Effects of inadequate vitamin E and/or selenium nutrition on the release of arachidonic acid metabolites in rat alveolar macrophages

Effects of vitamin E and/or selenium (Se) deficiency on the secretion of arachidonic acid metabolites by zymosan-stimulated pulmonary alveolar macrophages (AM) were examined using cells from male Long-Evans hooded rats fed torula-yeast based diets with or without the supplementation of vitamin E (150 IU/kg) or Se (0.5 mg/kg). Alveolar macrophages obtained by lavage were purified by adherence and cultured for 4 h in Hank's balanced salt solution containing bovine serum albumin (0.1%) and zymosan (300 micrograms/ml). The arachidonic acid metabolites present in the culture supernatant were measured by radioimmunoassay. Altered vitamin E and Se nutrition had no effect on the number of cells or cell types recovered from the pulmonary airways. Alveolar macrophages derived from animals fed on diets deficient in vitamin E or Se or both nutrients secreted higher levels of prostaglandin E2 and thromboxane B2. Levels of both 5-hydroxyeicosatetraenoic acid and leukotriene B4 were significantly increased only in the group fed the diet adequate in Se but deficient in vitamin E. Our data suggest that vitamin E and Se might play an important role to control the levels of several physiologically and pathologically important arachidonic acid metabolites.     

Age-dependent change in arachidonic acid metabolic capacity in rat alveolar macrophages

Arachidonic acid (AA) metabolism was assessed in cultured alveolar macrophages (AM) obtained from newborn (10 days old) and adult (2 months and 4 months old) rats. The AMs were stimulated with the calcium ionophore, A23187 (10 microM). The released radiolabelled AA metabolites were measured by thin layer chromatography. The results showed that among different aged rats, the synthesis of 5-lipoxygenase (5-LO) metabolites, LTB4, LTC4, LTD4 and 5-HETE were increased with age inspite of similar levels of [14C]AA release. In response to A23187, 5-LO metabolic capacity of 2 and 4 months old adult rat AMs were increased 21-fold and 34-fold, respectively, compared with 10 days old rat AMs. As the metabolic capacity increased, the release of prostaglandins and thromboxane B2 tended to decrease markedly. Newborn rats (10 days old) AM, at the initial developmental stage, did not produce a noticeable amount of 5-LO metabolites which, conceivably, contribute to high susceptibility of neonatal lung to infection.     

Effect of toxins on arachidonic acid metabolism in rat cultured pulmonary alveolar macrophages

The action of a trichothecene (T-2), microcystin-LR and saxitoxin on arachidonic acid metabolism in cultured rat alveolar macrophages was studied. Pulmonary macrophages exposed to T-2 trichothecene were stimulated to synthesize and release large amount of thromboxane B2 (TxB2) and 6-Keto F1 alpha. Microcystin-LR induced significant release of prostaglandins F2 alpha (140%), PGE2 (175%) and TxB2 (169%) compared to controls. Saxitoxin induced TxB2 release by 37%. Arachidonic acid release was stimulated by all three toxins. The release of arachidonic acid and its metabolites in alveolar macrophages exposed to T-2 toxin was partially blocked by fluocinolone (1 microM). These results suggest that macrophages synthesize and release inflammatory mediators in response to toxin exposure, and fluocinolone may protect against T-2 toxicosis.     

Kinetics of uptake and distribution of arachidonic acid by rat alveolar macrophages

The time course of uptake and distribution of ³H-arachidoni acid (³H-AA) into rat alveolar macrophage phospholipid pools was examined. Macrophages incubated with exogenous ³H-AA in RPMI-1640 containing 0.1% bovine serum albumin (BSA), incorporated this radiolabel into phosphatidylcholine and phosphatidylinositol (PI) with plateau reached within 2 to 4 hours, which remained relatively constant for up to 18 hours. Incorporation of ³H-AA into phospholipid pools revealed that treatment with exogenous 5 nM arachidonic acid had no effect upon pool sizes, but there was a selective incorporation if ³H-AA into PI. Cells were incubated with ³H-AA in RPMI alone or medium containing either 0.2% lactalbumin, fetal calf serum at variable concentrations, 10% Nu, Serum, or 0.1% BSA. Incubation of macrophages with ³H-AA in RPMI alone or containing 0.2% lactalbumin, resulted in approximately 70% of the radiolabel taken up by the cells being incorporated into triglyceride. The addition of BSA to RPMI-1640 medium was found to facilitate selective uptake of ³H-AA into phospholipids. Approximately 70% of incorporated ³H-AA was releseable through the action of exogenous phospholipase A₂.     

