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1.
The sterols and sterol precursors of two amoebae of the genus Naegleria, Naegleria lovaniensis and Naegleria gruberi were investigated. Cycloartenol, the sterol precursor in photosynthetic organisms, is present in both amoebae. In N. lovaniesis, it is accompanied by lanosterol and parkeol, as well as by the 24,25-dihydro derivatives of these triterpenes. One of the most striking features of these amoebae is the accumulation of 4 alpha-methylsterols which are present in similar amounts as those of 4,4-desmethylsterols (3-5 mg/g, dry weight). 4 alpha-Methylergosta-7,22-dienol was identified as a new compound. Ergosterol was the major 4,4-desmethylsterol, accompanied by small amounts of C27 and other C28 sterols. Treatment of N. lovaniensis with fenpropimorph modified the sterol pattern of this amoeba and inhibited its growth. This fungicide, known to inhibit steps of sterol biosynthesis in fungi and plants, induced the disappearance of 4 alpha-methyl-delta 7-sterols and the appearance of the unusual delta 6,8,22-ergostatrienol as in A. polyphaga. These results might be explained by a partial inhibition of the delta 8----delta 7 isomerase, the small amounts of delta 7-sterols formed being converted into ergosterol which is still present in fenpropimorph-exposed cells. De novo sterol biosynthesis in N. lovaniensis was shown by incorporation of [1-14C]acetate into sterols and sterol precursors, especially cycloartenol. Lanosterol and parkeol were not significantly labelled. Furthermore, [3-3H]squalene epoxide was efficiently cyclized by a cell-free system of this amoeba into cycloartenol, and again no significant radioactivity was detected in lanosterol and parkeol. This shows that cycloartenol, the sterol precursor in plants and algae, is also the sterol precursor in Naegleria species, and that these amoebae, like A. polyphaga, are related by some biosynthetic pathways to photosynthetic phyla. Lanosterol, the sterol precursor in non-photosynthetic phyla (animal and fungi) and parkeol are more likely dead-ends of this biosynthetic pathway. The peculiar phylogenetic position of these protozoa was further emphasized by the action of indole acetic acid and other auxine-like compounds on their growth. Indeed amoebic growth was enhanced in the presence of these higher plant growth hormones. The differences in the sterol composition of the protozoa we have hitherto examined is related to their sensitivity toward polyene macrolide antibiotics.(ABSTRACT TRUNCATED AT 400 WORDS)  相似文献   

2.
Tridemorph and fenpropimorph, two systemic fungicides known by their inhibitory effects on sterol biosynthesis in fungi and plants, were administered in vivo to the amoeba Acanthamoeba polyphaga. The compounds did not kill the cells, but modified completely their sterol pattern. Fungicide-exposed cells accumulated cyclopropylsterols indicating a partial blockage of the cyclopropane isomerase as in higher plants and delta 8-sterols indicating an inhibition of the delta 8----delta 7 isomerase as in fungi. Three new sterols, 4 alpha-methylergosta-9(11),24(28)-dienol, ergosta-6,8,22-trienol and poriferasta-6,8,22-trienol were isolated and identified, the former from control cells, the two latter from fungicide-treated cells. These results are in accordance with our previous results on the presence of cycloartenol as sterol precursor and confirm our hypothesis on a phylogenetic relationship of Acanthamoeba polyphaga with photosynthetic phyla.  相似文献   

3.
Cerulenin, a specific inhibitor of fatty acids and sterol biosynthesis inhibited the growth of Epidermophyton floccosum, which was reversed when growth medium was supplemented with palmitic acid and sterols. Unsaturated fatty acids partially restored the growth. Cerulenin inhibited both phospholipid and sterol biosynthesis (60-70%) at the minimum inhibitory concentration (0.5 microgram/ml) as demonstrated by [32P]orthophosphoric acid and [14C]acetate incorporation into the respective lipids. Cerulenin-induced inhibition of phospholipid and sterol synthesis was dose dependent up to 0.5 microgram/ml. Exogenously supplied fatty acids and sterols restored the biosynthesis of phospholipids in cerulenin-treated cultures, while that of sterols was enhanced. The biosynthesis of both saturated and unsaturated fatty acids was inhibited by cerulenin.  相似文献   

