内毒素致大鼠肺损伤时肺组织β受体的变化与膜磷脂代谢的关系

采用放射性配基结合分析法,现察内毒大致大鼠急性肺损伤时肺β－肾上腺素能受体（β－ＡＲ）的变化。分别用荧光偏振法和高效液相色谱测定肺组织细胞膜脂流动性和磷脂含量。结果显示：（１）静脉注射内毒素后４ｈ,大鼠肺β－ＡＲ的最大结合容量明显降低,较对照组减少４７％;（２）内毒素组肺膜脂流动性和磷脂含量均明显降低,同时伴有肺组织磷脂酶Ａ２（ＰＬＡ２）活性升高。提示：（１）β－ＡＲ下调导致其介导的功能减弱,在内毒素诱导的大鼠急性肺损伤发病机理中起一定作用;（２）ＰＬＡ２激活是膜磷脂减少的重要原因,后者可导致膜脂流动性降低,结果引起β－ＡＲ的侧向扩散和旋转运劝减弱,从而减少β－ＡＲ与配基结合的机率,出现β－ＡＫ下调。     

Action of α-l-fucoside fromOctopus vulgaris hepatopancreas on phospholipid vesicles containing the fucosylated ganglioside FucGM1

The behaviour of a highly purified -l-fucosidase (E.C. 3.2.1.51) extracted from octopus hepatopancreas was studied with phospholipid vesicles composed of phosphatidylcholine (PC) and phosphatidylserine (PS) containing the fucosylated ganglioside FucGM1, a potential natural substrate of the enzyme. The substrate recognition and hydrolysis take place only with PS/FucGM1 mixtures via an association process of the enzyme with the vesicles at acidic pH; the enzyme rapidly and stably binds to PS vesicles but not to PC vesicles. The data suggest that only the PS-associated enzyme is able to hydrolyse FucGM1 embedded in the same bilayer. The enzyme association with FucGM1/PS vesicles is a prerequisite for ganglioside hydrolysis but is followed by irreversible enzyme inactivation.     

Demethylation and degradation of phenylmethylethers by the sulfide-methylating homoacetogenic bacterium strain TMBS 4

Biochemical studies on anaerobic phenylme-thylether cleavage by homoacetogenic bacteria have been hampered so far by the complexity of the reaction chain involving methyl transfer to acetyl-CoA synthase and subsequent methyl group carbonylation to acetyl-CoA. Strain TMBS 4 differs from other demethylating homoacetogenic bacteria in using sulfide as a methyl acceptor, thereby forming methanethiol and dimethylsulfide. Growing and resting cells of strain TMBS 4 used alternatitively CO₂ as a precursor of the methyl acceptor CO for homoacetogenic acetate formation. Demethylation was inhibited by propyl iodide and reactivated by light, indicating involvement of a corrinoid-dependent methyltransferase. Strain TMBS 4 contained ca. 750 nmol g dry mass^-1 of a corrinoid tentatively identified as 5-hydroxybenzimidazolyl cobamide. A photometric assay for measuring the demethylation activity in cell extracts was developed based on the formation of a yellow complex of Ti³⁺ with 5-hydroxyvanillate produced from syringate by demethylation. In cell extracts, the methyltransfer reaction from methoxylated aromatic compounds to sulfide or methanethiol depended on reductive activation by Ti³⁺. ATP and Mg²⁺ together greatly stimulated this reductive activation without being necessary for the demethylation reaction itself. The specific activity of the transmethylating enzyme system increased proportionally with protein concentration up to 3 mg ml^-1 reaching a constant level of 20 nmol min^-1 mg^-1 at protein concentrations 10 mg ml^-1. The specific rate of activation increased in a non-linear manner with protein concentration. Strain TMBS 4 degraded gallate, the product of sequential demethylations, to 3 acetate through the phloroglucinol pathway as found earlier with Pelobacter acidigallici.Abbreviations BV benzyl viologen - CTAB cetyltrimethylammonium bromide - H₄folate tetrahydrofolate - MOPS 3-[N-morpholino]propanesulfonic acid - MV methyl viologen - NTA nitrilotriacetate - t_d doubling time - TMB 3,4,5-trimethoxybenzoate     

