Evidence for an Involvement of Membrane Lipids in the Control of Neuronal Nicotinic Receptor Function Using Bungarotoxin II-S1

Previous work has shown that a toxin fraction, bungarotoxin (BGT) II-S1, isolated from Bungarus multicinctus venom could inhibit nicotinic receptor-mediated function. Experimental evidence suggested that this effect of the toxin might be due to a direct interaction of the toxin at the acetylcholine binding site and/or to its phospholipase activity. The toxin's enzymic activity has been further characterized; it has phospholipase activity of the A2 type with a Vmax of 12 pmol/min/ng protein and a Km of 300 microM. Phospholipases can produce their effects on a tissue through a variety of mechanisms including the disruption of important lipid protein bonds or the production of free fatty acids which interact with the tissue. To test for this latter possibility, various concentrations of fatty acid-free bovine serum albumin were added to the incubation medium. Fatty acid-free bovine serum albumin partially reversed the inhibition of carbachol-stimulated 1-[1,2-3H(N)]amino-4-guanidobutane ([3H]agmatine) uptake (used as a measure of ion flux) into the ganglion produced by BGT II-S1 (1.0 microM). In an attempt to determine which fatty acids might be responsible for this effect, various fatty acids were added to the incubation medium and their effect on nicotinic receptor-mediated [3H]agmatine uptake determined. Arachidonic acid decreased amine uptake by approximately 50% over the control carbachol-stimulated uptake; linoleic and oleic acid, on the other hand, did not significantly affect the response. This observation could imply that arachidonic acid is the fatty acid produced by the action of BGT II-S1 on the tissue to mediate the toxin's inhibitory effect.(ABSTRACT TRUNCATED AT 250 WORDS)     

Nicotinic alpha5 subunit deletion locally reduces high-affinity agonist activation without altering nicotinic receptor numbers

Neuronal nicotinic acetylcholine receptor subunit alpha5 mRNA is widely expressed in the CNS. An alpha5 gene polymorphism has been implicated in behavioral differences between mouse strains, and alpha5-null mutation induces profound changes in mouse acute responses to nicotine. In this study, we have examined the distribution and prevalence of alpha5* nicotinic acetylcholine receptor in mouse brain, and quantified the effects of alpha5-null mutation on pre-synaptic nicotinic acetylcholine receptor function (measured using synaptosomal (86)Rb(+) efflux) and overall [(125)I]epibatidine binding site expression. alpha5* nicotinic acetylcholine receptor expression was found in nine of fifteen regions examined, although < 20% of the total nicotinic acetylcholine receptor population in any region contained alpha5. Deletion of the alpha5 subunit gene resulted in localized loss of function (thalamus, striatum), which was itself confined to the DHbetaE-sensitive receptor population. No changes in receptor expression were seen. Consequently, functional changes must occur as a result of altered function per unit of receptor. The selective depletion of high agonist activation affinity sites results in overall nicotinic function being reduced, and increases the overall agonist activation affinity. Together, these results describe the receptor-level changes underlying altered behavioral responses to nicotine in nicotinic acetylcholine receptor alpha5 subunit-null mutants.     

Inhibition of Choline Acetyltransferase Activity by Serum Albumin Modified with Octanoic Acid and Other Fatty Acids

In this study, we examined the effect of fatty acids on choline acetyltransferase (ChAT) activity. ChAT is unstable in a solution of low protein concentration, so serum albumin (BSA) is usually added to stabilize the enzyme. However, we found that ChAT from bovine caudate nucleus rapidly lost its activity when diluted with a buffer containing commercial preparations of BSA. This effect was caused by octanoic acid, which was found in the gas chromatography/mass spectrometry system of lipid extract in commercial BSAs. The inhibition of ChAT activity by octanoic acid depended on the concentrations of the octanoic acid and of the albumin. We also found that ChAT activity was decreased by some long-chain fatty acids, arachidonic acid having exhibited the strongest effect. The extent to which arachidonic acid inhibited ChAT activity depended on the molar ratio of arachidonic acid and albumin, rather than upon the concentration of arachidonic acid. The effect of octanoic acid and arachidonic acid on ChAT activity appeared to increase in the presence of albumin.     

