Mechanism of rat liver microsomal stearyl-CoA desaturase. Studies of the substrate specificity, enzyme-substrate interactions, and the function of lipid.

The three purified proteins which are required for microsomal stearyl-CoA desaturation, NADH-cytochrome b5 reductase, cytochrome b5, and desaturase, have been combined with egg lecithin or dimyristyl lecithin vesicles to reconstruct a functional electron transport system capable of utilizing NADH and O2 in the desaturation of stearyl-CoA. Such preparations appear to consist of phospholipid vesicles which contain the three proteins bound to the outer surface of the vesicles. Acyl-CoA derivatives containing 12 to 19 carbon fatty acyl chains are required for desaturase activity while derivatives containing 9 to 20 carbons are capable of binding to the enzyme. Shorter chain acyl-CoA derivatives, free CoA, and free fatty acids do not appear to bind to the enzyme. Inhibition and analog studies suggest that the methylene chain of stearyl-CoA assumes an eclipsed ("gauche") conformation at carbon atoms 9,10 in the enzyme-substrate complex. Furthermore, isotope rate effects obtained with deuterated stearyl-CoA derivatives indicate that hydrogen removal is the rate-limiting step of desaturation. Stearyl-CoA binds to pure liposomes and desaturase-containing liposomes, and it is this form of stearyl-CoA which appears to be the substrate for desaturase. The Arrhenius plots of desaturase activity obtained using desaturase bound to egg lecithin liposomes, in which the liquid crystalline to crystalline phase transition temperature is -5 degrees, was linear between 15 and 35 degrees, while that obtained using desaturase bound to dimyristyl lecithin liposomes showed a break at 24 degrees coinciding with the liquid crystalline to crystalline phase transition temperature for this lipid. The decrease observed in the deuterium isotope rate effect below the transition temperature indicates that a step in the reaction sequence other than hydrogen abstraction becomes rate-limiting when the lipid is in the crystalline state. In this system translational diffusion does not emerge as the rate-limiting step. The liposomes contained sufficient reductase and cytochrome b5 so that translational diffusion was not rate-limiting.     

Stearyl-CoA desaturase of bovine mammary microsomes

Stearyl-CoA desaturase from the microsomal fraction of lactating bovine mammary tissue had a specific activity of 0.4 nmoles oleate formed min^?1 mg^?1 protein. NADH was required for desaturase activity. However, oxidized NAD⁺ and NADP⁺ supported measurable desaturase activity. K_m values for stearyl-CoA and NADH were 25.0 μm and 3.0 μm, respectively. Desaturase was depressed by increasing concentrations of other acyl-CoA esters, i.e., palmityl-CoA and oleyl-CoA (>10 μm). Sn-1,2 diglycerides (1–2.0 μm) depressed desaturase slightly in the order 0–20%, as did l-α-glycerolphosphate (0.2–3.6 μm). 1-Acyl-sn-glycerol-3-phosphorylcholine (>0.1 μm) depressed desaturase activity markedly. Sonication of the microsomal preparation stimulated desaturase activity. The addition of ethanol depressed desaturation, and EDTA inhibited desaturation. Palmityl CoA was equally desaturated by the microsomes. The acyl-CoA desaturase was very stable when stored at ?30 °C as a freeze-dried microsomal preparation, i.e., activity was retained after 12-month storage.Labeled stearate and oleate were isolated as esters (triglycerides and phospholipids) and as free fatty acids, indicating the presence of acyl transferases and acyl-CoA hydrolase in mammary microsomes.     

Rapid cold-induced changes of membrane order and delta 9-desaturase activity in endoplasmic reticulum of carp liver: a time-course study of thermal acclimation

The membrane order of liver endoplasmic reticulum (ER) membranes of 10 degrees C- and 30 degrees C-acclimated carp has been compared using the fluorescence polarization technique with DPH as probe. Membranes from cold-acclimated fish displayed lower polarizations than corresponding membranes from warm-acclimated fish, the difference compensating for 34-50% of the direct effects of temperature upon polarization. The changes in delta 9-desaturase activity and fluorescence polarization of DPH in ER membranes have been monitored as a function of time during cold acclimation of 30 degrees C-acclimated carp. Cooling was achieved in three stages over 48 h. Desaturase activity in both rough and smooth ER showed a rapid increase in activity for the first three days followed by a decline on day 4 and a second increase up to day 10. Polarization of DPH (measured at 10 degrees C) was rapidly reduced on cooling with no further change after day 4. The halftime for change in polarization and for the first desaturase induction were both approx. 2 days although large changes in polarization were evident within 24 h after the onset of cooling. During the cooling phases the daily changes in DPH polarization were quantitatively related to increments in desaturase capacity. The second desaturase induction had no effect upon membrane structure, at least as indicated by the polarization technique.     

