The effect of ionizing radiation on lipid metabolism in lymphoid cells

Lipid metabolism was studied in lymphoid tissues of rats after whole body irradiation with doses producing damage of different degrees to lymphoid cells (4-10 Gy). The content of free cholesterol, cholesterol esters, and total phospholipids was determined in peripheral blood lymphocytes and thymocytes 1-2 h after exposure. Simultaneously, the rate of in vitro incorporation of 2 14C-acetate into total lipids, phospholipids, and cholesterol of lymphoid cells was estimated. It was shown that exposure of rats to ionizing radiation caused activation of lipogenesis. Cholesterol synthesis was activated after a dose of 4 Gy and decreased with increasing dose.     

Lipid biosynthesis and metabolism of native and acetylated low density lipoproteins in macrophages stimulated by zymosan in vivo and in vitro]

The effects of zymosan on lipid metabolism in mouse peritoneal macrophages (MPM) in vitro and in vivo were studied with special reference to the following parameters: i) 14C-oleate incorporation into cholesteryl esters (CE), triglycerides (TG), and phospholipids (PL) in MPM incubated with low density lipoproteins (LDL) and acetylated LDL; ii) cholesteryl-14C-oleate-acetyl LDL uptake and 125I-acetyl LDL degradation; iii) oxidative modification of LDL. Zymosan administered to mice caused significant stimulation of 14C-oleate incorporation into CE, TG, and PL with no effect on 3H-cholesterol (Ch) incorporation into CE or 3H-glycerol incorporation into TG and PL in MPM. The 14C-oleate incorporation into cellular lipids was unaffected by 18-hour incubation of MPM with zymosan (100-500 micrograms/ml) but increased after incubation of unstimulated MPM with blood serum and peritoneal fluid harvested harvested from zymosan-treated mice. One possible explanation of this phenomenon is oleyl-CoA formation induction in cytokine-stimulated MPM in vivo. Zymosan decreased the Ch-14C-oleate-acetyl LDL uptake, 125I-acetyl LDL degradation, and Ch esterification in the presence of acetyl LDL in MPM both in vitro and in vivo. An increase in Ch esterification after incubation of MPM with zymosan for 6-18 hours in the presence of LDL was accompanied by an increase in lipid peroxidation of LDL and its electrophoretic mobility. The data obtained suggest that the macrophage acetyl LDL receptor pathway may be inhibited by zymosan and that cytokines released from zymosan-stimulated cells may influence the generation of foam cells.     

Palmitoylcarnitine regulates estrification of lipids and promotes palmitoylation of GAP-43

Palmitoylcarnitine was previously shown to promote differentiation of neuroblastoma NB-2a cells. It was also observed to increase palmitoylation of several proteins and to diminish incorporation of palmitic acid to phospholipids, as well as to affect growth associated protein GAP-43 by decreasing its phosphorylation and interaction with protein kinase C. The present study was focused on influence of palmitoylcarnitine on palmitoylation of GAP-43 and lipid metabolism. Althought palmitoylcarnitine did not significantly affect the total phospholipids and fatty acid content, it increased incorporation of palmitate moiety to triacylglicerides and cholesterol esters, with a decrease of free cholesterol content. The presence of palmitoylcarnitine significantly increased the amount of covalently bound palmitate to GAP-43, which can regulate the signal transduction pathways.     

Incorporation of 2-14C-acetate into isolated nuclei and cytosolic lipids of rat thymus cells

