Your search keyword '"Hartmann MA"' showing total 72 results

51. Characterization of lipid rafts from Medicago truncatula root plasma membranes: a proteomic study reveals the presence of a raft-associated redox system.

Author

Lefebvre B, Furt F, Hartmann MA, Michaelson LV, Carde JP, Sargueil-Boiron F, Rossignol M, Napier JA, Cullimore J, Bessoule JJ, and Mongrand S

Subjects

Cell Fractionation, Medicago truncatula ultrastructure, Membrane Lipids chemistry, Membrane Lipids metabolism, Membrane Microdomains metabolism, Membrane Microdomains ultrastructure, Plant Proteins classification, Plant Proteins isolation & purification, Plant Proteins metabolism, Plant Roots metabolism, Plant Roots ultrastructure, Proteomics, Solubility, Stigmasterol analogs & derivatives, Stigmasterol metabolism, Medicago truncatula metabolism, Membrane Microdomains chemistry, Oxidation-Reduction

Abstract

Several studies have provided new insights into the role of sphingolipid/sterol-rich domains so-called lipid rafts of the plasma membrane (PM) from mammalian cells, and more recently from leaves, cell cultures, and seedlings of higher plants. Here we show that lipid raft domains, defined as Triton X-100-insoluble membranes, can also be prepared from Medicago truncatula root PMs. These domains have been extensively characterized by ultrastructural studies as well as by analysis of their content in lipids and proteins. M. truncatula lipid domains are shown to be enriched in sphingolipids and Delta(7)-sterols, with spinasterol as the major compound, but also in steryl glycosides and acyl-steryl glycosides. A large number of proteins (i.e. 270) have been identified. Among them, receptor kinases and proteins related to signaling, cellular trafficking, and cell wall functioning were well represented whereas those involved in transport and metabolism were poorly represented. Evidence is also given for the presence of a complete PM redox system in the lipid rafts.

Published

2007

52. Formation of triterpenoids throughout Olea europaea fruit ontogeny.

Author

Stiti N, Triki S, and Hartmann MA

Subjects

Plant Leaves metabolism, Plant Proteins metabolism, Sterols biosynthesis, Sterols metabolism, Fruit metabolism, Olea growth & development, Triterpenes metabolism

Abstract

Drupes were handpicked from olive (Olea europaea L.) trees, cv chemlali, at 13 distinct stages of fruit development, referred to as weeks after flowering (WAF), and analyzed for their free and esterified sterols and triterpenoids content. These two classes of compounds are synthesized via the acetate/mevalonate pathway and share common precursors up to oxidosqualene (OS). Cyclization of OS in either cycloartenol or beta-amyrin constitutes a branch point between primary (sterol pathway) and secondary (triterpenoid pathway) metabolisms. At the onset of fruit development, i.e., between 12 and 18 WAF, drupes were found to contain high amounts of alpha- and beta-amyrins as well as more-oxygenated compounds such as triterpenic diols (erythrodiol and uvaol) and acids (oleanolic, ursolic and maslinic acids). Concomitantly, sterol precursors were barely detectable. From 21 WAF, when the olive fruit reached its final size and began to turn from green to purple, alpha- and beta-amyrins were no longer present, while 4,4-dimethyl- and 4alpha-methylsterols started to be formed, indicating a redirection of the carbon flux from the triterpenoid pathway towards the sterol pathway. Between 21 and 30 WAF, sterol end products, mainly represented by sitosterol, progressively accumulated and triterpenic diols were replaced by triterpenic acids, essentially maslinic acid. Interestingly, the developing olive fruit was found to accumulate significant amounts of parkeol as an ester conjugate. Whatever the stage of development, triterpenoids represent the major triterpenic compounds of the olive fruit.

Published

2007

53. At5g50600 encodes a member of the short-chain dehydrogenase reductase superfamily with 11beta- and 17beta-hydroxysteroid dehydrogenase activities associated with Arabidopsis thaliana seed oil bodies.

