Testosterone-Fatty Acid esterification: a unique target for the endocrine toxicity of tributyltin to gastropods

Over the past thirty years, a global occurrence of sexual aberrationhas occurred whereby females among populations of prosobranchsnails exhibit male sex characteristics. This condition, calledimposex, has been causally associated with exposure to the biocidetributyltin. Tributyltin-exposed, imposex snails typically haveelevated levels of testosterone which have led to the postulatethat this endocrine dysfunction is responsible for imposex.This overview describes recent evidence that supports this postulate.Gastropods maintain circulating testosterone levels and administrationof testosterone to females or castrates stimulates male sexdifferentiation in several snail species. Studies in the mudsnail (Ilyanassa obsoleta) have shown that gastropods utilizea unique strategy for regulating free testosterone levels. Excesstestosterone is converted to fatty acid esters by the actionof a testosterone-inducible, high capacity/low affinity enzyme,acyl-CoA:testosterone acyl transferase, and stored within theorganisms. Free testosterone levels are regulated during thereproductive cycle apparently due to changes in esterification/desterificationsuggesting that testosterone functions in the reproductive cycleof the organisms. Testosterone esterification provides a uniquetarget in the testosterone regulatory machinery of snails thatis altered by tributyltin. Indeed, imposex and free testosteronelevels were elevated in field collected snails containing hightin levels, while testosterone-fatty acid ester pools were reducedin these organisms. These observations indicate that tributyltinelevates free testosterone by reducing the retention of testosteroneas fatty acid-esters. This endocrine effect of tributyltin maybe responsible for imposex.     

Aromatase and testosterone fatty acid esters: the search for a cryptic biosynthetic pathway to estradiol esters.

The estradiol fatty acid esters (lipoidal derivatives, LE2) are extremely potent estrogens that accumulate in fat, including fat of menopausal women. These steroidal esters are protected from metabolism and are converted to the free, biologically active steroid through the action of esterases. Previous studies have shown that biosynthetic pathways in the adrenal gland exist in which steroid fatty acid esters are substrates. This led us to determine whether a cryptic aromatase pathway exists in which testosterone esters could be converted directly into LE2. We tested a representative fatty acid ester, testosterone stearate, both as an inhibitor and as a substrate for the aromatase enzyme from human placental microsomes. This ester had neither activity. In addition, we tested [1 beta-3H]testosterone acetate as a substrate for this enzyme complex, measuring the production of 3H2O as evidence of aromatization. Although the rate of reaction was considerably slower than that of testosterone, 3H2O was produced. However, when [2, 4, 6, 7-3H]testosterone acetate was incubated and the steroidal products isolated, we found that hydrolysis of the substrate had occurred. Both [3H]-labeled testosterone and estradiol were found, and very little if any [3H]estradiol acetate was formed. Thus, we conclude that an aromatase pathway involving testosterone esters does not exist and that the sole source of LE2 is through direct esterification of estradiol.     

Synthesis of fatty acid sterol esters using cholesterol esterase from Trichoderma sp. AS59

We recently reported the characterization of novel cholesterol esterase (EC. 3.1.1.13) from Trichoderma sp. and preliminary work on sterol ester synthesis. In the present study, we further examined the enzyme ability to synthesize cholesterol esters from cholesterol and free fatty acids of various chain lengths, and compared the fatty acid specificity in synthesis with that in hydrolysis. The enzyme catalyzed the synthesis of medium- and long-chain fatty acid cholesterol esters, but failed to synthesize short-chain fatty acid esters. The fatty acid specificities in the synthesis and hydrolysis of cholesterol esters were entirely different from each other. Unlike other lipolytic enzymes, the enzyme was largely independent of water content in the synthesis of cholesterol oleate, and it achieved near-complete esterification in the presence of an equimolar excess of oleic acid. Of additional interest is the finding that the addition of n-hexane markedly enhanced the esterification activities on all the medium- and long-chain saturated fatty acids used. Based on these findings, we attempted to synthesize stigmasterol stearate as a food additive to lower cholesterol levels in blood plasma, and found that the enzyme catalyzed effective synthesis of the ester without the need of dehydration during the reaction, indicating the potential utility of the enzyme in the food industry.     