Arachidonic Acid Inhibits Choline Uptake and Depletes Acetylcholine Content in Rat Cerebral Cortical Synaptosomes

The effects of arachidonic acid on [3H]choline uptake, on [3H]acetylcholine accumulation, and on endogenous acetylcholine content and release in rat cerebral cortical synaptosomes were investigated. Arachidonic acid (10-150 microM) produced a dose-dependent inhibition of high-affinity [3H]choline uptake. Low-affinity [3H]choline uptake was also inhibited by arachidonic acid. Fatty acids inhibited high-affinity [3H]choline uptake with the following order of potency: arachidonic greater than palmitoleic greater than oleic greater than lauric; stearic acid (up to 150 microM) had no effect. Inhibition of [3H]choline uptake by arachidonic acid was reversed by bovine serum albumin. In the presence of arachidonic acid, there was an increased accumulation of choline in the medium, but this did not account for the inhibition of [3H]choline uptake produced by the fatty acid. Arachidonic acid inhibited the synthesis of [3H]acetylcholine from [3H]choline, and this inhibition was equal in magnitude to the inhibition of high-affinity [3H]choline uptake produced by the fatty acid. A K+-stimulated increase in [3H]acetylcholine synthesis was inhibited completely by arachidonic acid. Arachidonic acid also depleted endogenous acetylcholine stores. Concentrations of arachidonic acid and hemicholinium-3 that produced equivalent inhibition of [3H]choline uptake also produced equivalent depletion of acetylcholine content. In the presence of eserine, arachidonic acid had no effect on acetylcholine release. The results suggest that arachidonic acid may deplete acetylcholine content by inhibiting high-affinity choline uptake and subsequent acetylcholine synthesis. This raises the possibility that arachidonic acid may play a role in the impairment of cholinergic transmission seen in cerebral ischemia and other conditions in which large amounts of the free fatty acid are released in brain.     

Arachidonoylcholine and N,N-dimethylaminoethyl arachidonate are new cholinergic compounds]

Choline and N,N-dimethylaminoethyl esters of arachidonic and some other fatty acids were synthesized. Experiments on the embryos and larvae of sea urchins, sensitive to cholinergic compounds, showed that arachidonoylcholine exhibited cholinomimetic activity similar to that of nicotine whereas N,N-dimethylaminoethyl arachidonate acted as an acetylcholine antagonist. The corresponding esters of docosahexaenoic acid displayed similar biological properties.     

Nicotine protects against arachidonic-acid-induced caspase activation, cytochrome c release and apoptosis of cultured spinal cord neurons

Hydrolysis of membrane phospholipids of spinal cord neurons is one of the first events initiated in spinal cord trauma. In this process, free fatty acids, and in particular arachidonic acid, are released. Exposure of spinal cord neurons to free arachidonic acid can compromise cell survival and initiate apoptotic cell death. In order to determine potential mechanisms of apoptosis induced by arachidonic acid, activation of caspases -3, -8, and -9, as well as the release of cytochrome c into the cytoplasm were measured in cultured spinal cord neurons exposed to 10 microM of this fatty acid. In addition, because nicotine can exert a variety of neuroprotective effects, we hypothesized that it can prevent arachidonic acid induced apoptosis of spinal cord neurons. To study this hypothesis, spinal cord neurons were pretreated with nicotine (10 microM for 2 h) before arachidonic acid exposure and caspase activation as well as markers of apoptotic cell death were studied. Treatment of spinal cord neurons with arachidonic acid for up to 24 h significantly increased cytoplasmic levels of cytochrome c, induced caspase activation and induced DNA laddering, a hallmark of apoptotic cell death. Nicotine pretreatment markedly attenuated all these effects. In addition, antagonist studies suggest that the alpha7 nicotinic receptor is primarily responsible for these anti-apoptotic effects of nicotine. These results indicate that nicotine can exert potent neuroprotective effects by inhibiting arachidonic acid induced apoptotic cascades of spinal cord neurons.     

