Aflatoxin congener biosynthesis induced by lipoperoxidation

Lipoperoxidation plays a key role in inducing the production of aflatoxins and their congeners (norsolorinic acid, averufin, averantin, versicolorin A, sterigmatocystin, and O-methyl sterigmatocystin) by different strains of Aspergillus parasiticus and Aspergillus flavus. The stimulating effect was obtained by adding epoxides, hydroperoxides, and carbon tetrachloride to culture media. The presence in the media of a free radical scavenger (cysteamine) was capable of inhibiting the output of aflatoxins and their precursors induced by epoxides, hydroperoxides, and carbon tetrachloride. The stimulating effect of lipoperoxidation would appear to take place before the biosynthesis of norsolorinic acid.     

Attempts at improving citric acid fermentation by Aspergillus niger in beet-molasses medium

Natural oils with high unsaturated fatty acids content when added at concentrations of 2% and 4% (v/v) to beet molasses (BM) medium caused a considerable increase in citric acid yield from Aspergillus niger. The fermentation capacities were also examined for production of citric acid using BM-oil media under different fermentation conditions. Maximum citric acid yield was achieved in surface culture in the presence of 4% olive oil after 12 days incubation.     

Fatty acid composition of the lipids in fungi of the genus Aspergillus developing on mineral media with different carbon sources

This work was aimed at studying the effect of different carbon sources in the composition of mineral media on the growth of fungi belonging to the Aspergillus genus and on the fatty acid composition of their lipids. A chemically-defined medium with glucose was shown to be optimal for the growth of 18 Aspergillus strains and for the synthesis of lipids by them. The fatty acid composition of lipids was studied when the fungi grew in media with different carbon sources. The lipids were shown to contain saturated and unsaturated fatty acids with the prevalence of oleic, linoleic and linolenic acids.     

Naturally occurring monoepoxides of eicosapentaenoic acid and docosahexaenoic acid are bioactive antihyperalgesic lipids

Beneficial physiological effects of long-chain n-3 polyunsaturated fatty acids are widely accepted but the mechanism(s) by which these fatty acids act remains unclear. Herein, we report the presence, distribution, and regulation of the levels of n-3 epoxy-fatty acids by soluble epoxide hydrolase (sEH) and a direct antinociceptive role of n-3 epoxy-fatty acids, specifically those originating from docosahexaenoic acid (DHA). The monoepoxides of the C18:1 to C22:6 fatty acids in both the n-6 and n-3 series were prepared and the individual regioisomers purified. The kinetic constants of the hydrolysis of the pure regioisomers by sEH were measured. Surprisingly, the best substrates are the mid-chain DHA epoxides. We also demonstrate that the DHA epoxides are present in considerable amounts in the rat central nervous system. Furthermore, using an animal model of pain associated with inflammation, we show that DHA epoxides, but neither the parent fatty acid nor the corresponding diols, selectively modulate nociceptive pathophysiology. Our findings support an important function of epoxy-fatty acids in the n-3 series in modulating nociceptive signaling. Consequently, the DHA and eicosapentaenoic acid epoxides may be responsible for some of the beneficial effects associated with dietary n-3 fatty acid intake.     

The Fatty Acid Composition of Paramecium aurelia Cells and Cilia: Changes with Culture Age

SYNOPSIS.
The fatty acids of whole cells and cilia from Paramecium tetraurelia strains 51s and d,95 and from Paramecium octaurelia strain 299s were identified. Ciliates were grown axenically in 3 types of culture media. More than 30 fatty acid species were identified and their structures determined by gas chromatography, mass spectrometry, argentation chromatography, hydro-genation, and fragmentation technics. The major fatty acids were hexadecanoic, octadecanoic, 9-octadecenoic, 9,12-octadecadi-enoic, 6,9,12-octadecatrienoic, and 5,8,11,14-eicosatetraenoic acids. Minor variations in fatty acid compositions were observed in cells grown in the different culture media as well as among the 3 strains. Major changes in fatty acid compositions occurred with culture age and cell density. The cells accumulated exogenous lipids in cytoplasmic vesicles. These lipids were utilized as culture age progressed. Both cellular volume and lipid content were greater in young than in older cultures. Fatty acid compositions of both whole cells and cilia changed with age and had a relative decrease in saturated, short-chained and odd-numbered carbon acids. Cilia lipids were enriched in long-chained, polyunsaturated acids as compared to lipids in whole cell extracts. Eicosatetra-enoic acid (arachidonic acid) increased to the greatest extent with age in both cellular and ciliary lipids, accounting for 20–60% of the total fatty acids in cilia. The age-related change in fatty acid composition in Paramecium is among the largest observed in eukaryotic organisms. It was concluded that some minor fatty acids found in Paramecium lipids were incorporated directly from certain culture media and that Paramecium had w 3, 6, and 9 pathways for polyunsaturated fatty acid biosynthesis.     