New insights into the mechanism of imposex induction in the dogwhelk Nucella lapillus

In an attempt to clarify the mechanism(s) of tributyltin-mediated imposex induction in females of the neogastropod Nucella lapillus, dogwhelks collected in an almost imposex free population were exposed to several treatments for a 3 month-period, and the effects on imposex induction and testosterone/estradiol levels were evaluated. As a positive control, tributyltin (50 ng TBT Sn/L) clearly induced imposex and led to a significant increase in the severity of the phenomenon. In contrast, although a selective P450 aromatase inhibitor (formestane at 0.3 mg/L) was capable of imposex induction, it failed to increase its severity. A vertebrate androgen receptor (AR) antagonist (cyproterone acetate at 1.25 mg/L) in combination with TBT completely blocked the imposex induction capacity of TBT. On the other hand, an estrogen receptor antagonist (tamoxifen at 0.3 mg/L) rendered no effect. The determination of steroid levels in female specimens revealed that TBT induces an elevation of free testosterone (but not the total amount, free+esterified), while the co-administration of the anti-androgen and TBT was able to rescue the increase of free testosterone levels. Despite a minor decrease in the amount of testosterone-fatty acid esters in the TBT group, significant differences in esterified testosterone were not found among treatments. On the contrary, free estradiol levels were elevated in the TBT, anti-androgens and TBT plus anti-androgens groups. These results indicate that free estradiol biosynthesis in TBT-exposed females does not seem to be affected. Overall, our results demonstrate that a selective aromatase inhibitor can induce imposex in N. lapillus but not to a similar extent of TBT, which may suggest the involvement of other mechanism in imposex induction, besides aromatase inhibition. Additionally, the study points to the involvement of AR receptors in imposex induction.     

Evidence for a lecithin-retinol acyltransferase activity in the rat small intestine

Cellular retinol-binding protein, type II (CRBP (II] is an abundant protein of the mature enterocytes of the small intestine. It has been shown to direct retinol to an acyl-CoA-independent esterifying activity that utilizes an endogenous acyl donor (Ong, D.E., Kakkad, B., and MacDonald, P.N. (1987) J. Biol. Chem. 262, 2729-2736). Here we report that this activity in intestinal microsomes will catalyze the transfer of acyl moieties from exogenous phosphatidylcholine (PC) to retinol-CRBP(II) to produce retinyl esters. The microsomal activity displayed positional selectivity as only the sn-1-acyl moiety of PC was transferred to retinol-CRBP(II). The retinyl ester synthase was selective for PC substrates as acyl transfer from phosphatidylethanolamine, phosphatidic acid, or free fatty acid to retinol-CRBP(II) was not observed. Some formation of retinyl esters was observed with exogenous acyl-CoA, but the amount produced was considerably lower than ester formation from exogenous PC and could be shown to be due to a different enzyme activity. Inhibitor studies clearly distinguished between the enzyme activities responsible for the acyl-CoA-dependent esterification and the phosphatidylcholine-dependent esterification of retinol. The results provide strong evidence that retinol-CRBP(II) esterification in the intestine proceeds via a phosphatidylcholine-dependent transacylase mechanism similar to that established for the esterification of cholesterol by lecithin-cholesterol acyltransferase.     