4.
The effect of the imidazole oxiconazole and the morpholine derivative Ro 14-4767/002 on the sterol metabolism of Candida albicans was investigated at different periods of growth. Ergosterol, representing the main sterol component of control cells, was markedly reduced in oxiconazole-treated and Ro 14-4767/002-treated cells. However, the total sterol content of the cells treated with both drugs was increased due to accumulation of other sterols not present in control cells: in oxiconazole-treated cells 24-methenedihydrolanosterol, 4,14-dimethylfecosterol and 14-methylfecosterol accumulated, indicating an inhibition of C14-demethylation. This is in agreement with the mode of action described for other azoles in various pathogen fungi. In Ro 14-4767/002-treated cells the main sterol accumulated was ignosterol, indicating an inhibition of delta 14-sterol reductase and delta 8-delta 7-isomerase. This inhibition has not been described before in human pathogens although it has been previously found in plant pathogenic fungi treated with fenpropimorph.  相似文献   

5.
David Nes W  Nichols SD 《Phytochemistry》2006,67(16):1716-1721
The Zygomycetes fungus Mortierella alpina was cultured to growth arrest to assess the phytosterol biosynthesis pathway in a less-advanced fungus. The mycelium was found to produce 13 sterols, but no ergosterol. The sterol fractions were purified to homogeneity by HPLC and their identifies determined by a combination of GC-MS and 1H NMR spectroscopy. The principal sterol of the mycelium was cholesta-5, 24-dienol (desmosterol) (83%), with lesser amounts of 24beta-methyl-cholesta-5,25(27)-dienol (codisterol) (2%), 24-methyldesmosterol (6%), 24(28)-methylene cholesterol (3%) and lanosterol (3%) and several other minor compounds (3%). The total sterol accounted for approximately 0.07% of the mycelial dry wt. Mycelium fed methionine-methyl-2H3 for 6 days, generated 3 2H-24-methyl(ene) sterols, [C28-2H2]24(28)-methylenecholesterol, [C28-2H3]24-methylcholesta-5,24-dienol and [C28-2H3]24beta-methyl-cholesta-5,25(27)-dienol. The formation of the 24-methyl sterols seems to be catalyzed by the direct methylation of a common Delta24-acceptor sterol thereby bypassing the intermediacy of an isomerization step for rearrangement of the Delta24(28)-bond to Delta25(25)-position as operates in Ascomycetes fungi and all plants.  相似文献   

6.
Like most higher plants, leek seedlings (Allium porrum L.) contain a mixture of Delta(5)-sterols in which sitosterol largely predominates. As previously reported (Plant Physiol., 117 (1998) 931), these compounds, which are synthesized at the endoplasmic reticulum level, were shown to be actively transported to the plasma membrane via a membrane-mediated process, together with phosphatidylserine (PS). In the present work, leek seedlings were allowed to germinate for 7 days in the presence of fenpropimorph, a sterol biosynthesis inhibitor. Such a treatment was found to trigger an almost complete replacement of the usual sterols by 9beta,19-cyclopropylsterols (mainly cycloeucalenol and 29-norcycloartenol). Extensive lipid analyses and labeling experiments with sodium [14C]acetate were performed to examine potential changes in the content and the rate of synthesis of the other lipid molecular species. The results indicate that the inhibition of the sterol pathway was accompanied by a severe decrease in PS and glucosylceramide synthesis as well as by a redirection of fatty acids toward the storage triacylglycerol pathway. Triacyglycerols are shown to accumulate concomitantly with a significant increase in intracellular lipid droplets in both aerial parts and roots of leek seedlings. Taken together, the present data emphasize that a coordinated regulation of the biosynthetic pathways of sterols and some specific lipid molecular species could take place during plant membrane biogenesis.  相似文献   