It is generally recognized nowadays that active lipid metabolism takes place in the nucleus of a mammalian cell. Experimental data testify to the biosynthesis of polyphosphoinositides and phosphatidylcholine and reveal corresponding enzymes within nuclei of mammalian cells. These findings suggest that lipidmediated signaling pathways in nuclei operate independently of lipid-mediated regulatory mechanisms functioning in membranes and cytosol. To explore the pathways of intranuclear lipid biosynthesis, we studied incorporation of 2-¹⁴C-acetate into lipids of cytosol and isolated nuclei of rat thymus cells after separate and combined incubation with the labeled precursor. The most efficient incorporation of 2-¹⁴C-acetate into lipids (cholesterol, free fatty acids, and phospholipids) was observed in a reaction mixture containing cytosol. When the reaction mixture contained only nuclei, incorporation of the radioactive precursor into lipids also took place, but specific radioactivity of the lipids was essentially lower than in the cytosol. In both cases, 2-¹⁴C-acetate incorporated into phosphatidylethanolamine, sphingomyelin, phosphatidylserine, phosphatidylinositol, and cardiolipin. Phosphatidylcholine, the most abundant membrane phospholipid, demonstrated the lowest radioactivity, which was significantly lower than that of phosphatidylethanolamine. Incorporation of newly synthesized free fatty acids in nuclear phospholipids was inhibited, if nuclei were incubated with cytosol. As a result, radioactive free fatty acids were accumulated in nuclei, while in cytosol they were efficiently incorporated into phospholipids. The levels of phospholipids and cholesterol remained constant regardless of incubation protocol, while the overall yield of free fatty acids decreased after combined incubation of nuclear and cytosolic fractions or after incubation of cytosol without nuclei. Putative mechanisms underlying the appearance of radioactive lipids in isolated nuclei of thymus cells are discussed.     

Growth inhibiting effect of glucocorticoids and progestins on tumor cells in vitro: effect on the rate of phospholipid reversal

The growth-inhibiting effect of dexamethasone was estimated by the ability of the hormone to inhibit the proliferative activity of in vitro cultured hepatoma 22 cells. The effect of another steroid proliferation inhibitor, progesterone, was studied in primary cell cultures of human uterine carcinoma. The cytostatic effect of dexamethasone was observed only in slowly proliferating cells and was rapidly reversed by stimulation of cell division with fresh sera. Dexamethasone did not induce any conspicuous changes in the rate of 32P incorporation into hepatoma phospholipids. In 9 out of 14 human uterine carcinomas progesterone inhibited, whereas 17 beta-estradiol stimulated the 32P incorporation into phospholipids (phosphatidylinositol and phosphatidylcholine); this effect was manifested already after 15-min incubation of cells with the hormone. The resistance of uterine carcinoma cells to steroids was paralleled, as a rule, with the increase in the basal level of 32P incorporation into the phospholipids typical of actively proliferating cells. It was assumed that the inhibition of phospholipid exchange rate is related to the earliest manifestations of the growth-inhibiting effect of steroid hormones, at least progestins. In its turn, stimulation of the proliferative activity of cells may relieve this effect of steroids, eventually resulting in a temporary decrease of the cell sensitivity to hormones.     

Sterol metabolism and oral epithelial cell growth

Summary Previous studies have demonstrated that as the density of cultured oral epithelial cells increases, there is a concomitant increase in phospholipids and cholesterol ester synthesis and a decrease in that of cholesterol and sterol precursors. Other studies have suggested that the effects of exogenous cholesterol sulfate may be similar to growth responses and influence metabolic steps related to cell density. To further examine this possibility, in the present study lipid synthesis was monitored in hamster cheek pouch epithelial cells in cultures established at different cells densities and in the presence of varying amounts of exogenous cholesterol sulfate. Cell [¹⁴C]acetate incorporation into lipids was measured in cultures established at four densities ranging from very subconfluent to very dense (postconfluent) in two media, Dulbecco’s modified Eagle’s medium (DMEM) with 5% fetal bovine serum and KSFM, a non-serum containing keratinocyte medium. Results indicated that the relative proportion of radiolabel incorporated into different lipid classes changed with cell density. In DMEM, the percentage of radiolabel incorporated into total phospholipids and fatty acids increased significantly with increasing cell density whereas percent incorporation into cholesterol, sterol precursors, and cholesterol esters significantly decreased. In KSFM cultures, proportionate phospholipids labeling was significantly increased in more dense cultures whereas cholesterol and cholesterol esters labeling was significantly decreased. In subconfluent and confluent cultures exposed to 10 or 25μM cholesterol sulfate, the relative proportions of phospholipid labeling also increased significantly compared to dimethyl sulfoxide (solvent) controls, whereas sterol precursors, fatty acids, and cholesterol esters labeling was signifcantly decreased. These results indicate that cholesterol sulfate can affect cellular lipid synthesis in a manner similar to that which occurs with increasing cell density, and strengthen the hypothesis that cholesterol sulfate may regulate lipid metabolic pathways related to growth and differentiation.     