Cholesterol efflux from cells enriched with cholesteryl esters by incubation with hypercholesterolemic monkey low density lipoprotein

The mass efflux of free and esterified cholesterol was studied in skin fibroblasts loaded with cholesterol by incubation with low density lipoproteins (LDL) isolated from normal or hypercholesterolemic cynomolgus monkeys. Cells incubated with hypercholesterolemic LDL accumulated 2-3 times more cholesteryl ester than did cells incubated with the same amount of normal LDL. Cholesteryl oleate was the principal cholesteryl ester species to accumulate in cells incubated with both normal and hypercholesterolemic LDL. Efflux of this accumulated cholesterol was absolutely dependent on the presence of a cholesterol acceptor in the culture medium. Lipoprotein-deficient serum (LPDS) was the most potent promoter of cholesterol efflux tested, with maximum efflux occurring at LPDS concentrations greater than 1.5 mg protein/ml. Upon addition of efflux medium containing LPDS, there was a reduction in both the free and esterified cholesterol concentration of the cells. Greater than 90% of the cholesteryl esters that were lost from the cells appeared in the culture medium as free cholesterol, indicating that hydrolysis of cholesteryl esters preceded efflux. Efflux was not inhibited by chloroquine, however, suggesting a mechanism independent of lysosomes. Loss of cellular free cholesterol was maximum by 6 hr and changed very little thereafter up to 72 hr. Cholesteryl ester loss from cells decreased in a log linear fashion for efflux periods of 6-72 hr, with an average half-life for cholesteryl ester efflux of 30 hr, but with a range of 20-50 hr, depending upon the specific cell line. The rate of efflux of cellular cholesteryl esters was similar for cells loaded with normal or hypercholesterolemic LDL. In cells loaded with cholesteryl esters, cholesterol synthesis was suppressed and cholesterol esterification and fatty acid synthesis were enhanced. During efflux, cholesterol synthesis remained maximally suppressed while cholesterol esterification decreased for the first 24 hr of efflux, then plateaued at a level approximately 5-fold higher than control levels, while fatty acid synthesis was slightly stimulated. There was little difference in the rate of efflux of individual cholesteryl ester species. There was, however, the suggestion that reesterification of cholesterol principally to palmitic acid occurred during efflux. Since the rate of cellular cholesteryl ester efflux was similar regardless of whether the cells had been loaded with cholesterol by incubation with normal LDL or hypercholesterolemic LDL, the greater accumulation of cholesterol in cells incubated with hypercholesterolemic LDL cannot be explained by differences in rates of efflux.-St. Clair, R. W., and M. A. Leight. Cholesterol efflux from cells enriched with cholesteryl esters by incubation with hypercholesterolemic monkey low density lipoprotein.     

Sexual dimorphism in esterified steroid levels in the gastropod Marisa cornuarietis: the effect of xenoandrogenic compounds

Molluscs can conjugate a variety of steroids to form fatty acid esters. In this work, the freshwater ramshorn snail Marisa cornuarietis was used to investigate sex differences in endogenous levels of esterified steroids. Testosterone and estradiol were mainly found in the esterified form in the digestive gland/gonad complex of M. cornuarietis, and males had higher levels of esterified steroids than females (4-10-fold). Additionally, the ability of several xenobiotics, namely tributyltin (TBT), methyltestosterone (MT) and fenarimol (FEN) to interfere with the esterification of testosterone and estradiol was investigated. All three compounds induced imposex - appearance of male sexual characteristics in females. Exposure to TBT led to a decrease in both esterified testosterone (60-85%) and estradiol (16-53%) in females after 100 days exposure, but had no effect on males. Exposure to FEN and MT did not alter levels of esterified steroids in males or in females, although exposed females developed imposex after 150 days exposure. The decrease in esterified steroids by TBT could not be directly linked with a decrease in microsomal acyl-CoA:testosterone acyltransferase (ATAT) activity, which catalyzes the esterification of steroids. In fact, ATAT activity was marginally induced in organisms exposed to TBT for 50 days (1.3-fold), and significantly induced in males and females exposed to MT for 50 days (1.8- and 1.5-fold, respectively), whereas no effect on ATAT activity was observed after 150 days exposure.     