7.
The chemical syntheses of a number of C27 ring C oxygenated sterols have been pursued to permit evaluation of their activity in the inhibition of sterol biosynthesis in cultured mammalian cells. Thus, 5 alpha-cholest-7-ene-3 beta, 11 alpha-diol, 3 alpha-hydroxy-5 alpha-cholest-9(11)-en-12-one, and the previously unreported 11 alpha-hydroxy-5 alpha-cholest-7-en-3-one, 5 alpha-cholest-9(11)-ene-3,12-dione, and 3 beta-hydroxy-5 alpha-cholest-9 (11)-en-12-one have been synthesized. The effects of these compounds on the synthesis of digitonin-precipitable sterols from labeled acetate in mouse L cells and on the levels of 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase activity in the same cells have been investigated and compared with previously published data on other ring C oxygenated sterols. 5 alpha-Cholest-7-ene-3 beta, 11 alpha-diol was shown to be the most potent inhibitor of sterol synthesis.  相似文献   

8.
To get some insight into the regulatory mechanisms controlling the sterol branch of the mevalonate pathway, tobacco (Nicotiana tabacum cv Bright Yellow-2) cell suspensions were treated with squalestatin-1 and terbinafine, two specific inhibitors of squalene synthase (SQS) and squalene epoxidase, respectively. These two enzymes catalyze the first two steps involved in sterol biosynthesis. In highly dividing cells, SQS was actively expressed concomitantly with 3-hydroxy-3-methylglutaryl coenzyme A reductase and both sterol methyltransferases. At nanomolar concentrations, squalestatin was found to inhibit efficiently sterol biosynthesis as attested by the rapid decrease in SQS activity and [(14)C]radioactivity from acetate incorporated into sterols. A parallel dose-dependent accumulation of farnesol, the dephosphorylated form of the SQS substrate, was observed without affecting farnesyl diphosphate synthase steady-state mRNA levels. Treatment of tobacco cells with terbinafine is also shown to inhibit sterol synthesis. In addition, this inhibitor induced an impressive accumulation of squalene and a dose-dependent stimulation of the triacylglycerol content and synthesis, suggesting the occurrence of regulatory relationships between sterol and triacylglycerol biosynthetic pathways. We demonstrate that squalene was stored in cytosolic lipid particles, but could be redirected toward sterol synthesis if required. Inhibition of either SQS or squalene epoxidase was found to trigger a severalfold increase in enzyme activity of 3-hydroxy-3-methylglutaryl coenzyme A reductase, giving first evidence for a positive feedback regulation of this key enzyme in response to a selective depletion of endogenous sterols. At the same time, no compensatory responses mediated by SQS were observed, in sharp contrast to the situation in mammalian cells.  相似文献   

9.
Lipid biosynthesis was measured in cultured chicken embryo cells after infection with fowlpox virus. Between 24 and 72 h postinfection, fowlpox virus-infected cells incorporated less [14C]acetate and 3H2O into fatty acids and sterols than did mock-infected cells, demonstrating a virus-dependent inhibition of general lipid metabolism. Two specific effects of fowlpox virus infection were an accumulation of C-4 alkylated sterol intermediates and inhibition of monounsaturated fatty acid biosynthesis.  相似文献   

10.
The effects of ketoconazole, a lanosterol demethylase and cytochrome P450 inhibitor, on the regulation of 3-hydroxy-3-methylglutaryl coenzyme A reductase (EC 1.1.1.34, reductase) activity and sterol biosynthesis were studied in rat intestinal epithelial cell cultures (IEC-6). Incubation of cells with 0.15-2 microM ketoconazole resulted in a concentration-dependent inhibition of reductase activity. As the drug concentration approached 15 microM, the reductase activity returned to control values, and at 30 microM ketoconazole, a stimulation of enzyme activity was observed. The drug had no effect on reductase activity in homogenates of IEC-6 cells. Ketoconazole (0.15-30 microM) caused a concentration-dependent inhibition of the incorporation of [3H] mevalonolactone into cholesterol with a concomitant accumulation of radioactivity in methyl sterols; e.g. lanosterol and 24,25-epoxylanosterol. Interestingly, the incorporation of radioactivity into polar sterols showed a biphasic response which was inversely proportional to the biphasic response of reductase activity. Thus, incorporation of [3H]mevalonolactone into polar sterols increased at low concentrations of ketoconazole (0.15-2 microM) and decreased to control values at high concentrations of the drug. Treatment of cells with ketoconazole (30 microM) and [3H]mevalonolactone followed by removal of the drug and radiolabel resulted in an inhibition of reductase activity and a redistribution of radioactivity from lanosterol and 24,25-epoxylanosterol to cholesterol and polar sterols. These results suggested that the inhibition of reductase activity at low concentrations of ketoconazole (less than 2 microM) was due to a formation of regulatory polar sterols generated from the methyl sterols. At high concentrations of ketoconazole (30 microM) where no suppression in reductase activity was observed, the conversion of exogenously added [3H]24(S),25-epoxylanosterol to polar sterols was prevented. Exogenously added 24,25-epoxylanosterol inhibited reductase activity in a dose-dependent fashion, and ketoconazole (30 microM) prevented the inhibition caused by low concentrations of epoxylanosterol. The drug, however, was unable to prevent the dose-dependent suppression of reductase activity by 25-hydroxylanosterol, a reduced form of 24,25-epoxylanosterol. These results indicated that 24,25-epoxylanosterol per se was not an inhibitor of reductase activity but could be metabolized to regulatory polar sterols through a cytochrome P-450 dependent reaction which was sensitive to ketoconazole. Treatment of cells with ketoconazole totally abolished the inhibition of reductase activity by low density lipoprotein (LDL).(ABSTRACT TRUNCATED AT 400 WORDS)  相似文献   