Endogenous cannabinoid anandamide inhibits nicotinic acetylcholine receptor function in mouse thalamic synaptosomes

The effects of the endogenous cannabinoid anandamide [arachidonylethanolamide (AEA)] on the function of nicotinic acetylcholine receptor (nAChR) were investigated using the ⁸⁶Rb⁺ efflux assay in thalamic synaptosomes. AEA reversibly inhibited ⁸⁶Rb⁺ efflux induced by 300 μM ACh with an IC₅₀ value of 0.9 ± 2 μM. Pre-treatment with the cannabinoid (CB₁) receptor antagonist SR141716A (1 μM), the CB₂ receptor antagonist SR144528 (1 μM), or pertussis toxin (0.2 mg/mL) did not alter the inhibitory effects of AEA, suggesting that known CB receptors are not involved in AEA inhibition of nAChRs. AEA inhibition of ⁸⁶Rb⁺ efflux was not reversed by increasing acetylcholine (ACh) concentrations. In radioligand binding studies, the specific binding of [³H]-nicotine was not altered in the presence of AEA, indicating that AEA inhibits the function of nAChR in a non-competitive manner. Neither the amidohydrolase inhibitor phenylmethylsulfonyl fluoride (0.2 mM) nor the cyclooxygenase inhibitor, indomethacin, (5 μM) affected AEA inhibition of nAChRs, suggesting that the effect of AEA is not mediated by its metabolic products. Importantly, the extent of AEA inhibition of ⁸⁶Rb⁺ efflux was significantly attenuated by the absence of 1% fatty acid free bovine serum albumin pre-treatment, supporting previous findings that fatty acid-like compounds modulate the activity of nAChRs. Collectively, the results indicate that AEA inhibits the function of nAChRs in thalamic synaptosomes via a CB-independent mechanism and that the background activity of these receptors is affected by fatty acids and AEA.     

Relationship between lipemia and sensitivity to arachidonic acid in rabbits]

The hypotensive effect of arachidonic acid in the rabbit increases simultaneously with the fall of the plasmatic unesterified fatty acids (NEFA), after treatment with nicotinic acid or heparin. In the case of nicotinic acid sensitization, which occurs in 10 minutes, the fall of NEFA occurs immediately. The sensitization by heparin appears only after 40 minutes following the injection; during this latency, the NEFA are enhanced; after the fall of NEFA, the rabbit becomes more sensitive to arachidonic acid. Mechanisms of heparinic sensitization are discussed.     

Evaluation in rats and primates of [11C]-mecamylamine, a potential nicotinic acetylcholine receptor radioligand for positron emission tomography