Kinetics of uptake and distribution of arachidonic acid by rat alveolar macrophages

The time course of uptake and distribution of 3H-arachidonic acid (3H-AA) into rat alveolar macrophage phospholipid pools was examined. Macrophages incubated with exogenous 3H-AA in RPMI-1640 containing 0.1% bovine serum albumin (BSA), incorporated this radiolabel into phosphatidylcholine and phosphatidylinositol (PI) with plateaus reached within 2 to 4 hours, which remained relatively constant for up to 18 hours. Incorporation of 3H-AA into phosphatidylethanolamine was small, but continued to increase for 14 hours. Analysis of phosphate content in phospholipid pools revealed that treatment with exogenous 5 nM arachidonic acid had no effect upon pool sizes, but there was a selective incorporation of 3H-AA into PI. Cells were incubated with 3H-AA in RPMI alone or medium containing either 0.2% lactalbumin, fetal calf serum at variable concentrations, 10% Nu Serum, or 0.1% BSA. Incubation of macrophages with 3H-AA in RPMI alone or containing 0.2% lactalbumin, resulted in approximately 70% of the radiolabel taken up by the cells being incorporated into triglyceride. The addition of BSA to RPMI-1640 medium was found to facilitate selective uptake of 3H-AA into phospholipids. Approximately 70% of incorporated 3H-AA was releasable through the action of exogenous phospholipase A2.     

Eicosapentaenoic acid modulates arachidonic acid metabolism in rat alveolar macrophages activated by silica.

Eicosapentaenoic acid (EPA) was used to modulate the activation of alveolar macrophages, to examine its potential anti-inflammatory effect in addition to its anti-arteriosclerotic or anti-thrombotic effects. Wistar strain rat alveolar macrophages (2 x 10(6) cell) obtained by bronchoalveolar lavage were preincubated with EPA (0-20 microM), and further incubated with 1 mg of silica for 90 min. Leukotriene (LT) B4 and LTB5 of the supernatant were analyzed by reverse phase HPLC. EPA inhibited the production of LTB4 dose-dependently. The production of LTB5, a metabolite from EPA, was increased at low concentrations of EPA (0-10 microM) and decreased at high concentrations (>10 microM). These results suggest that EPA is competitive with arachidonic acid (AA) at low concentrations, and that EPA may inhibit AA metabolism via inhibition of 5-lipoxygenase or phospholipase A2 at high concentrations.     

Effects of vitamin E and selenium deficiency on the fatty acid composition of rat retinal tissues

The fatty acid composition of retinal tissues was measured in rats maintained for 26–32 weeks on each of the following diets: a purified basal diet deficient in α-tocopherol and selenium, an identical control diet supplemented with α-tocopherol and selenium, and a commercial laboratory rat chow. Dietary deficiencies of antioxidant nutrients were found to cause a large decrease in total polyunsaturated fatty acids in the retinal pigment epithelium, a small decrease in the retinal rod outer segments, but no change in the whole retina or liver when compared to tissues from animals fed the vitamin E- and selenium-supplemented control diet. The polyunsaturated fatty acid content which we have observed for the retinal pigment epithelium from rats fed commercial lab chow is similar to that which we observed for bovine retinal pigment epithelium.Our results indicate that changes in fatty acid composition are not generalized to all tissues in severely antioxidant-deficient animals, but that changes do occur in some tissues, such as the retinal pigment epithelium, which appears to be particularly sensitive to in vivo lipid peroxidation.     

Inhibitory effect of vitamin E on proinflammatory cytokines-and endotoxin-induced nitric oxide release in alveolar macrophages