11.
Abstract Incorporation of [1-14 C]acetate by the trypanosomid Crithidia fasciculata showed that ergosterol biosynthesis occurs de novo in this protozoon, via lanosterol and 31-norlanosterol. No cycloartenol could be detected, indicating that this biosynthesis pathway is rather similar to those of other non-photosynthetic organisms (animals, fungi). From the point of view of sterol biosynthesis, C. fasciculata is not related to other ergosterol-synthesising protozoa, such as the hitherto examined phytoflagellates and soil amoebae, which synthesise their sterols via cycloartenol, like photosynthetic organisms (plants, algae).  相似文献   

12.
Inhibition of a plant sesquiterpene cyclase by mevinolin   总被引:2,自引:0,他引:2  
The specificity of mevinolin as an inhibitor of sterol and sesquiterpene metabolism in tobacco cell suspension cultures was examined. Exogenous mevinolin inhibited [14C]acetate, but not [3H]mevalonate incorporation into free sterols. In contrast, mevinolin inhibited the incorporation of both [14C]acetate and [3H]mevalonate into capsidiol, an extracellular sesquiterpene. Microsomal 3-hydroxy-3-methylglutaryl Coenzyme A reductase was inhibited greater than 90% by microM mevinolin, while squalene synthetase was insensitive to even 600 microM mevinolin. Sesquiterpene cyclase, the first branch point enzyme specific for sesquiterpene biosynthesis, was inhibited in a dose-dependent manner by mevinolin with a 50% reduction in activity at 100 microM. Kinetic analysis indicated that the mechanism for inhibition was complex with mevinolin acting as both a competitive and noncompetitive inhibitor. The results suggest that the mevinolin inhibition of [3H]mevalonate incorporation into extracellular sesquiterpenes can, in part, be attributed to a secondary, but specific, site of inhibition, the sesquiterpene cyclase.  相似文献   

13.
The interconversion of free and esterified sterols was followed radioisotopically with [U-14C]acetate and [methyl-14C]methionine. In pulse-chase experiments, radioactivity first appeared mainly in unesterified sterols in exponential-phase cells. Within one generation time, the label equilibrated between the free and esterified sterol pools and subsequently accumulated in steryl esters in stationary-phase cells. When the sterol pools were prelabeled by growing cells aerobically to the stationary phase and the cells were diluted into unlabeled medium, the prelabeled steryl esters returned to the free sterol form under several conditions. (i) During aerobic growth, the prelabeled sterols decreased from 80% to 45% esters in the early exponential phase and then returned to 80% esters as the culture reached the stationary phase. (ii) Under anaerobic conditions, the percentage of prelabeled steryl esters declined continuously. When growth stopped, only 15% of the sterols remained esterified. (iii) In the presence of an inhibitor of sterol biosynthesis, which causes accumulation of a precursor to ergosterol, prelabeled sterols decreased to 40% steryl esters while the precursor was found preferentially in the esterified form. These results indicate that the bulk of the free sterol and steryl ester pools are freely interconvertible, with the steryl esters serving as a supply of free sterols. Furthermore, there is an active cellular control over what types of sterol are found in the free and esterified sterol pools.  相似文献   