Differential expression of desaturases and changes in fatty acid composition during sporangiospore germination and development in Mucor rouxii

Polyunsaturated fatty acids (PUFAs), namely, oleic (C18:1), linoleic (C18:2), and gamma-linolenic acid (C18:3), constituted the majority in the total fatty acid content (44%) of sporangiospores of Mucor rouxii. At 30 degrees C, the germination begins within 1h at which time spore swelling occurs, followed by germ tube emergence within 3-4h. Throughout germination, an increase in gamma-linolenic acid (GLA) was observed and its content was highest at germ tube emergence. It took longer for sporangiospores of M. rouxii to germinate at sub-optimal temperatures (15 and 35 degrees C). However, the content of GLA was higher at the germ tube initiation than at the mycelial stage at all temperatures, suggesting the association of GLA and germination of sporangiospores. This finding was substantially confirmed by differential expression of delta9-, delta12-, and delta6-desaturase genes measured during spore germination. The expression of three desaturase genes parallels the pattern of GLA synthesis. By using RT-PCR techniques to follow gene expression, we found that mRNA of delta12- and delta6-desaturase genes were translated as soon as the spores were introduced into a fresh medium while the mRNA of delta9-desaturase gene could not be detected until 2h after introduction. A sharp increase in mRNA of delta6-desaturase genes correlated well with an increase in GLA content at germ tube emergence (4h). These results demonstrated that changes in fatty acid composition of sporangiospore of M. rouxii and differential expression of desaturase genes occurred during germination, and that extensive changes in GLA synthesis associated with some events in germination process.     

Studies on Acetyl-Coenzyme A Synthetase of Yeast: Inhibition by Long-Chain Acyl-Coenzyme A Esters

Long-chain acyl-coenzyme A (CoA) compounds (palmityl, stearyl, and oleyl) were found to be potent inhibitors of acetyl-CoA synthetase (ACS) of Saccharomyces cerevisiae strain LK2G12 from aerobic, but not from nonaerobic, cells. The effectiveness of the inhibitors of the aerobic enzyme was in the following order: palmityl-CoA < stearyl-CoA < oleyl-CoA. Short-chain acyl-CoA compounds (propionyl, butyryl, and valeryl) and long-chain fatty acids had no effect on ACS from either source. The inhibition by oleyl-CoA was found to be dependent on enzyme concentration, whereas the inhibition by palmityl- and stearyl-CoA was independent of ACS concentration. Inhibition by palmityl-CoA was noncompetitive with respect to both acetate and CoA, and with increasing concentration of inhibitor the pattern was sigmoidal, with a Hill value of 3.24. At maximally inhibitory concentrations of palmityl-CoA, a small amount of enzyme activity remained. This noninhibitable enzyme in aerobic cells was shown not to be of nonaerobic origin.     

A palmitoyl-CoA-specific delta9 fatty acid desaturase from Caenorhabditis elegans

Biosynthesis of polyunsaturated fatty acids in C. elegans is initiated by the introduction of a double bond at the delta9 position of a saturated fatty acid. We identified three C. elegans fatty acid desaturase genes related to the yeast delta9 desaturase OLE1 and the rat stearoyl-CoA desaturase SCD1. Heterologous expression of all three genes rescues the fatty acid auxotrophy of the yeast delta9 desaturase mutant ole1. Examination of the fatty acid composition of the transgenic yeast reveals striking differences in the substrate specificities of these desaturases. Two desaturases, FAT-6 and FAT-7, readily desaturate stearic acid (18:0) and show less activity on palmitic acid (16:0). In contrast, the other desaturase, FAT-5, readily desaturates palmitic acid (16:0), but shows nearly undetectable activity on the common delta9 substrate stearic acid. This is the first report of a palmitoyl-CoA-specific membrane fatty acid desaturase.     