Mecamylamine is a well-described non specific antagonist of nicotinic acetylcholine receptors (nAChRs), used in therapy and in psychopharmacological studies. [(11)C]-Mecamylamine was prepared and evaluated as a putative radioligand for positron emission tomography to study nicotinic acetylcholine receptors. The radiosynthesis consisted in the [(11)C]-methylation of the desmethyl precursor within 40 min with 30-40% radiochemical yield decay corrected. Biodistribution studies in rats showed that radioligand crossed the blood-brain barrier (0.39% ID at 30 min) and only unmetabolized tracer was recovered from brain at 45 min. Ex vivo autoradiography studies in rats did not indicate preferential uptake, and pre-treatment mecamylamine or with chlorisondamine, an nicotinic receptor inhibitor, did not demonstrate a significant specific binding. To investigate possible specie differences and effects of anesthesia, in vivo positron emission tomography (PET) studies were carried out on anaesthetized baboons and conscious macaques. The regional brain distribution of [(11)C]-mecamylamine in the two species of primates exhibited similar kinetics as did the rat with steady state reached about 45-50 min after radiotracer administration. Uptake values were two-fold higher in brain of conscious macaque than in anaesthetized baboon (thalamus: 0.258% ID/(kg mL) in conscious macaques and 0.129% ID/(kg mL) in baboons). PET images showed a radioactivity distribution which was quite homogeneous throughout the brain but with somewhat higher uptake in grey matter than in white. Brain distribution was unaltered by saturation or displacement studies. Possible explanation for the failure to establish specific binding in vivo could be long-lived structural modifications of the ionotropic channel by the unlabeled ligand administered before the tracer. In conclusion, [(11)C]-mecamylamine did not satisfy the requirements for a PET tracer of nicotinic acetylcholine receptors.     

Role of protein supplements in the culture of mouse embryos

The effect of various types of proteins used in single protein supplements for Bigger-Whitten-Whittingham (BWW) medium on the in vitro development of mouse preimplantation embryos was evaluated. Thioredoxin, superoxide dismutase (SOD), and apotransferrin showed prominent growth-promoting activity, whereas bovine serum albumin (BSA), fatty acid-free BSA, and catalase showed moderate promoting effects. beta-lipoprotein, ovalbumin and hemoglobin were ineffective, and holo-type transferrin and ceruloplasmin were actually toxic to the embryos. These results suggest that the growth-promotive effect of proteins on mouse pronuclear stage embryos is due to their antioxidative action, or to the removal of some free metal ion(s) such as Fe(3+). The mild growth promoting effect of both BSA and fatty acid free BSA suggest that the effect mediated by BSA is not dependent on bound fatty acids, but more likely is due to their antioxidative effect or chelating effect.     

The influence of unsaturated fatty acids on prostaglandin-release in isolated perfused guinea-pig hearts

Isolated perfused hearts of guinea-pigs continuously release a prostaglandin-like substance into the effluent. Polyunsaturated fatty acids, linoleic acid and arachidonic acid > linolenic acid, induced an increase in PG-efflux. Oleic acid was without effect. The results suggest that PG-formation is involved in the increase of contractile force and coronary flow after administration of linoleic, linolenic and arachidonic acids.     

Effect of calcium and fatty acids on the isolation of stallion spermatozoa in BSA

Fifty ejaculates, ten from each of 5 mature stallions, were utilized to study the effects of calcium and fatty acids on equine spermatozoa which were isolated in 3% Bovine Serum Albumin (BSA). The ejaculates were evaluated for percent motile spermatozoa, rate of forward movement, debris, primary abnormalities and secondary abnormalities. The isolation procedure consisted of layering 2 ml of diluted semen (100 x 10(6) spermatozoa/ml) over 6 ml of 3% BSA in 13 x 125 mm columns in a water bath (37 degrees C). After 30 min., the top semen layer and upper half of the BSA layer were withdrawn from all columns and the lower half of the BSA was re-evaluated. A 2 x 2 factorial arrangement of treatments was utilized with either the inclusion or omission of calcium or fatty acids in the BSA isolation media. The percent motile spermatozoa and rate of forward movement were increased (P<.01) when fatty acids were included in the isolation media but decreased (P<.01) when they were omitted. The highest percent motile spermatozoa and rate of forward movement were observed with BSA in the presence of fatty acids and omission of calcium. The calcium by fatty acid interaction, stallion effect and stallion by treatment interaction were significant for percent motile spermatozoa. Less debris was observed in all samples of isolated spermatozoa when compared with the initial estimate. Isolation resulted in a reduction of (P<.01) the primary abnormalities. Also, fewer (P<.01) secondary abnormalities were observed after isolation in all treatments except 4 (-FA+Ca) than were found in the ejaculate sample.     