14.
1. [2(-14)C]Mevalonic acid injected into the echinoderm Asterias rubens (Class Asteroidea) was effectively incorporated into the non-saponifiable lipid. 2. The most extensively labelled compounds were squalene and the 4,4-dimethyl sterols with much lower incorporations into the 4alpha-monomethyl and 4-demethyl sterol fractions. 3. Labelled compounds identified were squalene, lanosterol, 4,4-dimethyl-5alpha-cholesta-8,24-dien-3beta-ol and 4alpha-methyl-5alpha-cholest-7-en-3beta-ol; these are all intermediates in sterol biosynthesis. 4. The major sterol in A. rubens, 5alpha-cholest-7-en-3beta-ol, was also labelled showing that this echinoderm is capable of sterol biosynthesis de novo. 5. No evidence was obtained for the incorporation of [2(-14)C]mevalonic acid into the C28 and C29 components of the 4-demethyl sterols or 9beta,19-cyclopropane sterols found in A. rubens and it is assumed that these sterols are of dietary origin. 6. Another starfish Henricia sanguinolenta also incorporated [2(-14)C]mevalonic acid into squalene and lanosterol. 7. Various isolated tissues of A. rubens were all capable of incorporation of [2(-14)C]mevalonic acid into the nonsaponifiable lipid. With the body-wall and stomach tissues radioactivity accumulated in squalene and the 4,4-dimethyl sterols, but with the gonads and pyloric caecae there was a more efficient incorporation of radioactivity into the 4-demethyl sterols, principally 5alpha-cholest-7-en-3beta-ol.  相似文献   

15.
Zelazny AM  Shaish A  Pick U 《Plant physiology》1995,109(4):1395-1403
The halotolerant alga Dunaliella responds to hyperosmotic stress by synthesis of massive amounts of glycerol. The trigger for this osmotic response is the change in cell volume, but the mechanism that senses volume changes is not known. Preincubation of Dunaliella salina with tridemorph, a specific inhibitor of sterol biosynthesis, inhibits glycerol synthesis and volume recovery. The inhibition is associated with suppression of [14C]bicarbonate incorporation into sterols and is correlated with pronounced depletion of plasma membrane sterols. Incubation of sterol-depleted cells with cholesterol hemisuccinate restores the capacity for volume regulation in response to hyperosmotic stress. Tridemorph as well as lovastatin also inhibit volume changes that are induced by high light in Dunaliella bardawil, a species that responds to high light intensity by synthesis of large amounts of [beta]-carotene. These volume changes result from accumulation of glycerol and are associated with de novo synthesis of sterols. The major plasma membrane sterol in D. salina and the high-light-induced sterol in D. bardawil co-migrate with ergosterol on thin-layer chromatography and on reversed-phase high-performance liquid chromatography. These results suggest that the osmosensory mechanism in Dunaliella resides in the plasma membrane, and that sterols have an important role in sensing osmotic changes.  相似文献   

16.
The amino acid leucine is efficiently used by the trypanosomatid Leishmania mexicana for sterol biosynthesis. The incubation of [2-(13)C]leucine with L. mexicana promastigotes in the presence of ketoconazole gave 14alpha-methylergosta-8,24(24(1))-3beta-ol as the major sterol, which was shown by mass spectrometry to contain up to six atoms of (13)C per molecule. (13)C NMR analysis of the 14alpha-methylergosta-8,24(24(1))-3beta-ol revealed that it was labeled in only six positions: C-2, C-6, C-11, C-12, C-16, and C-23. This established that the leucine skeleton is incorporated intact into the isoprenoid pathway leading to sterol; it is not converted first to acetyl-CoA, as in animals and plants, with utilization of the acetyl-CoA to regenerate 3-hydroxy-3-methylglutaryl-CoA (HMG-CoA). An inhibitor of HMG-CoA synthase (L-659,699) blocked the incorporation of [1-(14)C]acetate into sterol but had no inhibitory effect on [U-(14)C]leucine incorporation. The HMG-CoA reductase inhibitor lovastatin inhibited promastigote growth and [U-(14)C]leucine incorporation into sterol. The addition of unlabeled mevalonic acid (MVA) overcame the lovastatin inhibition of growth and also diluted the incorporation of [1-(14)C]leucine into sterol. These results are compatible with two routes by which the leucine skeleton may enter intact into the isoprenoid pathway. The catabolism of leucine could generate HMG-CoA that is then directly reduced to MVA for incorporation into sterol. Alternatively, a compound produced as an intermediate in leucine breakdown to HMG-CoA (e.g. dimethylcrotonyl-CoA) could be directly reduced to produce an isoprene alcohol followed by phosphorylation to enter the isoprenoid pathway post-MVA.  相似文献   