Mutants of Bacillus species isolated on the basis of protonophore resistance are deficient in fatty acid desaturase activity.

The fatty acid desaturase activity in cell extracts of Bacillus subtilis was characterized and found to be O2 dependent, NADH dependent, and cyanide sensitive. In cell fractionation studies, only 10% of the desaturase activity was recovered in the membrane fraction; the addition of cytosolic factors, which by themselves were devoid of activity, restored membrane activity to the level found in the unfractionated cell extracts. NADH was preferred over NADPH as an electron donor, and palmitoyl-coenzyme A was used preferentially over stearoyl-coenzyme A as the straight-chain fatty acid substrate. An increase in desaturase activity was observed when either the growth or the assay temperature was lowered from 37 to 20 degrees C, although the assay temperature appeared to be the more important parameter. Three protonophore-resistant mutants of B. subtilis and a comparable mutant of Bacillus megaterium had been found to possess reduced levels of unsaturated fatty acids in their membrane phospholipids; their protonophore resistance was abolished when grown in the presence of an unsaturated fatty acid supplement. All of these strains were found to be either significantly deficient in or totally lacking desaturase activity in comparison with their wild-type parent strains. Full, protonophore-sensitive revertants of the mutants had levels of desaturase activity comparable to those of the wild-type. Temperature-sensitive revertants of two of the mutants, which grew at 32 degrees C but not at 26 degrees C in the presence of protonophore, exhibited desaturase activity comparable to that of the wild-type at 26 degrees C but lacked activity at 32 degrees C. These results indicate that the biochemical basis for protonophore resistance in these Bacillus mutants is a fatty acid desaturase deficiency.     

Microsomal fatty acid desaturation and elongation in a human lung carcinoma grown in nude mice

Since tumor cells show abnormal fatty acid composition, it is likely that their desaturase systems were affected to some extent. Although desaturase activities in experimental tumors have been evaluated, to our knowledge, fatty acid desaturases in human neoplasms and particularly in human tumors grown in nude mice have not been assessed yet. We have therefore, chosen a rapidly growing human lung mucoepidermoid carcinoma (HLMC) grown in nude mice to study microsomal fatty acid desaturation and chain elongation activities. Tumor microsomal proteins were incubated with unlabeled malonyl-CoA and one of the following fatty acids: [1-14C]palmitic (16:0), [1-14C]linoleic (18:2), alpha-[1-14C]linolenic (alpha-18:3), and unlabeled gamma-linolenic (gamma-18:3) plus [2-14C]malonyl-CoA. Data show that HLMC microsomes were capable to desaturate 16:0, alpha-18:3, and dihomogammalinolenic acids (20:3) by delta 9, delta 6 and delta 5 desaturase, respectively; however, delta 6 desaturase activity on [14C]18:2 was not detected. The microsomal elongation system was active in all fatty acid series tested except for 18:2. These findings show that the undetectable activity for 18:2 desaturation is not exclusively found in experimental tumors.     

Effects of cyanide on stearyl-coenzyme A desaturase activities in microsomes from various mammalian tissues.

The effect of potassium cyanide on the desaturase activity for stearyl-CoA in microsomes of various mammalian tissues has been investigated. Potassium cyanide inhibited the desaturase activities in microsomes from livers of rat, hen, guinea pig and rat lung, but not the activities in microsomes from rabbit liver, pig thyroid and bovine adrenocortex, It is concluded that the so-called "cyanide-sensitive factor" does not seem to be common to all the desaturase activities of stearyl-CoA in the microsomes of mammalian tissues.     

The acyl-CoA desaturases of microsomes from rat liver and the Morris 7777 hepatoma.