Corticosteroid effect on Caco-2 cell lipids depends on cell differentiation

Previous studies from our laboratory have indicated that secondary hyperaldosteronism affects phospholipids of rat colonic enterocytes. To assess whether this represents a direct effect of mineralocorticoids on enterocytes, the role of aldosterone and dexamethasone in the regulation of lipid metabolism was examined in Caco-2 cells during development of their enterocyte phenotype. Differentiation of Caco-2 cells was associated with increased levels of triglycerides (TG) and cholesteryl esters (CE), a decreased content of cholesterol and phospholipids and changes in individual phospholipid classes. The phospholipids of differentiated cells had a higher content of n-6 polyunsaturated fatty acids (PUFA) and lower amounts of monounsaturated (MUFA) and saturated fatty acids than subconfluent undifferentiated cells. Differentiated cells exhibited a higher ability to incorporate [3H]arachidonic acid (AA) into cellular phospholipids and a lower ability for incorporation into TG and CE. Incubation of subconfluent undifferentiated cells with aldosterone or dexamethasone was without effect on the content of lipids, their fatty acids and [3H]AA incorporation. In contrast, aldosterone treatment of differentiated cells diminished the content of TG, increased the content of phospholipids and modulated their fatty acid composition. The percentage of n-6 and n-3 PUFA in phospholipids was increased and that of MUFA decreased, whereas no changes in TG were observed. The incorporation of [3H]AA into phospholipids was increased and into TG decreased and these changes were blocked by spironolactone. Treatment of differentiated cells with dexamethasone increased their CE content but no effect was identified upon other lipids, their fatty acid composition and on the incorporation of [3H]AA. As expected for the involvement of corticosteroid hormones the mineralocorticoid and glucocorticoid receptors were identified in Caco-2 cells by RT-PCR. The results suggest that aldosterone had a profound influence on lipid metabolism in enterocytes and that its effect depends on the stage of differentiation. The aldosterone-dependent changes occurring in phospholipids and their fatty acid composition may reflect a physiologically important phenomenon with long-term consequences for membrane structure and function.     

Localization of acyl-coenzyme A: cholesterol acyltransferase in villus and crypt cells of chick intestine

Endogenous cholesterol esterification by acyl-CoA:cholesterol acyltransferase (EC 2.3.1.26) was studied in isolated enterocytes obtained from chick duodenal, jejunal, and ileal villi and crypts, using [14C]oleoyl-CoA as substrate. The maximal specific activity in each cell fraction was found in chick jejunum, followed by duodenum and ileum. Jejunal upper and mid villi showed higher specific activities than lower villi and crypts. Epithelial cells isolated from chick intestine also incorporated oleoyl-CoA into different lipids using the endogenous substrates. Upper and mid villus cells showed the maximal incorporation of oleoyl-CoA into triglycerides in duodenum and jejunum. Levels of oleoyl-CoA incorporation into phospholipids were higher than those found in the synthesis of triglycerides or cholesterol esters, whatever may be the cell fraction considered. Upper villus cells also showed the highest specific activity in the incorporation of oleoyl-CoA into phospholipids. The acyl-CoA hydrolase specific activity was practically similar in all the cell fractions obtained from chick duodenum, jejunum, and ileum.     