17.
Incorporation of radioactivity from acetate-[14C] and MVA-[14C] into sterols and sterol precursors in tobacco was inhibited by Amo 1618; differing patterns of accumulation were obtained with the two precursors, suggesting more than one point of inhibition. This was borne out with cell-free preparations with which it was demonstrated that both HMG-CoA reductase and squalene-2,3-epoxide cyclase were inhibited, the latter more strongly than the former. GLC analysis of gross sterol and hydrocarbon fractions confirmed previous indications that incorporation of radioactivity into individual sterols was inhibited by Amo 1618. Finally, incorporation of MVA-[14C] into sterols and sterol precursors of Digitalis was significantly altered by the retardant, thus expanding the generality of the relationship between sterol (particularly 4-desmethylsterol) biosynthesis inhibition and retardant effect.  相似文献   

18.
The soil amoeba Acanthamoeba polyphaga is capable of synthesizing its sterols de novo from acetate. The major sterols are ergosterol and poriferasta-5,7,22-trienol. Furthermore C28 and C29 sterols of still unknown structure with an aromatic B-ring are also synthesized by the amoeba. The first cyclic sterol precursor is cycloartenol, which is the sterol precursor in all photosynthetic phyla. No trace of lanosterol, which is the sterol precursor in animals and fungi, could be detected. These results show that at least some of the biochemical processes of Acanthamoeba polyphaga might be phylogenetically related to those of unicellular algae. Addition of exogenous sterols to the culture medium does not influence the sterol biosynthesis and the sterol composition of the cells.  相似文献   

19.
Sterol side-chain (C-24) methylation was assayed by incorporation of radioactivity from [Me-14C]methionine into the ergosterol fraction in cells of the pathogenic fungi Candida albicans, Candida parapsilosis and Trichophyton mentagrophytes. Methylation at C-24 occurred after nuclear demethylation in all cases. The method was used to measure ergosterol biosynthesis inhibition by the allylamine antimycotics naftifine and SF 86-327, which are known to block squalene epoxidation. In C. albicans cells treated with SF 86-327 (1 mg l-1) to fully inhibit squalene epoxidation, C-24 methylation continued for several hours at about 40% of the control rate. This residual biosynthesis was probably due to methylation of endogenous sterol precursors. The degree of residual biosynthesis in the three fungi correlated well with their susceptibility to SF 86-327. The highly susceptible dermatophyte T. mentagrophytes had negligible residual sterol biosynthesis. These differences were not due to inhibition of methionine uptake. For naftifine (100 mg l-1) there was evidence of a second inhibitory action in C. albicans. A cell-free assay indicated that this was due to direct inhibition of the C-24 methyltransferase.  相似文献   

20.
Pectin administered to Uncaria tomentosa cell suspension cultures, was found to increase the production of triterpene acids (ursolic and oleanolic acid), however, neither growth nor sterol accumulation were affected. Cell cultures showed that pectin treatment caused a rapid threefold increase in the activities of enzymes involved in the biosynthesis of C(5) and C(30 )isoprenoid, such as isopentenyl diphosphate isomerase and squalene synthase. The activity of a farnesyl diphosphatase, which could divert the flux of farnesyl diphosphate to farnesol, was two times lower in elicited than in control cells. Elicited cells also transformed more rapidly a higher percentage of [5-(3)H]mevalonic acid into triterpene acids. Interestingly, addition of terbinafine, an inhibitor of squalene epoxidase, to elicited cell cultures inhibited sterol accumulation while triterpene production was not inhibited. These results suggest that in U. tomentosa cells, both the previously mentioned enzymes and those involved in squalene 2,3-oxide formation play an important regulatory role in the biosynthesis of sterols and triterpenes.  相似文献   

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