Author

d'Andréa S, Canonge M, Beopoulos A, Jolivet P, Hartmann MA, Miquel M, Lepiniec L, and Chardot T

Subjects

17-Hydroxysteroid Dehydrogenases genetics, 17-Hydroxysteroid Dehydrogenases metabolism, Amino Acid Sequence, Arabidopsis genetics, Arabidopsis Proteins genetics, Electrophoresis, Polyacrylamide Gel, Estradiol metabolism, Fatty Acid Synthases genetics, Kinetics, Molecular Sequence Data, NADH, NADPH Oxidoreductases genetics, NADP metabolism, Oxidation-Reduction, Phylogeny, Recombinant Proteins genetics, Recombinant Proteins metabolism, Seeds genetics, Sequence Alignment, Substrate Specificity, Arabidopsis enzymology, Arabidopsis Proteins metabolism, Fatty Acid Synthases metabolism, NADH, NADPH Oxidoreductases metabolism, Plant Oils metabolism, Seeds metabolism

Abstract

In a previous work, we presented evidence for the presence of a protein encoded by At5g50600 in oil bodies (OBs) from Arabidopsis thaliana [P. Jolivet, E. Roux, S. D'Andrea, M. Davanture, L. Negroni, M. Zivy, T. Chardot, Protein composition of oil bodies in Arabidopsis thaliana ecotype WS, Plant Physiol. Biochem. 42 (2004) 501-509]. Using specific antibodies and proteomic techniques, we presently confirm the existence of this protein, which is a member of the short-chain steroid dehydrogenase reductase superfamily. We have measured its activity toward various steroids (cholesterol, dehydroepiandrosterone, cortisol, corticosterone, estradiol, estrone) and NAD(P)(H), either within purified OBs or as a purified bacterially expressed chimera. Both enzymatic systems (OBs purified from A. thaliana seeds as well as the chimeric enzyme) exhibited hydroxysteroid dehydrogenase (HSD) activity toward estradiol (17beta-hydroxysteroid) with NAD+ or NADP+, NADP+ being the preferred cofactor. Low levels of activity were observed with cortisol or corticosterone (11beta-hydroxysteroids), but neither cholesterol nor DHEA (3beta-hydroxysteroids) were substrates, whatever the cofactor used. Similar activity profiles were found for both enzyme sources. Purified OBs were found to be also able to catalyze estrone reduction (17beta-ketosteroid reductase activity) with NADPH. The enzyme occurring in A. thaliana OBs can be classified as a NADP+-dependent 11beta-,17beta-hydroxysteroid dehydrogenase/17beta-ketosteroid reductase. This enzyme probably corresponds to AtHSD1, which is encoded by At5g50600. However, its physiological role and substrates still remain to be determined.

Published

2007

54. Insights into the role of specific lipids in the formation and delivery of lipid microdomains to the plasma membrane of plant cells.

Author

Laloi M, Perret AM, Chatre L, Melser S, Cantrel C, Vaultier MN, Zachowski A, Bathany K, Schmitter JM, Vallet M, Lessire R, Hartmann MA, and Moreau P

Subjects

Arabidopsis drug effects, Arabidopsis genetics, Biological Transport physiology, Cell Membrane drug effects, Cells, Cultured, Membrane Lipids metabolism, Microsomes metabolism, Morpholines pharmacology, Mutation, Onions drug effects, Phospholipids metabolism, Seedlings drug effects, Seedlings metabolism, Steroid Isomerases antagonists & inhibitors, Sterols metabolism, Subcellular Fractions, Arabidopsis metabolism, Cell Membrane metabolism, Membrane Lipids physiology, Membrane Microdomains metabolism, Onions metabolism

Abstract

The existence of sphingolipid- and sterol-enriched microdomains, known as lipid rafts, in the plasma membrane (PM) of eukaryotic cells is well documented. To obtain more insight into the lipid molecular species required for the formation of microdomains in plants, we have isolated detergent (Triton X-100)-resistant membranes (DRMs) from the PM of Arabidopsis (Arabidopsis thaliana) and leek (Allium porrum) seedlings as well as from Arabidopsis cell cultures. Here, we show that all DRM preparations are enriched in sterols, sterylglucosides, and glucosylceramides (GluCer) and depleted in glycerophospholipids. The GluCer of DRMs from leek seedlings contain hydroxypalmitic acid. We investigated the role of sterols in DRM formation along the secretory pathway in leek seedlings. We present evidence for the presence of DRMs in both the PM and the Golgi apparatus but not in the endoplasmic reticulum. In leek seedlings treated with fenpropimorph, a sterol biosynthesis inhibitor, the usual Delta(5)-sterols are replaced by 9beta,19-cyclopropylsterols. In these plants, sterols and hydroxypalmitic acid-containing GluCer do not reach the PM, and most DRMs are recovered from the Golgi apparatus, indicating that Delta(5)-sterols and GluCer play a crucial role in lipid microdomain formation and delivery to the PM. In addition, DRM formation in Arabidopsis cells is shown to depend on the unsaturation degree of fatty acyl chains as evidenced by the dramatic decrease in the amount of DRMs prepared from the Arabidopsis mutants, fad2 and Fad3+, affected in their fatty acid desaturases.