Receptor-mediated gonadotropin action in the ovary. Demonstration of acute dependence of rat luteal cells on exogenously supplied steroid precursor (sterols) for gonadotropin-induced steroidogenesis

Incubation of luteal cells with human, horse and rat sera, but not bovine sera resulted in enhanced basal and hCG-stimulated progesterone accumulation. The stimulatory effect of human or rat sera on basal, hCG- or 8 Br-cyclic AMP-induced progesterone synthesis in luteal cells was evident within 15-30 min after incubation, reaching a maximum after 3-4 h. The stimulatory effects of hCG and/or sera were blocked by inhibitors of RNA and protein synthesis. Similarly, lysosomotropic agents, chloroquine (100 microM) and ammonium chloride (10 mM), partly blocked the steroidogenic response of luteal cells to hCG and/or human or rat sera. Incubation of cells in the presence of 2-deoxyglucose, sodium azide and phenylmethylsulfonyl fluoride resulted in partial inhibition of progesterone secretion in response to hCG or sera. Fractionation of human or rat sera into various lipoprotein fractions demonstrated that LDL and HDL most effectively supported and potentiated the steroidogenic response to hCG. Lipoprotein-deficient serum, however, did not alter gonadotropin-induced steroid production. Incubation of luteal cells with increasing concentrations of h-LDL and h-HDL enhanced both basal and hCG-mediated steroidogenesis in a dose-related manner, although very high concentrations of these lipoproteins were inhibitory. Further, [3H]cholesterol from [3H]cholesteryl linoleate-LDL was incorporated into luteal cell progesterone and the extent of this incorporation was enhanced by hCG. Addition of excess unlabeled h-LDL, h-HDL, as well as r-HDL, drastically reduced the incorporation of radioactive label into progesterone. These studies suggest that (a) serum potentiation of steroidogenesis was due to presence of lipoproteins, mainly LDL and HDL, and (b) the lipoprotein-bound cholesterol is delivered into the luteal cells and utilized for steroidogenesis.     

Composition and metabolism of phospholipids of human leukocytes

Human mononuclear (MN) and polymorphonuclear (PMN) leukocytes were analyzed for their phospholipid, triglyceride, cholesterol and fatty acid content. The phospholipid/cholesterol ratio was 1.24 for both cels. MN cells contain more phosphatidylcholine (PC), but less phosphatidylserine (PS), phosphatidylethanolamine (PE) and sphingomyelin (SPH) than PMN cells when expressed as percent of total phospholipid. When expressed on the basis of lipid content per cell, MN cells contain less PS, PE and SPH but more triglyceride than PMN cells. PMN cells incorporate palmitic, stearic, linoleic and linolenic acids into their phospholipids, triglycerides or cholesterol esters. The incorporation into triglycerides was highest for all fatty acids. Of the phospholipids, the incorporation was highest into PC. Labeled fatty acids also were found in proteins which had been delipidized by exhaustive extraction with organic solvents. These represent tightly or covalently bound fatty acids. The incorporation of [³H]palmitic acid into this protein fraction is stimulated by insulin.     

Overexpression of rat long chain acyl-coa synthetase 1 alters fatty acid metabolism in rat primary hepatocytes

Long chain acyl-CoA synthetases (ACSL) activate fatty acids (FA) and provide substrates for both anabolic and catabolic pathways. We have hypothesized that each of the five ACSL isoforms partitions FA toward specific downstream pathways. Acsl1 mRNA is increased in cells under both lipogenic and oxidative conditions. To elucidate the role of ACSL1 in hepatic lipid metabolism, we overexpressed an Acsl1 adenovirus construct (Ad-Acsl1) in rat primary hepatocytes. Ad-ACSL1, located on the endoplasmic reticulum but not on mitochondria or plasma membrane, increased ACS specific activity 3.7-fold. With 100 or 750 mum [1-(14)C]oleate, Ad-Acsl1 increased oleate incorporation into diacylglycerol and phospholipids, particularly phosphatidylethanolamine and phosphatidylinositol, and decreased incorporation into cholesterol esters and secreted triacylglycerol. Ad-Acsl1 did not alter oleate incorporation into triacylglycerol, beta-oxidation products, or total amount of FA metabolized. In pulse-chase experiments to examine the effects of Ad-Acsl1 on lipid turnover, more labeled triacylglycerol and phospholipid, but less labeled diacylglycerol, remained in Ad-Acsl1 cells, suggesting that ACSL1 increased reacylation of hydrolyzed oleate derived from triacylglycerol and diacylglycerol. In addition, less hydrolyzed oleate was used for cholesterol ester synthesis and beta-oxidation. The increase in [1,2,3-(3)H]glycerol incorporation into diacylglycerol and phospholipid was similar to the increase with [(14)C]oleate labeling suggesting that ACSL1 increased de novo synthesis. Labeling Ad-Acsl1 cells with [(14)C]acetate increased triacylglycerol synthesis but did not channel endogenous FA away from cholesterol ester synthesis. Thus, consistent with the hypothesis that individual ACSLs partition FA, Ad-Acsl1 increased FA reacylation and channeled FA toward diacylglycerol and phospholipid synthesis and away from cholesterol ester synthesis.     