We have investigated the role of the microsomal oxidative desaturase in defining the aberrant phosphoglyceride fatty acid composition of hepatomas. The microsomal delta 9-stearoyl-CoA, delta 6-oleoyl(linolenoyl)-CoA, and delta 5-eicosatrienoyl-CA desaturase activities were studied in control and host liver and in the poorly differentiated Morris 7777 hepatoma. The delta 9-stearoyl-CoA desaturase of the hepatoma was significantly decreased (42%) relative to control liver, yet the hepatoma specific activity was twice that of host liver. Additionally, the specific activity of the delta 9-stearoyl-CoA desaturase of the tumor was found to decrease with increasing tumor weight. Also this desaturase was inactivated by freezing and thawing. The delta 6-oleoyl(linolenoyl)-CoA and delta 5-eicosatrienoyl-CoA desaturases of the hepatoma were 39% and 4% of control, respectively. The electron transport components involved in the desaturase system were reduced, although this did not appear to be rate-limiting. In addition, two competing metabolic reactions which could lower the observed desaturase activities, hydrolysis of the thioester and incorporation of substrate acyl-CoA molecules into glycerides, did not appear to be responsible for the lowered desaturase activities of the tumor. Thus, it appears that reduced levels of the desaturases themselves may be responsible for the observed activities. These results indicate that the capacity of the hepatoma to biosynthesize polyunsaturated fatty acids is greatly reduced and this is consistent with the decreased polyene content observed in many neoplasms.     

The effect of soluble rat liver proteins on the activity of microsomal stearoyl-CoA and linoleoyl-CoA desaturase.

1. The influence of bovine serum albumin and soluble rat liver proteins on the activity of rat liver microsomal delta9 and delta6 desaturases has been studied. 2. In the absence of bovine serum albumin, the delta9 desaturase which converts stearoyl-CoA into oleoyl-CoA, shows a non-linear correlation between enzyme activity and protein concentration. 3. Optimum concentrations of bovine serum albumin have three main effects on the enzyme activity: (i) establishes a linear relationship between enzyme activity and protein concentration, (ii) stimulates the enzyme activity 2--3-fold and (iii) raises the optimum substrate concentration from 10 to 100 muM. 4. A highly purified soluble liver protein of molecular weight 24 000 also stimulated the enzyme activity and brought about a linear relationship between enzyme activity and protein concentration. 5. It was concluded that the non-linear kinetics were due to limiting amounts of substrate binding protein in the microsomal preparations. 6. The delta6 desaturase which converts linoleoyl-CoA into gamma-linolenoyl-CoA was also stimulated by bovine serum albumin and soluble liver proteins. 7. The significance of the fatty acid-binding proteins is discussed.     

Activity and mRNA abundance of Delta-5 and Delta-6 fatty acid desaturases in two human cell lines

We analyzed fatty acid biosynthesis in Chang and ZR-75-1 cells. Both cell lines could desaturate and further elongate substrates for Delta-5 desaturase. ZR-75-1 but not Chang cells showed Delta-6 desaturation of 18:2n-6, 18:3n-3, 24:4n-6 and 24:5n-3. In both cell lines, the mRNA abundance can be related to Delta-5 or Delta-6 fatty acid desaturase activities. These results suggest that desaturase genes could have, at least in part, independent control mechanisms and that Delta-6 desaturase impairment is not specific to any particular step of the fatty acid metabolic pathways, which may diminish the rationale for the existence of at least two distinct enzymes.     

Effect of clofibrate on fatty acid desaturation of rats treated with ethanol

The effect of clofibrate and ethanol in the rat was studied on the following aspects of lipid composition and metabolism: liver delta 5, delta 6 and delta 9 fatty acid desaturases, fatty acid synthetase and fatty acid desaturase microsomal electron transport chain activity and serum cholesterol, triacylglycerols and high (HDL), low (LDL) and very low density lipoprotein (VLDL) levels. Clofibrate administered for 9 days (0.3% W/W) did not modify the relative composition of liver phospholipids and cholesterol, but did diminish triacylglycerol levels increased by ethanol. This effect could be explained by the possible beta-adrenergic blocking properties of clofibrate or by an increased activity of peroxisomal beta-oxidation. Clofibrate also promoted a decrease in serum cholesterol and triacylglycerol levels, delta 6 desaturase activity and a suppression of the electron transport chain as measured by NADH cytochrome b5 reductase and NADH cytochrome c reductase. The drug increased delta 9 desaturase activity and fatty acid synthetase, while no effect could be found in delta 5 desaturase activity. The hypocholesterolenic effect of clofibrate can not be explained through the delta 6 desaturase inhibition, or the fatty acid synthetase enhancement. Ethanol increased the HDL and VLDL and lowered LDL serum concentrations, while clofibrate reversed these results. Considering that clofibrate could have antiatherosclerotic effect in the rat, it is difficult to explain it through these changes in lipoprotein levels, since according to Miller and Miller low HDL levels are predictive of coronary heart disease.     