Published

2007

55. Switching mechanics with chemistry: a model for the bending stiffness of amphiphilic bilayers with interacting headgroups in crystalline order.

Author

Hartmann MA, Weinkamer R, Zemb T, Fischer FD, and Fratzl P

Subjects

Computer Simulation, Elasticity, Hydrophobic and Hydrophilic Interactions, Mechanics, Molecular Conformation, Stress, Mechanical, Crystallization methods, Lipid Bilayers, Membrane Fluidity, Membrane Lipids chemistry, Models, Chemical, Models, Molecular

Abstract

Bilayer structures in catanionic systems experimentally showed peculiar mechanical behavior. The observed increase in the bending stiffness is supposedly connected to additional hydrogen bonds forming between anionic headgroups. With a simple model, we can explain the extreme sensitivity of the bending stiffness of the membrane on the molar ratio of the charged molecules. This effect is further amplified by the sandwichlike structure of the membrane, where the apolar core separating the headgroups acts via a kind of lever-arm principle. As a consequence of these combined effects, the model membrane changes from a soft behavior with bending rigidities on the order of 10k(B)T to an extremely stiff membrane with a bending stiffness more than 2 orders of magnitude larger where most of this change occurs within a molar ratio interval smaller than 0.1.

Published

2006

56. Stochastic lattice model for bone remodeling and aging.

Author

Weinkamer R, Hartmann MA, Brechet Y, and Fratzl P

Subjects

Adaptation, Physiological physiology, Animals, Computer Simulation, Humans, Models, Statistical, Stochastic Processes, Aging physiology, Bone Matrix physiology, Bone Remodeling physiology, Extracellular Matrix physiology, Mechanotransduction, Cellular physiology, Models, Biological, Spine physiology

Abstract

We investigate the remodeling process of trabecular bone inside a human vertebral body using a stochastic lattice model, in which the ability of living bone to adapt to mechanical stimuli is incorporated. Our simulations show the emergence of a networklike structure similar to real trabecular bone. With time, the bone volume fraction reaches a steady state. The microstructure, however, coarsens with a typical length in the system following a power law. The simulation results suggest that a coarsening of the trabecular structure should occur as a natural aging phenomenon, not related to disease.

Published

2004

57. Lipid rafts in higher plant cells: purification and characterization of Triton X-100-insoluble microdomains from tobacco plasma membrane.

Author

Mongrand S, Morel J, Laroche J, Claverol S, Carde JP, Hartmann MA, Bonneu M, Simon-Plas F, Lessire R, and Bessoule JJ

Subjects

Blotting, Western, Cell Membrane metabolism, Centrifugation, Density Gradient, Cholesterol metabolism, Chromatography, High Pressure Liquid, Chromatography, Thin Layer, Electrophoresis, Gel, Two-Dimensional, Electrophoresis, Polyacrylamide Gel, Ergosterol metabolism, Ions, Lipid Metabolism, Lipids chemistry, Mass Spectrometry, Membrane Microdomains metabolism, Microscopy, Electron, NADPH Oxidases metabolism, Plant Leaves metabolism, Protein Structure, Tertiary, Signal Transduction, Sitosterols metabolism, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Stigmasterol metabolism, Sucrose pharmacology, Temperature, Cholesterol analogs & derivatives, Detergents pharmacology, Membrane Microdomains chemistry, Octoxynol pharmacology, Phytosterols, Nicotiana metabolism