Cholinergic modulation of progesterone-induced maturation of Xenopus oocytes in vitro

Mixed and muscarinic cholinergic agonists (acetylcholine, carbamylcholine, methacholine, oxotremorine, and pilocarpine) accelerated in a dose-dependent manner the progesterone-induced maturation of Xenopus laevis oocytes. None of these agonists induced oocyte maturation in the absence of progesterone. The accelerating effect of cholinergic agonists was blocked in a dose-dependent manner by specific muscarinic antagonists (atropine and scopolamine) but not by specific nicotinic antagonists (d-tubocurarine and hexamethonium). The specific nicotinic agonist, dimethylphenylpiperazine, alone induced maturation in the absence of progesterone. The optimal promoting effect of acetylcholine was observed when oocytes were exposed to acetylcholine for 30 min, 5 min after the addition of progesterone, and was markedly better than when oocytes were exposed to acetylcholine throughout their incubation with progesterone. The effect of acetylcholine was observed in both follicle-enclosed and in defolliculated oocytes, indicating that follicular cells were not the target of the cholinergic drugs.     

Metabolism of saturated and polyunsaturated fatty acids by normal and Zellweger syndrome skin fibroblasts.

The metabolism of 1-11C-labelled derivatives of palmitic (C16:0), arachidonic (C20:4,n-6) lignoceric (C21:0) and tetracosatetraenoic (C24:4,n-6) acids was studied in normal skin fibroblast cultures and in cultures of fibroblasts from peroxisome-deficient (Zellweger's syndrome) patients. Radiolabelled products of the fatty acids included carbon dioxide. C14-24 saturated and mono-unsaturated fatty acids formed from released acetate either by synthesis de novo or by elongation of endogenous fatty acids, fatty acids formed by 2-6-carbon elongation of added substrates, and a number of water-soluble compounds, some of which were tentatively identified as the amino acids glutamine, glutamic acid and asparagine. The labelled amino acids were found predominantly in the culture medium. Zellweger's syndrome fibroblasts showed a marked decrease in radiolabelled carbon dioxide and water-soluble-product formation from (I-14C)-labelled arachidonic, tetracosatetraenoic and lignoceric acids but not from [I-14C]palmitic acid, and the production of radiolabelled C14-18 fatty acids was also diminished. However, the elongation of individual fatty acids was either normal or above normal. Our data support the view that the oxidation of 20:4, 24:4 and 24:0 fatty acids in cultured skin fibroblasts takes place largely in peroxisomes, and further that the acetyl-CoA released by the beta-oxidation process is available for the synthesis of fatty acids and amino acids. We speculate that the generation of C2 units used for synthesis is a major peroxisomal function and that this function is absent or greatly impaired in Zellweger's syndrome cells.     

Differential incorporation of fatty acids into and peroxidative loss of fatty acids from phospholipids of human spermatozoa

Intact human sperm incorporated radiolabelled fatty acids into membrane phospholipids when incubated in medium containing bovine serum albumin as a fatty acid carrier. The polyunsturated fatty acids were preferentially incorporated into the plasmalogen fraction of phospholipid. Uptake was linear with time over 2 hr; at this time sufficient label was available to determine the loss of fatty acids under conditions of spontaneous lipid peroxidation. Loss of the various phospholipid types, the loss of the various fatty acids from these phospholipids, and the overall loss of fatty acids were all first order. The loss of saturated fatty acids was slow with first order rate constant k₁ = 0.003 hr^?1; for the polyunsaturated fatty acids, arachidonic and docosahexaenoic acids, k₁ = 0.145 and 0.162 hr^?1, respectively. The rate of loss of fatty acids from the various phospholipid types was dependent on the type, with loss from phosphatidylethanolamine being the most rapid. Among the phospholipid types, phosphatidylethanolamine was lost at the greatest rate. Analysis of fatty acid loss through oxidation products was determined for radiolabelled arachidonic acid. Under conditions of spontaneous lipid peroxidation at 37°C under air in the absence of albumin, free arachidonic acid was found in the medium, along with minor amounts of hydroxylated derivative. All the hydroperoxy fatty acid remained in the cells. In the presence of albumin, all the hydroperoxy fatty acid was found in the supernatant bound to albumin; none could be detected in the cells. Albumin is known as a very potent inhibitor of lipid peroxidation in sperm; its action may be explained, based on these results, as binding the damaging hydroperoxy fatty acids. These results also indicate that a phospholipase A₂ may act in peroxidative defense by excising a hydroperoxy acyl group from phospholipid and providing the hydroperoxy fatty acid product as substrate to glutathione peroxidase. This formulation targets hydroperoxy fatty acid as a key intermediate in peroxidative degradation. © 1995 wiley-Liss, Inc.     