The effects of low-density lipoprotein and cholesterol on acyl-coenzyme A: cholesterol acyltransferase activity in membranes from cultured human fibroblasts.

Membranes prepared from cultured fibroblasts were assayed for acyl-coenzyme A: cholesterol acyltransferase (ACAT) by a method that relied exclusively on the cholesterol already present on the membranes as the sterol substrate. Changes in membrane ACAT activity during incubation of fibroblasts under a variety of conditions were similar to the changes in the rate of incorporation of oleic acid into cholesteryl esters by the intact cells. The addition of low-density lipoprotein (LDL) to fibroblasts pre-incubated with lipoprotein-deficient serum led to a transient increase in membrane ACAT activity, which reached its peak after 7h and was related to the receptor-mediated uptake and degradation of the lipoprotein by the cells. However, after incubation of the membranes with a cholesterol-rich donor lipoprotein, which resulted in an equilibration of cholesterol between membranes and donor, each preparation exhibited the same activity. In contrast with these effects of LDL, incubation of the cells with non-esterified cholesterol produced a prolonged increase in ACAT activity and an increase in the activity observed after equilibration. Furthermore, ACAT activity in cells grown with linoleic acid was higher, both before and after the addition of LDL, than that of cells grown in normal medium or with palmitate. The increase in activity produced by LDL was also greater, reflecting the greater rate of degradation of LDL by the cells, and was associated with an increase in the activity observed after equilibration with donor. The results suggest that although fibroblasts can increase the amount of active enzyme on their membranes to accommodate an exceptionally high or prolonged supply of cholesterol, under normal circumstances the increase in membrane ACAT activity produced by LDL can be explained entirely by an increase in the amount of cholesterol in the substrate pool.     

Cholesterol arachidonate as a prostaglandin precursor in adrenocortical cells

Rat adrenocortical cells were incubated with labeled arachidonate, and the radioactivity in unesterified fatty acids was reduced by washing with 2% albumin solutions. These cells were then incubated for two hours in the absence and presence of 7.1 × 10⁻¹⁰M ACTH. During subsequent incubation of prelabeled cells with ACTH, both the mass and radioactivity of arachidonate in adrenocortical cholesteryl esters was depleted to the same extent (30–32%). The released arachidonate was in part incorporated into phospholipids, and there was also a significant increase in unesterified arachidonic acid. During this period, there was also increased incorporation of arachidonate into labeled prostaglandins. Of this increase, 92% by isotope analysis, and 88% by radioimmunoassay techniques was attributable to prostaglandins of the E pathway. These data demonstrate that prostaglandin E synthesis is specifically increased during ACTH stimulation of rat adrenocortical cells and suggest that a major source of the arachidonate substrate for this synthesis is derived from hormone-dependent hydrolysis of cortical cholesteryl esters.     

Role of rat thymus chromatin lipids in response to the harmful effect of gamma-radiation

In vitro incubation of thymocytes with [2-14C]acetate results in a more intensive label incorporation into chromatin lipids as compared to nuclear lipids. The deleterious effect of gamma-irradiation leads to specific changes in [2-14C]acetate incorporation into the total fraction of phosphatidylcholine-phosphatidylserine and chromatin sphingomyelin. This is paralleled with an increase in the ratio of specific radioactivities of chromatin cardiolipin and nuclear cardiolipin. The changes in specific radioactivities of sphingomyelin, phosphatidylcholine-phosphatidylserine and cardiolipin suggest a role of phospholipids in the mechanisms of regulating the activity of intranuclear structures.     