An unsaturated fatty acid mutant of Aspergillus niger with partially defective delta 9-desaturase

The wild-type Aspergillus niger (V35) does not require fatty acids for growth. Four unsaturated fatty acid auxotrophs designated as UFA1, UFA2, UFA3, and UFA4 have been produced from this organism by treating the conidia of the wild-type strain with a mutagen, N-methyl-N'-nitro-N-nitrosoguanidine, followed by isolation on media containing monounsaturated fatty acids and the nonionic detergent, Brij 58. Optimal growth of the mutants comparable with that of the wild type was achieved with medium supplemented with C16 or C18 unsaturated fatty acids containing at least one cis double bond at the delta 9 position. Some other fatty acids (18:1 delta 11 cis and 16:1 delta 9 trans) support growth to some extent. The mutants do not grow at all in the presence of saturated fatty acids. Fatty acid analyses of the mutant, UFA2, grown in the presence of different fatty acid supplements reveal that it may be defective in a desaturase system. Experiments with unlabeled and [1-14C]palmitoyl-CoA have shown that the microsomes of the mutant (UFA2) contain a partially defective delta 9-desaturase system.     

Medium-chain fatty acids undergo elongation before beta-oxidation in fibroblasts

Although mitochondrial fatty acid beta-oxidation (FAO) is considered to be well understood, further elucidation of the pathway continues through evaluation of patients with FAO defects. The FAO pathway can be examined by measuring the 3-hydroxy-fatty acid (3-OHFA) intermediates. We present a unique finding in the study of this pathway: the addition of medium-chain fatty acids to the culture media of fibroblasts results in generation of 3-OHFAs which are two carbons longer than the precursor substrate. Cultured skin fibroblasts from normal and LCHAD-deficient individuals were grown in media supplemented with various chain-length fatty acids. The cell-free medium was analyzed for 3-OHFAs by stable-isotope dilution gas-chromatography/mass-spectrometry. Our finding suggests that a novel carbon chain-length elongation process precedes the oxidation of medium-chain fatty acids. This previously undescribed metabolic step may have important implications for the metabolism of medium-chain triglycerides, components in the dietary treatment of a number of disorders.     

Enhancement of fruity aroma production of Pseudomonas fragi grown on skim milk,whey and whey permeate supplemented with C3-C7 fatty acids

Summary Pseudomonas fragi strain CRDA 037 produced a fruity aroma when grown in skim milk-, whey-and whey permeate-based culture media. The production of the odour-active metabolites was related to the lipid content of these media but was not influenced by the pH of the cultures. Analysis of the fruity aroma revealed that esters of fatty acids were some of the odouractive metabolites. Addition of C₃-C₇ fatty acids to the culture at 0 h stimulated the production of the corresponding fatty acid esters from 12 to 1570 times compared to unsupplemented media. Supplementation of the culture media with the C₃-C₇ fatty acids at 48 h, resulted in a 1.4- to 932-fold increase in the ethyl ester concentration.     

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.     

Formation of organic acids by the fungus Cladosporium resinae in media containing n-alkanes]

The so-called fungus Cladosporium resinae that often occurs in oil fuels ane increases their acidity grows well at the expense of n-alkanes from C11 to C16. On the n-alkane containing media the fungus grows slowly and only under the stationary conditions. During the fungal cultivation on the media containing n-dodecane or kerosene the culture liquid shows acetic acid and other fatty acids, ketoacids (pyruvic and alpha-ketoglutaric) as well as citric and isocitric acids that dominate among nonvolatile acids. Upon nitrogen deficiency in the medium and comparatively good aeration the content of citric acids increases. The culture liquid of the fungus devoid from the mycelium and nonutilized n-alkanes can be used a a nutrient medium for different microorganisms.     