Efflux of gamma-aminobutyric acid from and appearance of free arachidonic acid inside synaptosomes

When synaptosomes were depolarized in the presence of Ca2+, or when Ca2+ was added to synaptosomes pretreated with Ca2+ ionophore (A23187), free arachidonic acid was clearly increased within synaptosomes, and at the same time an efflux of gamma-aminobutyric acid from synaptosomes was observed. Moreover, when synaptosomes labelled with [14C]arachidonic acid were depolarized in the presence of Ca2+, there was a significant decrease in the radioactivity of the fatty acid of phosphatidylinositol and phosphatidylcholine. Exogenously added arachidonic acid, but not other fatty acids, stimulated the efflux of gamma-aminobutyric acid in the absence of Ca2+. These observations suggest that the release of arachidonic acid from phospholipids is an intrinsic part of the biochemical mechanism that modulates the gamma-aminobutyric acid efflux.     

In Vivo Regulation of [3H]Acetylcholine Recognition Sites in Brain by Nicotinic Cholinergic Drugs

The in vivo regulation of [3H]acetylcholine [( 3H]ACh) recognition sites on nicotinic receptors in rat brain was examined by administering drugs that increase stimulation of nicotinic cholinergic receptors, either directly or indirectly. After 10 days of treatment with the cholinesterase inhibitor diisopropyl fluorophosphate, [3H]ACh binding in the cortex, thalamus, striatum, and hypothalamus was decreased. Scatchard analyses indicated that the decrease in binding in the cortex was due to a reduction in the apparent density of [3H]ACh recognition sites. In contrast, after repeated administration of nicotine (5-21 days), the number of [3H]ACh recognition sites was increased in the cortex, thalamus, striatum, and hypothalamus. Similar effects were observed in the cortex and thalamus following repeated administration of the nicotinic agonist cytisin. The nicotinic antagonists mecamylamine and dihydro-beta-erythroidine did not alter [3H]ACh binding following 10-14 days of administration. Further, concurrent treatment with these antagonists and nicotine did not prevent the nicotine-induced increase in these binding sites. The data indicate that [3H]ACh recognition sites on nicotinic receptors are subject to up- and down-regulation, and that repeated administration of nicotine results in a signal for up-regulation, probably through protracted desensitization at the recognition site.     

Arachidonoylcholine and N,N-Dimethylaminoethyl Arachidonate,New Cholinergic Compounds

Choline and N,N-dimethylaminoethyl esters of arachidonic and some other fatty acids were synthesized. Experiments on the embryos and larvae of sea urchins, sensitive to cholinergic compounds, showed that arachidonoylcholine exhibited cholinomimetic activity similar to that of nicotine while N,N-dimethylaminoethyl arachidonate acted as acetylcholine antagonist. The corresponding esters of docosahexaenoic acid were found to manifest similar biological properties.     

Alpha-fetoprotein-mediated uptake of fatty acids by human T lymphocytes.