Nitric oxide is thought to be an important modulator of various functions in normal and inflamed airways. In the present study, we evaluated the effects of high vitamin E (250 mg and 1250 mg alpha-tocopheryl acetate (TA)/kg diet/10 days) on nitric oxide (NO(.)) release by alveolar macrophages (AMs) in response to lipopolysaccharide (LPS), interleukin-1beta (IL-1beta) and tumor necrosis factor (TNF-alpha). LPS and IL-1beta treatment (1-10 microg/ml) enhanced NO(.) release in AMs from control animals fed on 50 mg vitamin E/kg diet in a concentration dependent manner. However, this enhancement of NO(.) was attenuated in the AMs of animals fed with 250 mg or 1250 mg vitamin E/kg diet. TNF-alpha had no effect in eliciting the release of NO(.) in AMs obtained either from control or from hyper vitamin E fed animals. Further, LPS (1-10 microg/ml) enhanced the inducible nitric oxide synthase (iNOS) activity of AMs of control group and TA-fed animals almost to equal extent. Similarly, LPS-induced formation of N-nitrosamine (N-nitroso-L-[(14)C]-proline) in AMs of control and TA-supplemented animals were not different statistically. On the other hand, in vitro addition of vitamin E (200 microM) in AMs of control animals, when triggered with 10 microg LPS/ml, caused a significant decrease in N-nitroso-L-[(14)C]-proline formation. It seems that high doses of TA in diet may play a role in reducing the lipopolysaccharide and proinflammatory cytokines-induced NO(.)-mediated damage by AMs.     

Effects of vitamin E and selenium deficiency on the fatty acid composition of rat retinal tissues.

The fatty acid composition of retinal tissues was measured in rats maintained for 26--32 weeks on each of the following diets: a purified basal diet deficient in alpha-tocopherol and selenium, an identical control diet supplemented with alpha-tocopherol and selenium, and a commerical laboratory rat chow. Dietary deficiencies of antioxidant nutrients were found to cause a large decrease in total polyunsaturated fatty acids in the retinal pigment epithelium, a small decrease in the retinal rod outer segments, but no change in the whole retina or liver when compared to tissues from animals fed the vitamin E- and selenium-supplemented control diet. The polyunsaturated fatty acid content which we have observed for the retinal pigment epithelium from rats fed commerical lab chow is similar to that which we observed for bovine retinal pigment epithelium. Our results indicate that changes in fatty acid composition are not generalized to all tissues in severely antioxidant-deficient animals, but that changes do occur in some tissues, such as the retinal pigment epithelium, which appears to be particularly sensitive to in vivo lipid peroxidation.     

Effects of newly arachidonic acid metabolites on microsomal Ca binding, uptake and release

The 5,6- 8,9-; 11,12- and 14,15-epoxyeicosatrienoic acids and their respective hydration products, the vic-doisl, recently reported as metabolites of arachidonic acid in rat liver microsomes, were examined for effect on release of 45Ca from canine aortic smooth muscle miscrosomes. At 10⁻⁶ M, the diols had no effect, but the 5,6-; 11,12- and 14,15-epoxyacids increased the loss of ⁴⁵Ca. Further studies with the 14,15-epoxyacid demonstrated a dose-dependent decrease of Ca⁺⁺ uptake (ATP present) in canine aortic microsomes in 0.03 mM Ca⁺⁺, whereass Ca⁺⁺ binding (ATP absent) was not affected. Ca⁺⁺ uptake, binding and release in rat liver microsomes was similarly affected by the 14,15-epoxyacid, the major epoxyeicosatrienoic acid derivative produced by rat liver miscrosomal incubations. It is suggested that a alterations in Ca⁺⁺ metabolism might be a possible mechanism of actions for these derivatives of arachidonic acid.     

Effect of vitamin E enrichment on arachidonic acid release and cellular phospholipids in cultured human endothelial cells

The effect of (R,R,R)-alpha-tocopherol on agonist-stimulated arachidonate release and cellular lipids was investigated in cultured human umbilical cord endothelial cells. Endothelial cells in culture incorporate added tocopherol in a dose-dependent manner at both physiological (23.2 microM) or pharmacological (92.8 microM) concentrations which were well tolerated by the cells, as judged by unaltered cell number and viability. Two experiments were conducted in which cells were either incubated with (R,R,R)-alpha-tocopherol followed by labelling with [1-14C]arachidonic acid or they were labelled with arachidonate followed by incubation with tocopherol. Irrespective of the sequence of incubation with arachidonate and tocopherol, (R,R,R)-alpha-tocopherol-enriched cells released significantly more labelled arachidonate when stimulated with thrombin (2.5 U/ml) or ionophore A23187 (1 microM) for 10 min. The magnitude of [1-14C]arachidonate release was higher from ionophore A23187 stimulation than from thrombin stimulation, but the trend of increased arachidonate release in tocopherol-enriched cells was the same. Results from these studies demonstrate that (R,R,R)-alpha-tocopherol can stimulate arachidonate release in human endothelial cells. This observation is in direct contrast to the role of tocopherol, which has been shown to inhibit platelet and cardiac phospholipase A2 activity in rats, and to reduce thrombin-stimulated thromboxane release in rat platelets.     