Fatty acid esters of steroids: synthesis and metabolism in lipoproteins and adipose tissue

At the end of the last century ideas concerning the physiological role of the steroid fatty acid ester family were emerging. Estrogens, fatty acylated at C-17 hydroxyl group and incorporated in lipoproteins were proposed to provide antioxidative protection to these particles. A large number of studies involving non-estrogenic adrenal steroids, and their fatty acylated forms, demonstrated their lipoprotein-mediated transport into cells and subsequent intracellular activation, suggesting a novel transport mechanism for lipophilic steroid derivatives. After these important advances the main focus of interest has shifted away from C-19 and C-21 steroids to fatty acylated estrogens. However, interest in their lipoprotein-mediated transport has decreased because only minute amounts of these derivatives were detected in circulating lipoproteins, and their antioxidative activity remained unconfirmed under physiological circumstances. It now appears that the overwhelming majority of estradiol in postmenopausal women resides in adipose tissue, most of it in esterified form. This is poorly reflected in plasma levels which are very low. Recent data suggest that estrogen fatty acid esters probably represent a storage form. The future focus of investigation is likely to be on firstly, the enzymatic mechanisms regulating the esterification and de-esterification of estradiol and other steroids residing in adipose tissue and secondly, on the role of insulin and other hormones in the regulation of these enzymatic mechanisms. Thirdly, as a large proportion of fatty acid esterified C-19 and C-21 non-estrogenic steroids is transported in lipoproteins and as they are important precursors of androgens and estrogens, this field should be investigated further.     

Effects of different types of polyunsaturated fatty acids on cholesterol esterification in human fibroblasts.

We have enriched human fibroblasts with oleic acid, with linoleic acid and with eicosapentaenoic acid. The accumulation of cholesteryl esters in the cells and the rate of esterification of cholesterol by microsomal acyl-CoA:cholesterol acyltransferase (ACAT) were measured in these cells. Cholesteryl ester levels were lower in cells enriched with eicosapentaenoic acid compared with cells enriched with oleate or linoleate. We also observed significantly lower ACAT activities in the microsomes from fibroblasts enriched with the n-3 polyunsaturated fatty acids relative to cells enriched with oleic acid or linoleic acid. We suggest that the presence of n-3 polyunsaturated fatty acids might suppress cholesteryl ester accumulation and inhibit atherogenesis.     

Variation in plasma lipids during the reproductive cycle of male and female desert tortoises,Gopherus agassizii

Plasma triacylglycerol, phospholipid, cholesterol, cholesterol esters, fatty acids, and total lipids were measured in 30 female and 20 male desert tortoises (Gopherus agassizii) during the annual reproductive cycle in the eastern Mojave desert, Nevada. Blood samples were collected at monthly intervals from April to October. All lipid fractions, with the exception of free fatty acids, were significantly higher in female plasma than in male plasma in all months of the year. In contrast, free fatty acids were higher in male plasma than in female plasma in all months. The seasonal pattern in estradiol secretion mirrored that of triacylglycerol, phospholipid, cholesterol, and total lipid, all of which showed a significant correlation with the hormone. Estradiol and the vitellogenesis-associated lipids were all significantly higher in August, September, October, and April than in June. The seasonal variation in cholesterol ester levels in females did not correlate with any of the reproductive events and did not appear to be involved in yolk precursor formation. Total lipid in males showed a negative correlation with testosterone and spermatogenesis. Individual fatty acids in the June and August samples (at the highest and lowest estradiol levels) were compared in male and female plasma. The percent of C18:3n3, C18:2n6, C18:1n9, C20:5n3, and C22:5 were significantly higher in the June female plasma sample than in the August sample. Docosahexanoic (C22:6n3) acid was barely detectable in female plasma in either month.     