Lipid structure and Ca2+-ATPase function

Effects of lipid structure on the function of the Ca²⁺-ATPase of skeletal muscle of sarcoplasmic reticulum are reviewed. Binding of phospholipids to the ATPase shows little specificity. Phosphatidylcholines with short (C14) or long (C24) fatty acyl chains have marked effects on the activity of the ATPase, including a change in the stoichiometry of Ca binding. Low ATPase activity in gel phase lipid follows from low rate of phosphorylation. Phosphatidylinositol 4-phosphate increases ATPase activity by increasing the rate of dephosphorylation of the phosphorylated ATPase. Stimulation is not seen with other anionic phospholipids; phosphatidic acid decreases ATPase activity in a Mg²⁺-dependent manner.Abbreviations di(C141)PC dimyristoleoylphosphatidycholine - di(C160)PC dipalmitoylphosphatidylcholine - di(C181)PC dioleoylphosphatidylcholine - di(Br₂C180)PC dibromostearoylphosphatidylcholine - di(C241)PC dinervonylphosphatidylcholine - di(C181)PA dioleoylphosphatidic acid - di(C181)PE dioleoylphosphatidylethanolamine - Ptdlns phosphatidylinositol - PtdIns-4P phos-phatidylinositol 4-phosphate     

Changes of inositol phosphates during decapitation-induced lateral bud break of Malus domestica

An increase in phosphatidylcholine (PC), phosphatidyl-ethanolamine (PE), phosphatidylglycerol (PG), and phosphatidylinositol (PI) occurred during bud break induced by decapitation. Inositol-1-phosphate [Ins(l)P₁], inositol-1,4-bisphosphate [Ins(1,4)P₂], and inositol-1,4,5-triphosphate [Ins(1,4,5)P₃] were found in apple buds and increased progressively following decapitation. Ins(1)P₁ and Ins(1,4)P₂ peaked 48 h after decapitation and Ins(1,4,5)P₃ peaked 72 h after decapitation during the metabolic transition when buds emerged from dormancy. Ins(1,4)P₂ and Ins(1,4,5)P₃ levels declined there after. The lateral buds on shoots with intact terminals and decapitated shoots treated with indole-3-acetic acid (IAA) in the terminals tip remained dormant and there were no significant changes in phospholipid and inositol phosphate contents.     

Lipid changes in mature-green bell pepper fruit during chilling at 2°C and after transfer to 20°C subsequent to chilling

Lipid composition and pigment content in bell pepper ( Capsicum annuum L. cv. Bell Tower) fruit that were freshly harvested, chilled 14 days at 2° C. or chilled and then transferred to 20 °C for 3 days ("rewarmed") were determined. There was slight to moderate loss of membrane glycerolipids during chilling, with much greater losses after chilled fruit was rewarmed. Galactolipid (GL) loss exceeded that of phospholipid (PL). The ratio of monogalactosyl -to digalactosyl-diacylglycerol did not change in chilled or in rewarmed fruit, and there was no chlorophyll loss, but the amount of neutral carotenes declined during chilling and dropped further alter rewarming. Only minor changes in total membrane sterols (TMS = free sterols + steryl glycosides + acylated steryl glycosides) were noted in chilled and in rewarmed fruit (a small increase followed by a small decrease), but major changes occurred in sterol glycosylation and esterification. The ratio of stigmasterol to sitosterol increased during chilling and rose further after rewarming. Due to PL loss, the ratios of TMS and free sterols to PL increased in rewarmed fruit. The ratio of linolenate (18:3) to linoleate (18:2) rose during chilling and after rewarming in all fatty-acyl lipids (GL. PL. and acylated steryl glycosides), but the unsaturation index increased only in GL. These results indicate that most membrane damage occurs after rewarming of chilled fruit and that the chloroplasts are especially chilling sensitive.     

Growth characteristics,morphology, and phospholipid composition of human type II pulmonary alveolar cells grown in a collagen-free microenvironment

Summary Human lung epithelial cells have been isolated and maintained in pure culture and characterized during their time in culture. Any residual fibroblasts were removed by selective trypsinization within the first 48 h in culture and the residual epithelial cells from the primary culture grew to confluent density. The epithelial cells at Passage 2 or greater were serially subpassaged when cultures reached ca. 80% confluency. This procedure permitted us to conduct biochemical and structural studies of starting materials and subsequent population doublings. Electron microscope evaluation of both initial monolayers and cell suspensions showed cultures to be composed of a single cell type. These cells had microvilli on their free or apical surface. Subsequent population doubling level 1 up to 5 exhibited the same structures. They contained lamellar inclusions, which are typical of Type II alveolar epithelial cells. Fetal lung (age 18 to 20 wk) cell suspensions processed for electron microscopy before culturing showed cells to be undifferentiated, epithelial-like with small microvilli along cell borders, and with desmosomes at cell junctions. Lamellar inclusions were not observed in these cells. Ultrastructural studies of the cultured epithelial cells demonstrated that the lamellar inclusions had a slightly positive reaction when tested for acid phosphatase. Phospholipid analysis of these lung epithelial cells showed a phospholipid composition consistent with that found in surfactant-containing Type II cells. Cultured epithelial cells stained with phosphine 3-R demonstrated a green fluorescent cytoplasm and nucleus with brightly fluorescent yellow-orange perinuclear particles. The preceding characterization of these cells leads us to conclude that they exhibit structural and biochemical features commensurate with Type II epithelial cells from human lung. Moreover, these selection techniques applied to the isolation of human lung Type II cells from the tissue permit us to study the differentiative function of these cells routinely under conditions of growth in vitro. This work was supported in part by grants from EPA, R 806638-01 and 131-640-1599A1     