花生四烯酸代谢物对呼吸道感受器的作用

迷走神经与神经．免疫交互作用密切相关。在呼吸道中,迷走神经传入纤维末梢上的伤害性感受器能被多种细胞因子、炎性介质和免疫调质激活。在炎症过程中,细胞膜磷脂在磷脂酶A2作用下释放花生四烯酸（arachidonic acid,AA）,后者再经不同的酶促反应产生多种脂类代谢物。与其它的炎性介质一样,这些代谢物在炎症反应中可以激活呼吸道感受器并发挥重要作用。有些AA代谢物直接与感觉神经末梢上的受体结合,产生神经冲动并传向中枢,引起反射性效应;有些作用于感觉末梢周围的组织,改变肺的机械特性,从而刺激感觉传入神经;有些提高感觉神经末梢对机械或化学刺激的敏感性,从而增强其反应;还有些可以产生其它介质或调质而触发反射效应,或者引起炎症细胞的聚集而产生局部效应。总之,AA代谢产物有多种来源,并通过多种途径刺激呼吸道中的伤害性感受器。本综述对此进行了探讨,希望有助于阐明呼吸道炎症反应的机理。     

Mast cell mediators stimulate synthesis of arachidonic acid metabolites in macrophages

Mast cells and macrophages were isolated from human lung tissues by using density gradient centrifugation, cell sorter, and adherence techniques. Passively sensitized mast cells in the absence of exogenous arachidonic acid (AA) released leukotriene (LT)C4, LTD4, PGD2, and thromboxane-B2 when challenged with Ag, and in the presence of AA, released 5-hydroxyeicosatetraenoic acid (HETE) and 15-HETE in addition to the above metabolites. Passively sensitized macrophages did not release significant amounts of AA metabolites when challenged with Ag. However, these cells released LTB4, LTC4, LTD4, LTE4, 5-HETE, PGE2 and 6-keto-PGF1 alpha when co-incubated with activated mast cells. During co-incubation, mast cells also generated greater amount of AA metabolites than when they were activated alone. The stimulatory action of mast cells on macrophages was shown to be due to the extracellular factor(s) present in the supernatant of the activated mast cells. Both heat and trypsin inhibited the biologic activity of mast cell-derived stimulatory factor. In addition, extraction of mast cells' materials with chloroform or ether showed no activity associated with the organic phase, suggesting it possibly possesses a protein nature, such as peptides, protease, or peptidase. These results suggest that mast cell-macrophage interaction might be important in the generation of multiple mediators in the airways during immediate hypersensitivity reactions.     

Effects of newly reported arachidonic acid metabolites on microsomal Ca++ binding, uptake and release

The 5,6-; 8,9-; 11,12- and 14,15-epoxyeicosatrienoic acids and their respective hydration products, the vic-diols, recently reported as metabolites of arachidonic acid in rat liver microsomes, were examined for effect on release of 45Ca from canine aortic smooth muscle microsomes. At 10(-6) M, the diols had no effect, but the 5,6-; 11,12- and 14,15-epoxyacids increased the loss of 45Ca. Further studies with the 14,15-epoxyacid demonstrated a dose-dependent decrease of Ca++ uptake (ATP present) in canine aortic microsomes in 0.03 mM Ca++, whereas Ca++ binding (ATP absent) was not affected. Ca++ uptake, binding and release in rat liver microsomes was similarly affected by the 14,15-epoxyacid, the major epoxyeicosatrienoic acid derivative produced by rat liver microsomal incubations. It is suggested that alterations in Ca++ metabolism might be a possible mechanism of action for these derivatives of arachidonic acid.     

Zymosan induces selective release of arachidonic acid from rabbit alveolar macrophages via stimulation of a beta-glucan receptor.

Zymosan, which is composed primarily of alpha-mannan and beta-glucan polymers, is a well recognized activator of macrophages. The type receptor by which unopsonized zymosan induces arachidonic acid release was investigated. It was found that particulate beta-glucan and zymosan stimulated an identical dose-dependent release of arachidonic acid. This release of arachidonic acid by zymosan was blocked by soluble beta-glucans whereas soluble mannan had no effect. This inhibition was not due to a general toxic effect of the soluble beta-glucans as they had no effect on calcium ionophore-induced release of arachidonic acid. Beta-glucan-induced fatty acid release from these cells was shown to be fairly specific for arachidonic acid. These data reveal that zymosan stimulates the specific release of arachidonic acid from rabbit alveolar macrophages, at least in part, via a beta-glucan receptor.     