Turnover of cholesteryl esters of plasma lipoproteins in the rat

Turnover of individual classes of cholesteryl esters (classified on the basis of the degree of unsaturation of the fatty acid moiety) in rat plasma lipoproteins and liver was studied after the administration of mevalonic acid-5-(3)H and mevalonic acid-2-(14)C. The relative turnover rate was greatest in the d < 1.019 lipoproteins, with monoenes > saturated = dienes > tetraenes. In the d > 1.063 lipoproteins, all cholesteryl esters had slower turnover rates, but tetraenes = pentaenes > dienes > monoenes = saturated. Comparisons of specific activities of individual cholesteryl ester classes of liver subcellular fractions and lipoproteins suggest that the d < 1.019 lipoprotein cholesteryl esters are synthesized from newly synthesized cholesterol in the liver and are rapidly released into this lipoprotein. Tetraenoic cholesteryl esters, however, may originate from esterification of free cholesterol in plasma. Tetraenoic esters are formed from cholesterol in plasma during incubation or ultracentrifugation unless a thiol-reacting or alkylating agent is added. Failure to add such a reagent to plasma results in erroneous specific activities. In the adrenal, relative rates of synthesis of cholesteryl esters are monoenes = dienes > tetraenes > trienes = pentaenes > saturated. It is concluded that cholesteryl ester turnover in the rat, as opposed to man, is determined not only by the particular lipoprotein class but also by the fatty acid moiety of the ester.     

Defect in fatty acid esterification of dolichol in Niemann-Pick type C1 mouse livers in vivo

Fatty acid esterification of dolichol and cholesterol in Niemann-Pick type C1 mouse (Balb/c NIH npc1(-/-)) livers was investigated in response to treatment with peroxisomal proliferators. These inducers have hypolipidemic properties and influence the mevalonate pathway and the intracellular transport of the final products of this biosynthetic route. Such inducers are consequently interesting to use in a disease model with defective intracellular transport of lipids. In wild-type mice, the levels of dolichol and cholesterol found as free alcohols were not changed to any great extent upon treatment with the peroxisomal inducers dehydroepiandrosterone, clofibrate and diethylhexylphtalate. In contrast, the amounts of dolichyl esters increased whereas cholesteryl esters decreased by the same treatments. The rate of enzymatic esterification of dolichol in isolated microsomes was accordingly elevated after 5- to 7-day treatments with the efficient peroxisomal proliferators DEHP and PFOA, while the corresponding esterification of cholesterol was decreased. Upon peroxisomal induction in npc1(-/-) mice, the enzymatic dolichol esterification in vitro increased whereas the low concentration of dolichyl esters remained unchanged. The results thus demonstrate that the induction of fatty acid esterification of dolichol in vivo is impaired in npc1(-/-) mouse liver. It is therefore proposed that the intracellular lipid transport defect in npc1(-/-) mouse liver disables either dolichol and/or the fatty acid from reaching the site of esterification in vivo. This proposal was strengthened by the finding that the amount of dolichol was decreased in an isolated Golgi fraction from npc1(-/-) mice.     

Metabolism of low-density lipoprotein free cholesterol by human plasma lecithin-cholesterol acyltransferase

The metabolism of cholesterol derived from [3H]cholesterol-labeled low-density lipoprotein (LDL) was determined in human blood plasma. LDL-derived free cholesterol first appeared in large alpha-migrating HDL (HDL2) and was then transferred to small alpha-HDL (HDL3) for esterification. The major part of such esters was retained within HDL of increasing size in the course of lecithin-cholesterol acyltransferase (LCAT) activity; the balance was recovered in LDL. Transfer of preformed cholesteryl esters within HDL contributed little to the labeled cholesteryl ester accumulating in HDL2. When cholesterol for esterification was derived instead from cell membranes, a significantly smaller proportion of this cholesteryl ester was subsequently recovered in LDL. These data suggest compartmentation of cholesteryl esters within plasma that have been formed from cell membrane or LDL free cholesterol, and the role for HDL2 as a relatively unreactive sink for LCAT-derived cholesteryl esters.     