CHANGES IN CEREBRAL CORTICAL LIPIDS IN COBALT-INDUCED EPILEPSY

Abstract– In control rats and in rats rendered epileptic by insertion of cobalt slivers into the cerebral cortex, total free fatty acids, free cholesterol, esterified cholesterol, triglycerides and phospholipids were measured in normal and lesion areas of cerebral cortex. The cortical lipid profile of the adult rat resembled that of the whole brain of very young rats rather than that of adult whole brain, with the principal differences from whole adult brain being lower total lipid content, increased proportions of phosphatidyl choline in the phospholipid fraction, and higher levels of cholesterol esters. Cobalt-induced epilepsy was associated with significant changes in cerebral cortical lipids in the area of the lesion and in the non-necrotic tissue adjacent to the lesion. The total lipid in the area of the lesion decreased sharply as a result of reductions in free cholesterol and total phospholipids. The levels of cholesterol esters and triglycerides increased in the area of the lesion, and cholesterol esters were also increased in the adjacent tissue. In addition there were decreases in the proportion of phosphatidyl ethanolamine in the phospholipids from the lesion site and adjacent tissue and decreases in the proportions of oleic, arachidonic and nervonic acids (unsaturated acids), and an increase in the proportions of lignoceric acid in the phospholipids. In the site of the lesion only, we observed a decrease in phospholipid palmitic acid and an appreciable increase in the proportions of an unidentified long-chained fatty acid.     

Morphology and histochemistry of ovarian changes in the field rat, Millardia meltada

A study has been made of the morphological and histochemical changes of the ovary of the field rat, Millardia meltada during its oestrous cycle and pregnancy. The follicular growth and atresia, ovulation and formation of corpora lutea occur throughout the year except severe winter months (December and January). Fluctuations in the follicular development occur on different days of the oestrous cycle and pregnancy. The granulosa cells show a progressive increase in their size in successive stages of follicle growth. The granulosae of normal follicles show some sparsely scattered lipid bodies which consist of phospholipids. Theca interna cells during follicular growth develop diffuse lipoproteins and lipid droplets consisting of triglycerides, phospholipids and cholesterol and/or its esters. The luteal cells of corpora lutea are formed by the granulosa cells as the theca interna cells degenerate and disappear. The fibroblast-like cells of thecal origin, alongwith the blood vessels, invade the luteal cell mass. The luteal cells during metoestrus, dioestrus and first half of pregnancy show abundant diffuse lipoproteins and a few lipid droplets composed mainly of phospholipids and some triglycerides, which are indicative of active steroidogenesis. The details of degenerative histological and histochemical alterations of corpora lutea during oestrous cycle and pregnancy are also described and discussed. Morphological and histochemical changes of follicular atresia are described. The granulosa cells of atretic follicle degenerate and disappear leaving behind theca interna cells which form patches of interstitial gland cells during the reproductive activity of the present rat. Interstitial gland cells show diffusely distributed sudanophilic lipoproteins and lipid droplets consisting of triglycerides, cholesterol and/or its esters and some phospholipids, which are indicative of steroidogenesis. The functional significance of histological and histochemical changes, which occur in various components of the ovary during oestrous cycle and pregnancy, has been discussed.     

Cholesterol content and sterol synthesis in human skin fibroblasts and rat aortic smooth muscle cells exposed to lipoprotein-depleted serum and high density apolipoprotein/phospholipid mixtures.