少根根霉Δ^6-脂肪酸脱氢酶基因在毕赤酵母中的表达

Δ^6-脂肪酸脱氢酶是一种膜整合蛋白,也是多不饱和脂肪酸合成途径中的限速酶。在前期工作中,通过RT-PCR和RACE技术,从少根根霉NK300037中克隆到一个潜在编码Δ^6-脂肪酸脱氢酶的序列,序列和功能分析结果表明该序列具有一个长度为1377bp、编码由458个氨基酸组成、大小为52kD的新的Δ^6-肪酸脱氢酶基因。把少根根霉Δ^6-脂肪酸脱氢酶基因（RAD6）亚克隆到表达载体pPIC3．5K,构建重组表达载体pPICRAD6,并转化到毕赤酵母菌株GS115进行表达。提取酵母细胞总脂肪酸和进行甲酯化,经气相色谱和气相色谱-质谱连用分析表明,目的基因的编码产物能将C16：1、C17：1、C18：1、亚油酸和α-亚麻酸在△6和7位间特异性脱氢而引入一个新的双键,生成更高不饱和的脂肪酸,该催化反应没有链长特异性,只有键位特异性。此外,按Kozak序列特点,改变目的基因转译起始密码子周边序列结构,并把改变后序列导入毕赤酵母GS115中进行功能表达分析,结果表明在毕赤酵母中这种改变同样能提高目的基因的表达水平。综合所有分析结果表明,巴斯德毕赤酵母更适合用来综合分析Δ^6-脂肪酸脱氢酶基因的功能。     

Metabolism of gammalinolenic acid by human blood platelet microsomes

The microsomal fraction was used to test the ability of human platelets to metabolize gammalinolenic acid. The microsomal delta 6 and delta 5 fatty acid desaturase activities were measured and the incorporation of [14C]malonyl CoA into prostaglandins was also determined. The results indicate that human platelets have the capacity to elongate gammalinolenic acid (18:3 n-6) to dihomogammalinolenic acid (20:3 n-6) precursor of PGE1. Labeled PGE1 could be detected when human platelets microsomes were incubated with [14C]malonyl CoA in the presence of gammalinolenic acid. The results also show that human platelet microsomes have little delta 6 or delta 5 desaturase enzyme activity.     

Investigation of microsomal oxygenases of biosynthetic processes. Stearyl-CoA desaturase of adipose tissue and liver.

Porcine and rat microsomal stearyl-CoA desaturases require reduced pyridine nucleotide and oxygen, are cyanide sensitive, and are insensitive to carbon monoxide. The Km for stearyl-CoA is somewhat larger for liver than for the adipose desaturases, but, in general, assay conditions are quite similar. Adipose tissue microsomes contain cytochromes b5 and P-450, as well as the NADH- and NADPH-specific cytochrome reductases. Compared to liver, the specific contents and activities of electron carriers are much lower in adipose tissue, and activities of 4-methyl sterol oxidase of cholesterol biosynthesis, as well as the cytochrome P-450-dependent aminopyrene demethylase and benzypyrene hydroxylase, are negligible in adipose tissue microsomes. Furthermore, unlike hepatic desaturase, administration of insulin stimulates the adipose desaturase 3-fold without affecting either the amounts or activities of microsomal oxidation-reduction proteins; the changes in desaturase activities produced either by altering dietary fat or by fasting and/or fasting followed by refeeding are, in general, both more extensive and more permanent in adipose compared to liver microsomes. The effects produced by isotopic hydrogen substitution both in stearyl-CoA and in the medium (2H2O) are similar with microsomes from both tissues. The rate-determining step of desaturase appears to be similar in both tissues. The primary isotope effect, k H/Tr, observed with [9,10-3H2]stearyl-CoA is relatively small, 2.88. Since little, if any, primary isotope effect is associated with methyl sterol oxidase, these two mixed function oxidases of biosynthetic processes also appear to share this property in common.