A comparison of the fatty acid esters of estradiol and corticosterone synthesized by tissues of the rat

The biosynthesis of the fatty acid esters of the corticoid (corticosterone) and estrogen (estradiol) was compared in parallel incubations of corticosterone and estradiol with several tissues of the rat. The fatty acid composition of the esters of the two steroids was characterized in mammary and uterine tissue. In both of these tissues, the esters of estradiol were extremely heterogeneous. To the contrary, in the same tissues only one predominant ester of corticosterone, corticosterone-21-oleate, was formed. It comprised 70-80% of the total. The oleate ester of estradiol accounted for only 20% of the esters of this estrogen. In addition, fatty acid esters of an A-ring reduced metabolite of corticosterone, 5 beta-dihydrocorticosterone, was also identified. Its fatty acid composition is identical to that of corticosterone. In other experiments the fatty acid esters of both steroids were isolated from several tissues and quantified. When the amount of steroidal ester formed was compared, there was over a 100-fold difference among the various tissues in the ratio of estradiol to corticosterone ester synthesized. Thus, the rate of synthesis of the fatty acid esters of each class of steroid varies dramatically from tissue to tissue, and their fatty acid composition differs markedly as well. If the same enzyme synthesized both the estrogen and corticoid esters, then it would be expected that the relative amount of both esters synthesized in various tissues should be constant and likewise that their composition should be the same. Since neither occurred, these results suggest that the enzyme which produces the C-17 fatty acid esters of the estrogens may be different from the one which synthesizes the C-21 esters of the corticoids. The existence of separate enzyme systems for the synthesis of the fatty acid esters of these steroid hormones opens the possibility of specific physiological controls of each of these unusual steroidal metabolites.     

Determination of monoenoic fatty acid double bond position by permanganate-periodate oxidation followed by high-performance liquid chromatography of carboxylic acid phenacyl esters

This investigation was carried out to develop methods for a reverse-phase, high-performance liquid chromatography analysis of the monocarboxylic and dicarboxylic acids produced by permanganate-periodate oxidation of monoenoic fatty acids. Oxidation reactions were performed using [U-14C]oleic acid and [U-14C]oleic acid methyl ester in order to measure reaction yields and product distributions. The 14C-labeled oxidation products consisted of nearly equal amounts of monocarboxylic and dicarboxylic acid (or dicarboxylic acid monomethyl ester), with few side products (yield greater than 98%). Conversion of the carboxylic acids to phenacyl esters proceeded to completion. HPLC of carboxylic acid phenacyl esters was performed using a C18 column with a linear solvent gradient beginning with acetonitrile/water (1/1) and ending with 100% acetonitrile. Excellent resolution was achieved for all components of a mixture of C5 through C12 monocarboxylic acid phenacyl esters and C6 through C11 dicarboxylic acid phenacyl esters. Resolution was also achieved for all components of a mixture of C5 through C12 monocarboxylic acid phenacyl esters and C6 through C11 dicarboxylic acid monomethyl, monophenacyl esters. The resolution obtained by HPLC demonstrates that, for a wide range of monoenoic fatty acids, both products of a permanganate-periodate oxidation can be identified on a single chromatogram. Free fatty acids and fatty acid methyl esters were analyzed with equal success. Neither the oxidation nor the esterification reaction caused detectable hydrolysis of methyl ester. The method is illustrated for free acids and methyl esters of 14:1 (cis-9), 16:1 (cis-9), 18:1 (cis-6), 18:1 (cis-9), and 18:1 (cis-11).     

Incorporation of lipoxygenase products into cholesteryl esters by acyl-CoA:cholesterol acyltransferase in cholesterol-rich macrophages.