Evidence for a highly asymmetric arrangement of ether- and diacyl-phospholipid subclasses in the plasma membrane of Krebs II ascites cells

(1) Krebs II ascites cells were taken as a model of the neoplastic cells to investigate the transverse distribution of phospholipids in the plasma membrane. The experimental procedure was based on non-lytic degradation of phospholipids in the intact cell by Naja naja phospholipase A₂ and Staphylococcus aureus sphingomyelinase C and on phopholipid analysis of purified plasma membranes. It was shown that the three major phospholipids, i.e., phosphatidylcholine, phosphatidylethanolamine and sphingomyelin, are randomly distributed between the two halves of the membranes, whereas phosphatidylserine remains located in the inner leaflet. (2) The membrane localization of phosphatidylcholine and phosphatidylethanolamine subclasses (diacyl, alkylacyl and alkenylacyl) was also examined, using a new procedure of ether-phospholipid determination. The method involves a selective removal of diacyl species by guinea pig pancreas phospholipase A₁ and of alkenylacyl species by acidolysis. This analysis revealed a 50% increase of ether phospholipids in the plasma membrane as compared to the whole cell (36.5 and 23.1% of total phospholipid, respectively). Furthermore, a strong membrane asymmetry was demonstrated for the three phosphatidylcholine subclasses, since 1-alkyl-2-acyl-sn-glycerol-3-phosphocholine (alkylacyl-GPC) was entirely found in the inner leaflet, whereas both diacyl- and alkenylacyl-GPC displayed an external localization. The same pattern was observed for phosphatidylethanolamine subclasses, except for 1-alkenyl-2-acyl-sn-glycero-3-phosphoethanolamine, which was found randomly distributed. These results are discussed in relation to the process of cell malignant transformation and to the biosynthesis of platelet-activating factor (PAF-acether or 1-alkyl-2-acetyl-GPC).     

Rapid methods for the characterization of unilamellar phospholipid vesicles. Application to studies on fatty acid donor and acceptor properties of membranes and fatty acid binding proteins

Vesicles having diameters from 20 to 200 nm were prepared from egg-yolk phosphatidylcholine (PC) and were separated as well as analyzed by methods that can be carried out with standard laboratory equipment. Gel-chromatography on Sephacryl S 1000 was adapted for expeditious size analysis of vesicles as well as for isolation of vesicle populations having a narrow range of diameters. The internal volume of vesicles was derived from enzymic tests for PC and for glucose encapsulated. Size analysis and enzymic determinations provided a convenient check for the lamellarity of membranes produced.Fatty acids and fatty acid binding proteins (FABPs) must interact in vivo in the presence of cellular membranes. As a model, interactions between unilamellar vesicles, anthroyloxypalmitic acid (A16:0) and FABPs were studied with the aid of gel-chromatographic methods elaborated and of fluorescence spectroscopy. FABP from bovine heart donated A16:0 to membranes, whereas FABP from bovine liver removed this fatty acid from vesicle membranes. The results revealed characteristic differences between cardiac and hepatic FABPs with regard to binding a fatty acid.     

The fluidity of plasma membranes from ethanol-treated rat liver

Summary Male Wistar rats were maintained for 35–40 days on a liquid diet containing 36% of calories as ethanol. Ethanol was replaced by carbohydrates in the isocaloric diet fed to control animals. The effect of ethanol consumption has been studied on the fluorescence polarization of rat liver plasma membranes and artificial lipid vesicles and on the lipid composition of the membranes. Fluorescence polarization in both membranes and vesicles was determined using DPH and TMA-DPH as fluorescence markers; from these data, the polarization term (r_o/r–1)^–1 and flow activation energy (E) were calculated. The ethanol consumption induces a more fluid environment within the membrane core of liver plasma membranes; the ethanol-fed rat membranes are more resistant to the in vitro effect of ethanol disordering the membrane structure. Vesicles obtained with lipids from either control membranes or ethanol-fed rat membranes were treated with ethanol and the changes in polarization paralleled to those exhibited by the membranes. The absence of phase transitions and of E changes was also shown in temperature-dependence studies. The lower cholesterol content found in ethanol-fed rat plasma membranes might be responsible for observed variations in the microviscosity.Abbreviation OG octyl -D-glucopyranoside