Prostaglandin synthesis and release by subpopulations of rat alveolar macrophages

Alveolar macrophages are the primary phagocytic cell of lung, but are also capable of a variety of other functions, which include initiating or modulating inflammatory and immune responses through the production of soluble mediators. One such group of mediators is the eicosanoids. Further, recent data indicate that alveolar macrophages are not functionally homogeneous, but are heterogeneous with several subpopulations that differ both morphologically and functionally. Considering the apparent importance of prostaglandin synthesis and release in inflammatory and immune responses, the current study was undertaken to determine whether alveolar macrophage subpopulations differ in their ability to synthesize and release prostaglandin (PG) E, PGI2, and thromboxane A2 after stimulation by calcium ionophore A23187, zymosan, or aggregated IgG. Alveolar macrophages were harvested by bronchoalveolar lavage and were separated into 18 density-defined fractions. Density-defined alveolar macrophages (DD-AM) showed marked heterogeneity in prostaglandin synthesis and release. Maximal PGE synthesis and release was seen as a single peak after calcium ionophore A23187 and zymosan stimulation. In contrast, two peaks in PGE synthesis were seen after aggregated IgG stimulation. PGI2 synthesis was seen as a single peak generated by different DD-AM after calcium ionophore A23187 and zymosan. In contrast, aggregated IgG stimulation of subpopulations exhibited uniform synthesis and release of PGI2. Thromboxane A2 synthesis and release was maximal from a broad range of various DD-AM after calcium ionophore A23187, zymosan, and aggregated IgG stimulation. The results demonstrate that DD-AM are heterogeneous in ability to synthesize and release prostaglandins which is dependent on the stimuli. Therefore, specific subpopulations of alveolar macrophages may be central to the control of the pulmonary inflammatory response through specific eicosanoid synthesis and release.     

Effects of vitamin E on prostacyclin release and lipid composition of the ischemic rat heart

Free radical-mediated reperfusion injury has been established as an important mechanism leading to post-ischemic reperfusion myocardial damage. The present study was undertaken to determine the protective role of vitamin E, a membrane-bound free-radical scavenger, on ischemia-reperfusion myocardial injury. After 4 months of feeding a semipurified diet containing 0, 30, and 3000 ppm of R,R,R,-alpha-tocopherol acetate, rat hearts were subjected to Langendorff perfusion. Myocardial damage was judged by the release of creatine phosphokinase (CPK) after 45 min of global ischemia followed by 20 min of reperfusion. Effluent CPK was significantly lowered in the two tocopherol-supplemented groups, although increasing dietary vitamin E by 100-fold above requirement did not confer further protection. However, effluent prostacyclin, detected as the stable metabolite 6-keto-PGF1 alpha by radioimmunoassay, was potentiated by dietary vitamin E in a dose-dependent manner. Analysis of lipids in cardiac subcellular fractions showed considerable enrichment of tocopherol in these membranes by diets, but the levels of polyunsaturated fatty acids, phospholipids, and cholesterol were essentially unchanged by dietary treatment or ischemia-reperfusion. These data demonstrated that requirement level of tocopherol (30 ppm) in the diet is sufficient to protect against reperfusion injury of the myocardium and suggests that tocopherol is important in maintaining cardiac prostacyclin synthesis under conditions of oxygen stress.     

The production of arachidonic acid metabolites in rat testis.

There is growing evidence that arachidonic acid is oxygenated enzymatically in every cell type and that the oxygenated metabolites regulate a variety of pathological and physiological processes including reproduction. In the present study, the metabolism of arachidonic acid in the testis via cyclooxygenase and lipoxygenase pathways was analyzed. Testicular microsomes showed substantial cyclooxygenase activity as measured by the polarographic method. Analysis of the products on TLC revealed PGF2 alpha (79.5%) as the main product followed by PGE2 (20.3%) and PGD2 (0.17%). At higher substrate concentrations (150 microM), however, 6-keto-PGF1 alpha, the stable metabolite of prostacyclin, was observed in substantial quantities. Maximum activity of lipoxygenase was observed at pH 6.4 in both microsomes and cytosol, the activity being higher in cytosol. Analysis of lipoxygenase pathway products with arachidonic acid as the substrate, revealed the presence of 12-HPETE as the major product both in cytosol and in microsomes. Besides this, 15- and 5-HPETEs were also observed in substantial quantities.