Macrophages which were incubated with acetylated low-density lipoproteins, resulting in cholesteryl ester accumulation, incorporated the monohydroxyeicosatetraenoic acids (5-, 15-, and 12-HETEs) into cholesteryl esters. The esterification of these hydroxy fatty acids to cholesterol by total membrane preparations of cholesterol-rich macrophages was dependent on the synthesis of the fatty acyl-CoA derivative, and was catalysed by acyl-CoA:cholesterol acyltransferase (ACAT). Stimulation of membrane ACAT activity by 25-hydroxycholesterol increased the synthesis of cholesteryl 12-HETE by 40%. In contrast, inhibiting ACAT activity by progesterone and compound 58-035 decreased cholesteryl 12-HETE production by 60% and 90% respectively. Although 5-, 15- and 12-HETE were esterified to cholesterol by ACAT, these monohydroxy fatty acids were less optimal as substrates compared with oleic acid or arachidonic acid. The hydrolysis and release of 12-HETE and the other monohydroxyeicosatetraenoic acids from intracellular cholesteryl esters and phospholipids occurred at a faster rate than for the more conventional fatty acids, oleate and arachidonate. Cholesteryl esters which contain hydroxy fatty acids therefore provide only a transient storage for lipoxygenase products, as these fatty acids are released into the medium as readily as hydroxy fatty acids found in phospholipids and triacylglycerols. The data provide evidence, for the first time, of an ACAT-dependent esterification of the lipoxygenase products 5-, 15- and 12-HETEs to cholesterol in the macrophage-derived foam cell. The channelling of these monohydroxy fatty acids to cholesteryl esters provides a mechanism which can alter the amount of lipoxygenase products incorporated into cellular phospholipids, thus averting deleterious changes to cell membranes. ACAT, by catalysing the esterification of monohydroxyeicosatetraenoic acids to cholesterol, could play a key role in regulating the amount of lipoxygenase products in the pericellular space of the cholesterol-enriched macrophage.     

The biosynthesis of D-ring fatty acid esters of estriol

Biological esterification with fatty acids is a feature that is now known to be common to most steroids. The esterification of estradiol in the D-ring at the 17 beta-hydroxyl leads to a family of extremely active estrogens. Similarly, esterification of the weaker estrogen, estriol (E3), has an even greater impact on its hormonal potency. We have recently shown that synthetic long chain esters of E3 at either 16 alpha- or 17 beta- are highly potent estrogens. The estrogenic activity of the synthetic E3 esters led us to determine whether E3 is biologically esterified, and if so, to characterize the resulting esters. Incubation of E3 with rat lung, a tissue which is highly active in esterifying estradiol, produces a nonpolar metabolite which upon saponification is converted back into E3. There was no evidence for the formation of a diester. Purification by high performance liquid chromatography separates the non-polar metabolite into two peaks, one the C-16 alpha- (approximately 60%) and the other the C-17 beta-ester (approximately 40%). The two fractions were further purified and characterized; each is a mixture of fatty acid esters of E3. The composition of the C-16 alpha- and the C-17 beta-fatty acid esters of E3 is identical. The predominant fatty acids are arachidonate, 34%, palmitate, 26%, followed by oleate 14%, linoleate 13%, stearate 8%, and palmitoleate 5%. The similarity of the esters at C-16 and C-17 may indicate that the fatty acid precursor for the acyltransferase is the same for both hydroxyl groups. It may also suggest that the same enzyme esterifies both positions in the D-ring. Since synthetic estriol fatty acid esters are extremely potent and long-lived estrogens, the enzymatic esterification of estriol produces powerful estrogens with considerable physiological potential.     

糖脂修饰的脂肪酶在有机溶剂中催化酯化反应

本文研究了不同糖脂化合物修饰的脂肪酶在有机溶剂中催化长碳链脂肪酸和脂肪醇的酯化反应,不同的脂肪酶经糖脂修饰后,催化活性均有不同程度的提高。在４种糖脂和６种脂肪酶中,以蔗糖酯ＳＥ－７修饰脂肪酶ＣＥＳ活性最高,本文还对ｐＨ、溶剂和温度等对修饰脂肪酶生的影响进行了研究。     

Extensive esterification of adrenal C19-delta 5-sex steroids to long-chain fatty acids in the ZR-75-1 human breast cancer cell line