The binding to resting and activated T lymphocytes of two radiolabelled fatty acids (oleic and arachidonic) was studied in the presence or in the absence of alpha-fetoprotein (AFP) as carrier protein. Fatty acid binding by resting and activated T lymphocytes was determined at 4 degrees C as a function of the concentration of fatty acid and AFP. Under the conditions employed, the following observations were made: (1) in the presence of AFP, fatty acids (oleic and arachidonic acid) are bound to cells by a two-component pathway; one is a saturable process, evidenced when the fatty acid to AFP (FA/AFP) molar ratio was fixed at 1 and the concentration of the fatty acid and the protein varied from 0.1 to 3.2 microM, and the second is a nonsaturable function of FA/AFP molar ratio and was linearly related to the unbound fatty acid concentration in the medium over the entire range studied; (2) in the absence of AFP, the nonsaturable process appears to be the only component of fatty acid binding; 3) at all tested concentrations of free (unbound) fatty acid in the medium, net fatty acid binding by either resting or activated T cells was considerably greater in the presence than in the absence of AFP; (4) in the presence of AFP, fatty acid binding was much higher in activated T cells than in resting T cells, whereas in the absence of AFP, nonsignificant differences were observed between activated and resting T cells; and (5) the time course of fatty acid and AFP binding at 4 degrees C revealed that, at equilibrium, the number of fatty acid molecules bound to the cell was much greater than that of AFP suggesting an accelerated dissociation of the fatty acid upon interaction of the AFP-fatty acid complex with putative cell receptors. It is concluded to the existence of an AFP/AFP-receptor pathway that facilitates the binding of fatty acids to T lymphocytes, particularly upon their blast transformation. This pathway may fulfill the increased requirement for fatty acids characteristic of proliferating cells and may serve to regulate the endocytosis of fatty acids with modulatory effects on lymphocyte function and to protect cells from their cytotoxic potential when internalized in excess.     

食物中多不饱和脂肪酸在家蝇幼虫体内的富集与代谢及对其生长的影响

【目的】阐明家蝇 Musca domestica 幼虫对食物中各种多不饱和脂肪酸的富集能力以及代谢转化情况,并探究各种多不饱和脂肪酸对家蝇幼虫生长的影响。【方法】在基础饲料中添加不同浓度(3%, 6%和12%)的多不饱和脂肪酸(亚油酸、α-亚麻酸、花生四烯酸和二十二碳六烯酸)饲养经过脱脂传代培养的家蝇幼虫;提取家蝇幼虫的总脂肪酸,利用气相色谱仪进行检测和分析;测定统计幼虫体重,以分析多不饱和脂肪酸对家蝇幼虫生长的影响。【结果】亚油酸、α-亚麻酸和花生四烯酸在家蝇幼虫体内均能被富集,且它们的富集程度随着食物中多不饱和脂肪酸的添加浓度的升高而增加,其中亚油酸、α-亚麻酸和花生四烯酸在幼虫体内富集的最高含量(占体内总脂肪酸的比例)分别为21.93%, 16.13%和9.68%,而二十二碳六烯酸不能在家蝇幼虫体内富集,提示家蝇幼虫食物中添加的各种多不饱和脂肪酸经过代谢后并没有在其体内产生新的脂肪酸,而食物中添加的二十二碳六烯酸在家蝇幼虫体内被分解代谢后消除。饲喂α-亚麻酸及花生四烯酸后家蝇幼虫体重增长较为明显,其中6%α-亚麻酸添加组的幼虫体重显著高于对照组(取食脱脂饲料)和3%和12%α-亚麻酸添加组,3%和6%花生四烯酸添加组的幼虫体重显著高于对照组和12%花生四烯酸添加组。【结论】家蝇幼虫体内能够从食物中富集部分多不饱和脂肪酸,多不饱和脂肪酸碳链越长其富集程度越低直至不能富集,富集的多不饱和脂肪酸对家蝇幼虫生长有不同程度的影响。