Hydroxy long-chain fatty acids in fungi

Hydroxy long-chain fatty acids occur widely in animals and plants and have important physiological activities in these eukaryotes. There are indications that these compounds are also common and important in fungi. The occurrence of hydroxy-polyunsaturated fatty acids (hydroxy-PUFAs) is of biotechnological importance, because these compounds are potentially high-value lipid products with medical applications. This review pays particular attention to the production of hydroxy-PUFAs by yeasts and other fungi. Hydroxy-PUFAs derived from lipoxygenase activity appear to be present in most fungi, while hydroxy-PUFAs from cyclooxygenase activity (i.e. prostaglandins) have mainly been implicated in the Oomycota and in yeasts from the genus Dipodascopsis. The occurrence of other hydroxy long-chain fatty acids in fungi is also discussed briefly; these include hydroxy fatty acids that are generally associated with cytochrome P-450 monooxygenase activity (i.e. terminal and sub-terminal hydroxy acids and diols derived from the corresponding epoxides) as well as 2-hydroxy-fatty acids and 3-hydroxy-fatty acids.The authors are with the Department of Microbiology and Biochemistry, University of the Orange Free State, P.O. Box 339, Bloemfontein, 9300, South Africa     

脂肪酸及其氧合物对曲霉属真菌菌丝生长、产孢和黄曲霉毒素合成的影响

黄曲霉毒素是由黄曲霉菌合成的一类毒性极高、致癌性极强的次生代谢物。一般认为,高油脂含量的作物种子被曲霉属真菌感染后容易产生黄曲霉毒素,但是,脂肪酸的处理实验结果表明不同类型的脂肪酸对曲霉属真菌毒素合成的作用不同,有的促进合成,有的抑制合成。最近研究结果显示所有脂肪酸都促进黄曲霉毒素合成,但是多不饱和脂肪酸在暴露空气之后对毒素合成有抑制作用。这种抑制产毒的作用似乎是由多不饱和脂肪酸氧化所产生的脂氧合物所介导。本文结合我们的研究结果,综合评述了脂肪酸和脂氧合物调控曲霉属真菌菌丝生长、产孢和毒素合成研究的最新进展。     

Odd- and even-numbered medium-chained fatty acids protect against glutathione depletion in very long-chain acyl-CoA dehydrogenase deficiency

Recent trials have reported the ability of triheptanoin to improve clinical outcomes for the severe symptoms associated with long-chain fatty acid oxidation disorders, including very long-chain acyl-CoA dehydrogenase (VLCAD) deficiency.However, the milder myopathic symptoms are still challenging to treat satisfactorily. Myopathic pathogenesis is multifactorial, but oxidative stress is an important component. We have previously shown that metabolic stress increases the oxidative burden in VLCAD-deficient cell lines and can deplete the antioxidant glutathione (GSH).We investigated whether medium-chain fatty acids provide protection against GSH depletion during metabolic stress in VLCAD-deficient fibroblasts. To investigate the effect of differences in anaplerotic capacity, we included both even-(octanoate) and odd-numbered (heptanoate) medium-chain fatty acids. Overall, we show that modulation of the concentration of medium-chain fatty acids in culture media affects levels of GSH retained during metabolic stress in VLCAD-deficient cell lines but not in controls.Lowered glutamine concentration in the culture media during metabolic stress led to GSH depletion and decreased viability in VLCAD deficient cells, which could be rescued by both heptanoate and octanoate in a dose-dependent manner. Unlike GSH levels, the levels of total thiols increased after metabolic stress exposure, the size of this increase was not affected by differences in cell culture medium concentrations of glutamine, heptanoate or octanoate.Addition of a PPAR agonist further exacerbated stress-related GSH-depletion and viability loss, requiring higher concentrations of fatty acids to restore GSH levels and cell viability.Both odd- and even-numbered medium-chain fatty acids efficiently protect VLCADdeficient cells against metabolic stress-induced antioxidant depletion.     

Influence of culture medium of the fatty-acid profile in enteric bacteria.

Enteric bacteria having a high content of cyclopropane fatty acids steeply increase their synthesis when grown on insufficiently propitious culture media (meat-peptone agar or modified Drobot'ko synthetic medium) as compared with bacteria grown under more favourable conditions (meat-peptone broth). Simultaneously, a decrease in monounsaturated fatty acids and increase in palmitic acid are observed. One of the main factors underlying the change in the proportion of fatty acids in bacteria grown on synthetic medium is an increase in medium pH in the process of their growth. Enteric bacteria containing minute amounts/or not containing cyclopropane fatty acids at all (under the experimental conditions used) change their fatty-acid profile little if the culture medium is changed. When grown under insufficiently favourable conditions, these bacteria mainly display an enhanced content of palmitic acid and a lowered content of octadacenoic acid as compared with bacteria grown under more favourable conditions. Of the culture media used, meat-peptone broth, which affords the most favourable conditions for eneteric bacteria growth, is the most suitable medium for obtaining data of taxonomic value.     

