the phospholipid fraction. About 70% of that found in the phospholipids was phosphatidylcholine (PC) and the value accounted for ca. 10% of the total fatty acid content. The formation of these -unsaturated fatty acids was presumed to occur through the arachidonic acid biosynthetic pathway (n-6 route).Abbreviations PUFA polyunsaturated fatty acid - EPA cis-5,8,11,14,17-eicosapentaenoic acid - TG triglycerides - PS phosphatidylserine - PC phosphatidylcholine Present address: Laboratory of Microbial Science, Institute for Fundamental Research, Suntory Ltd., Mishima-gun, Osaka 618, Japan     

The role of free fatty acids in mitochondrial energetic metabolism in winter wheat seedlings

The effect of fatty acids (FAs) (C12–C24) on the functioning of winter wheat (Triticum aestivum L.) mitochondria was studied. Such fatty acids as C12:0, C16:0, and C18:0 and unsaturated FAs, such as C18:1 (n-9 cis), C18:1 (n-12 cis), C18:2 (n-9, 12), (18:3, n-3), and C22:1 (n-9 cis) caused efficient uncoupling of oxidative phosphorylation in mitochondria, i.e., an increase in the nonphosphorylating respiration rate and a decrease in the respiratory control value. It was established that C16:0 had the strongest uncoupling effect among all saturated FAs, and C18:3, among unsaturated FAs. The uncoupling effect of saturated FAs is provided by the ADP/ATP-antiporter, while plant uncoupling proteins play an important role in the uncoupling effect of unsaturated FAs. In addition, unsaturated, as well as saturated FAs might serve as oxidative substrates for mitochondria. It was concluded that the role of FAs in energetic metabolism of winter wheat seedlings consisted of uncoupling of oxidative phosphorylation and of serving as substrates for oxidation.     

Fatty Acid Composition of Algae from Habitats with Varying Amounts of Illumination

The fatty acid (FA) composition of algae Ulva fenestrata (Chlorophyta), Costaria costata (Phaeophyta), and Grateloupia turuturu (Rhodophyta) differed in their illumination habitats (shaded grotto and bright light). It was found that the light intensity affect the lipid content and fatty acid (FA) ratios in the algae. In the shaded places, the content of polyunsaturated FAs of the (n-3) series in U. fenestrate and of the (n-3) and (n-6) series, except 18 : 2, in C. costata are higher than at bright light, whereas in G. turuturu, the content of 20 : 5n-3 acids in that instance was lower. The lipid content was 2.5–3.6 times higher in the algae at low light intensity. The content variation of algal lipid components apparently was related to adaptive response of these plants to illumination condition.     

Role of fatty acids of (n-3) and (n-6) series on α-linolenic acid desaturation and chain elongation in HTC cells

Summary The desaturation and chain elongation of [1-¹⁴C] -linolenic acid were studied in HTC cells preincubated for 24 h in the presence of different unlabeled fatty acids of (n-3) and (n-6) series. After 24 h in the presence of [1-¹⁴C] -18:3, cells transformed this acid into labeled 20:5 and 22:5(n-3) through the desaturation-elongation pathway and into 20:3 and 22:3(n-3) by the elongation reactions. The preincubation of HTC cells with (n-3) fatty acids (-18:3, 20:5 and 22:6) produced an increase in the amount of [1-¹⁴C] -18:3 that remained in the cells without being metabolized and consequently, a decrease in the last product formed, the 22:5(n-3) was observed. Simultaneously, the desaturation-elongation products decreased significantly and those of the elongation pathway were not modified, except when the cells were pre-incubated with the last fatty acid of this family (22:6) which increased this metabolic route. Fatty acids of (n-6) series (-18:3, 20:3, 20:4 and 22:4) decreased the desaturation-elongation pathway and increased the elongation route from [1-¹⁴C] -18:3. From these results, it can be concluded that fatty acids of (n-3) family and intermediates of (n-6) series would impair the [1-¹⁴C] -18:3 metabolism at the 6 desaturation step. The fatty acid composition of the cells was also modified by the preincubation with (n-3) and (n-6) acids showing a decrease on 9 desaturation activity.     

Lipids of the Green Alga BotryococcusCultured in a Batch Mode

The lipid fraction of the green alga Botryococcuscultured in a batch mode was found to contain polar lipids (more than 50% of the total lipids), di- and triacylglycerols, sterols and their esters, free fatty acids, and hydrocarbons. In aging culture, the content of polar lipids somewhat decreased and that of triacylglycerols increased by more than four times. The content of hydrocarbons in the algal biomass did not exceed 0.9% and depended little on the culture age. Intracellular lipids contained saturated and unsaturated (mono-, di-, and trienoic) fatty acids. The maximum content of C_{16 : 3}and -C_{18 : 3}fatty acids (up to 35% of the total fatty acids) was detected in the phase of active growth. The extracellular and intracellular lipids of the alga differed in the proportion of particular lipids and in the fatty acid pattern.     

Homocysteine stimulates the expression of monocyte chemoattractant protein-1 in endothelial cells leading to enhanced monocyte chemotaxis

The effect of intraperitoneal administration of tocopherol (100 mg/kg wt/24 h) on ascorbate (0.4 mM) induced lipid peroxidation of mitochondria and microsomes isolated from rat liver and testis was studied. Special attention was paid to the changes produced on the highly polyunsaturated fatty acids C20:4 n6 and C22:6 n3 in liver and C20:4 n6 and C22:5 n6 in testis. The lipid peroxidation of liver mitochondria or microsomes produced a significant decrease of C20:4 n6 and C22:6 n3 in the control group, whereas changes in the fatty acid composition of the tocopherol treated group were not observed. The light emission was significantly higher in the control than in the tocopherol treated group. The lipid peroxidation of testis microsomes isolated from the tocopherol group produced a significant decrease of C20:4 n6 , C22:5 n6 and C22:6 n3, these changes were not observed in testis mitochondria. The light emission of both groups was similar. The treatment with tocopherol at the dose and times indicated showed a protector effect on the polyunsaturated fatty acids of liver mitochondria, microsomes and testis mitochondria, whereas those fatty acids situated in testis microsomes were not protected during non enzymatic ascorbateFe²⁺ lipid peroxidation. The protector effect observed by tocopherol treatment in the fatty acid composition of rat testis mitochondria but not in microsomes could be explained if we consider that the sum of C20:4 n6 + C22:5 n6 in testis microsomes is 2-fold than that present in mitochondria.