Confluent cultures of human skin fibroblasts and rat aortic smooth muscle cells were shown to lose 15-27% of their cellular cholesterol upon replacement of the fetal calf serum with human high density lipoprotein (50 mug cholesterol/ml) or lipoprotein-depleted serum at a concentration equivalent to 40% whole serum. Addition to the latter medium of high density apoliproprotein/phospholipid mixtures resulted in further enhancement of cellular cholesterol loss which was evident by 12 h of incubation. Human skin fibroblasts that had been enriched in cholesterol by previous incubation with low density lipoprotein lost their cholesterol in the presence of a high density apolipoprotein/sphingomyelin mixture as readily as non-enriched cells. Concomitant with the marked cholesterol depletion there was a stimulation of sterol synthesis from acetate. The more pronounced loss of cellular cholesterol induced by the presence of phosphatidylcholine or sphingomyelin resulted in a greater incorporation of acetate into sterol in both smooth muscle cells and skin fibroblasts. The present findings indicate that peripheral cells, in spite of their capacity to synthesize cholesterol, depend on exogenous cholesterol for the maintenance of normal levels. It is suggested that the native cholesterol "acceptor" in the lipoprotein-depleted serum is an apolipoprotein which under the experimental conditions can form a complex with phospholipids and might also represent the physiological cholesterol "acceptor" in peripheral lymph.     

Synergistic enhancement of histamine release from rat peritoneal mast cells by the phorbol ester 12-O-tetradecanoylphorbol 13-acetate is not reflected by corresponding changes in phospholipid turnover

In an attempt to elucidate further the relationship between changes in phospholipid metabolism in, and histamine secretion from, purified rat peritoneal mast cells, the effects of the phorbol diester 12-O-tetradecanoylphorbol 13-acetate (TPA) on these responses in stimulated and unstimulated cells was investigated. TPA caused a dose-dependent increase in the incorporation of 32PO4(3-) into the mast cell phospholipids; phosphatidic acid (PA) and phosphatidylcholine (PC), but not phosphatidylinositol (PI). TPA synergistically enhanced histamine release from cells stimulated by anti-immunoglobulin E (IgE) and the calcium ionophore A23187, reducing its ED50 from 150 nM to 40 nM, but did not alter histamine release from cells stimulated by compound 48/80. The effect of TPA on the changes in 32PO4(3-) incorporation into phospholipids associated with the above secretagogues did not, however, correlate well with the observed effects on histamine secretion induced by the same secretagogues. These observations are discussed in relation to the known effects of phorbol esters upon both secretory processes and phospholipid metabolism in other tissues.     

The role of ubiquinones in regulating lipid metabolism in rat thymocytes

The effects of ubiquinones Q-1, Q-2, Q-8 and Q-9 on lipid biosynthesis in thymocytes in vitro were studied during incubation of cells with ubiquinones within the concentration range of 1-100 mM. A 2-fold inhibition of cholesterol synthesis in thymocytes by ubiquinone Q-9 occurred, when the exogenous ubiquinone concentration in the medium was no less than 40 mM. Incubation of thymocytes with unrelated ubiquinone (Q-1 and Q-2-40 and 100 mM, respectively) resulted in the inhibition of cholesterol synthesis. The inhibiting effect was of the same order of magnitude as that during incubation with ubiquinone Q-9. Ubiquinone Q-8 showed a tendency to inhibit cholesterol synthesis in rat thymocytes. The inhibiting effect of ubiquinone on cholesterol metabolism in thymocytes is specific and is not coupled with fatty acid metabolism.     

Ethynylestradiol alters lipid composition and phosphatidylethanolamine metabolism in red blood cells

Treatment of female rats with ethinylestradiol at a dose of 60 micrograms/rat, daily for 21 days, produced marked changes in red blood cell lipids. Cholesterol was decreased by 22% and total phospholipids were increased by 13%, resulting in a 31% decrease in the cholesterol to phospholipid ratio. The mass distribution of phosphatidylcholine and phosphatidylethanolamine relative to total phospholipids was unchanged. Whereas control red cells incorporated preferentially fatty acids in phosphatidylcholine, ethinylestradiol stimulated their incorporation specifically in phosphatidylethanolamine, where increases occurred with palmitic acid (+75%), oleic acid (+68%) and arachidonic acid (+31%). Incorporation in phosphatidylcholine was unaffected with any of the 3 fatty acids. The stimulation of fatty acid incorporation in phosphatidylethanolamine is likely to reflect an estrogen-dependent increase in turnover rate of fatty acids in this phospholipid. Such alterations in lipid composition and fatty acid incorporation in red cell phospholipids may have significant effects on membrane function.