The highly unnatural fatty acid profile of cells in culture

The fatty acid profile of cells in culture are unlike those of natural cells with twice the monounsaturated (MUFA) and half the polyunsaturated fatty acids (PUFA) level (Mol%). This is not due to cell lines primarily being derived from cancers but is due to limited access to lipid and an inability to make PUFA de novo as vertebrate cells. Classic culture methods use media with 10% serum (the only exogenous source of lipid). Fetal bovine serum (FBS), the serum of choice has a low level of lipid and cholesterol compared to other sera and at 10% of media provides 2–3% of the fatty acid and cholesterol, 1% of the PUFA and 0.3% of the essential fatty acid linoleic acid (18:2n-6) available to cells in the body. Since vertebrate cell lines cannot make PUFA they synthesise MUFA, offsetting their PUFA deficit and reducing their fatty acid diversity. Stem and primary cells in culture appear to be similarly affected, with a rapid loss of their natural fatty acid compositions. The unnatural lipid composition of cells in culture has substantial implications for examining natural stems cell in culture, and for investigations of cellular mechanisms using cell lines based on the pervasive influence of fats.     

Lipid fatty acid composition of fungi in the genus Aspergillus grown on media with various sources of nitrogen

The fatty acid composition of lipids synthesized by fungi belonging to the Aspergillus genus was studied during their growth on media containing different organic and inorganic nitrogen sources. On the average, the cultures were shown to accumulate from 7 to 30 g/L of biomass and to synthesize from 3 to 13% of lipids. The lipids were found to contain saturated and unsaturated fatty acids with the number of carbon atoms from 14 to 18. The fungi had a typical fatty acid composition of lipids which did not depend on the composition of the growth medium.     

EFFECT OF TEMPERATURE ON THE COMPOSITION OF FATTY ACIDS IN ESCHERICHIA COLI.

Marr, Allen G. (University of California, Davis) and John L. Ingraham. Effect of temperature on composition of fatty acids in Escherichia coli. J. Bacteriol. 84:1260-1267. 1962.-Variations in the temperature of growth and in the composition of the medium alter the proportions of individual fatty acids in the lipids of Escherichia coli. As the temperature of growth is lowered, the proportion of unsaturated fatty acids (hexadecenoic and octadecenoic acids) increases. The increase in content of unsaturated acids with a decrease in temperature of growth occurs in both minimal and complex media. Cells harvested in the stationary phase contained large amounts of cyclopropane fatty acids (methylenehexadecanoic and methylene octadecanoic acids) in comparison with cells harvested during exponential growth. Cells grown in a chemostat, limited by the concentration of ammonium salts, show a much higher content of saturated fatty acids (principally palmitic acid) than do cells harvested from an exponentially-growing batch culture in the same medium. Cells grown in a chemostat, limited by the concentration of glucose, show a slightly higher content of unsaturated fatty acids than cells from the corresponding batch culture. The results do not indicate a direct relation between fatty acid composition and minimal growth temperature.     

Lipid peroxidation and growth inhibition of human microvascular endothelial cells

Peroxidation products of polyunsaturated fatty acids may cause growth inhibition of cells in culture. This study was carried out to elucidate to what extent peroxidation products may be found in growth media, with and without cells and albumin, using thiobarbituric acid-reactive substances (TBARS) and protein carbonyl groups as measures of peroxidation. The growth of human microvascular endothelial cells was studied as influenced by docosahexaenoic (C22:6, n - 3), arachidonic acid (C20:4. n - 6), and serum albumin. Cell growth was strongly inhibited by the fatty acids, and the inhibition was related to the concentration of TBARS in the medium. Defatted albumin (0.5 g/100 ml) nullified the increase of TBARS in the medium and released the growth inhibition by the fatty acids. With polyunsaturated fatty acids (PUFA) there was a time- and concentration-dependent increase in media TBARS, observed both with and without cells, but the TBARS increase was somewhat greater in the presence of cells. Surprisingly, TBARS in cell-free media also increased somewhat upon increasing the albumin concentration from 0.5 to 5 g/100 ml, and the TBARS increase differed among various preparations of albumin. Unexpectedly, the albumin that had not been defatted gave the lowest TBARS values. The amount of protein carbonyl groups did not differ among various albumin preparations. It is concluded that PUFA may autooxidize in media used for cell cultures, and thereby cause an unspecific growth inhibition, which can be prevented by a low albumin concentration. However, even defatted albumin preparations may contain lipid peroxidation products, the causes and implications of which remain to be elucidated.     

Lipid production by a cellulolytic strain of Aspergillus niger

Studies on lipid formation by a cellulolytic mould. Aspergillus niger AS-101, were carried out in shake flasks. The maximum amount of lipid accumulated comprised 17% and 14·9% of the mycelial dry weight on glucose and cellulose media, respectively. Unsaturated fatty acids comprised around 80% of the total fatty material, with linoleic acid predominating.