Estrogen-sensitive human breast cancer cells (ZR-75-1) were incubated with the 3H-labeled adrenal C19-delta 5-steroids dehydroepiandrosterone (DHEA) and its fully estrogenic derivative, androst-5-ene-3 beta,17 beta-diol (delta 5-diol) for various time intervals. When fractionated by solvent partition, Sephadex LH-20 column chromatography and silica gel TLC, the labeled cell components were largely present (40-75%) in three highly nonpolar, lipoidal fractions. Mild alkaline hydrolysis of these lipoidal derivatives yielded either free 3H-labeled DHEA or delta 5-diol. The three lipoidal fractions cochromatographed with the synthetic DHEA 3 beta-esters, delta 5-diol 3 beta (or 17 beta)-monoesters and delta 5-diol 3 beta,17 beta-diesters of long-chain fatty acids. DHEA and delta 5-diol were mainly esterified to saturated and mono-unsaturated fatty acids. For delta 5-diol, the preferred site of esterification of the fatty acids is the 3 beta-position while some esterification also takes place at the 17 beta-position. Time course studies show that ZR-75-1 cells accumulate delta 5-diol mostly (greater than 95%) as fatty acid mono- and diesters while DHEA is converted to delta 5-diol essentially as the esterified form. Furthermore, while free C19-delta 5-steroids rapidly diffuse out of the cells after removal of the precursor [3H]delta 5-diol, the fatty acid ester derivatives are progressively hydrolyzed, and DHEA and delta 5-diol thus formed are then sulfurylated prior to their release into the culture medium. The latter process however is rate-limited, since new steady-state levels of free steroids and fatty acid esters are rapidly reached and maintained for extended periods of time after removal of precursor, thus maintaining minimal concentrations of intracellular steroids. The rapid rate and large extent of esterification of DHEA and delta 5-diol to long-chain fatty acids in breast cancer cells indicate that this reaction could constitute an important regulatory step in the estrogenic action of DHEA and delta 5-diol in these cells.     

Eicosapentaenoic acid inhibits cholesterol esterification in cultured parenchymal cells and isolated microsomes from rat liver

The effects of eicosapentaenoic acid on synthesis and secretion of cholesterol and cholesterol ester by cultured rat hepatocytes were studied. In the presence of eicosapentaenoic acid cellular cholesterol esterification was decreased by 50-75% compared to oleic acid as measured by radioactive precursors and mass. Secretion of cholesterol ester was reduced by 50-60% in the presence of eicosapentaenoic acid as evaluated by radiolabeled fatty acids, mevalonolactone, and mass measurement. Oleic, palmitic, and stearic acid increased, whereas eicosapentaenoic and docosahexaenoic acid decreased synthesis and secretion of cholesterol ester as compared to a fatty acid-free control. Cellular and secreted free cholesterol were unaffected by eicosapentaenoic acid in comparison with oleic acid. The reduced cholesterol esterification was observed within 1 h and lasted for at least 20 h. Eicosapentaenoic acid caused lower cholesterol esterification than oleic acid in the concentration range 0.2-1.0 mM fatty acid and reduced the stimulatory effect of oleic acid on cholesterol ester formation. Cholesterol esterification and release of cholesterol ester were markedly increased by 25-hydroxycholesterol in the presence of eicosapentaenoic acid as well as oleic acid. Experiments with liver microsomes revealed that radioactive eicosapentaenoic acid and eicosapentaenoyl-CoA were poorer substrates (7-30%) for cholesterol esterification than oleic acid and oleoyl-CoA. Reduced formation of cholesterol ester was also observed when eicosapentaenoyl-CoA was given together with labeled oleoyl-CoA, whereas palmitoyl-CoA, stearoyl-CoA, linolenoyl-CoA, and arachidonoyl-CoA had no inhibitory effect. In conclusion, eicosapentaenoic acid reduced cellular cholesterol esterification by inhibiting the activity of acyl-CoA:cholesterol acyltransferase. The lowered cholesterol esterification caused by eicosapentaenoic acid secondly decreased secretion of very low density lipoprotein cholesterol ester.