Abstract

A large body of evidence from the past decade supports the existence of functional microdomains in membranes of animal and yeast cells, which play important roles in protein sorting, signal transduction, or infection by pathogens. They are based on the dynamic clustering of sphingolipids and cholesterol or ergosterol and are characterized by their insolubility, at low temperature, in nonionic detergents. Here we show that similar microdomains also exist in plant plasma membrane isolated from both tobacco leaves and BY2 cells. Tobacco lipid rafts were found to be greatly enriched in a sphingolipid, identified as glycosylceramide, as well as in a mixture of stigmasterol, sitosterol, 24-methylcholesterol, and cholesterol. Phospho- and glycoglycerolipids of the plasma membrane were largely excluded from lipid rafts. Membrane proteins were separated by one- and two-dimensional gel electrophoresis and identified by tandem mass spectrometry or use of specific antibody. The data clearly indicate that tobacco microdomains are able to recruit a specific set of the plasma membrane proteins and exclude others. We demonstrate the recruitment of the NADPH oxidase after elicitation by cryptogein and the presence of the small G protein NtRac5, a negative regulator of NADPH oxidase, in lipid rafts.

Published

2004

58. A review of tobacco BY-2 cells as an excellent system to study the synthesis and function of sterols and other isoprenoids.

Author

Hemmerlin A, Gerber E, Feldtrauer JF, Wentzinger L, Hartmann MA, Tritsch D, Hoeffler JF, Rohmer M, and Bach TJ

Subjects

Models, Biological, Sterols chemistry, Cell Line, Sterols biosynthesis, Sterols metabolism, Terpenes metabolism, Nicotiana cytology, Nicotiana metabolism

Abstract

In plants, two pathways are utilized for the synthesis of isopentenyl diphosphate (IPP), the universal precursor for isoprenoid biosynthesis. In this paper we review findings and observations made primarily with tobacco BY-2 cells (TBY-2), which have proven to be an excellent system in which to study the two biosynthetic pathways. A major advantage of these cells as an experimental system is their ability to readily take up specific inhibitors and stably- and/or radiolabeled precursors. This permits the functional elucidation of the role of isoprenoid end products and intermediates. Because TBY-2 cells undergo rapid cell division and can be synchronized within the cell cycle, they constitute a highly suitable test system for determination of those isoprenoids and intermediates that act as cell cycle inhibitors, thus giving an indication of which branches of the isoprenoid pathway are essential. Through chemical complementation; and use of precursors, intracellular compartmentation can be elucidated, as well as the extent to which the plastidial and cytosolic pathways contribute to the syntheses of specific groups of isoprenoids (e.g., sterols) via exchange of intermediates across membranes. These topics are discussed in the context of the pertinent literature.

Published

2004

59. Inhibition of squalene synthase and squalene epoxidase in tobacco cells triggers an up-regulation of 3-hydroxy-3-methylglutaryl coenzyme a reductase.

Author

Wentzinger LF, Bach TJ, and Hartmann MA

Subjects

Bridged Bicyclo Compounds, Heterocyclic pharmacology, Carbon Radioisotopes, Cell Line, Enzyme Inhibitors pharmacology, Farnesyl-Diphosphate Farnesyltransferase antagonists & inhibitors, Farnesyl-Diphosphate Farnesyltransferase genetics, Gene Expression Regulation, Enzymologic drug effects, Gene Expression Regulation, Plant drug effects, Hydroxymethylglutaryl CoA Reductases genetics, Methyltransferases metabolism, Naphthalenes pharmacology, Oxygenases antagonists & inhibitors, Oxygenases genetics, Phosphoric Monoester Hydrolases metabolism, Phytosterols biosynthesis, Polyisoprenyl Phosphates biosynthesis, Sesquiterpenes, Squalene metabolism, Squalene Monooxygenase, Terbinafine, Nicotiana cytology, Nicotiana genetics, Tricarboxylic Acids pharmacology, Triglycerides metabolism, Triterpenes, Up-Regulation drug effects, Farnesyl-Diphosphate Farnesyltransferase metabolism, Hydroxymethylglutaryl CoA Reductases metabolism, Oxygenases metabolism, Nicotiana enzymology

Abstract

To get some insight into the regulatory mechanisms controlling the sterol branch of the mevalonate pathway, tobacco (Nicotiana tabacum cv Bright Yellow-2) cell suspensions were treated with squalestatin-1 and terbinafine, two specific inhibitors of squalene synthase (SQS) and squalene epoxidase, respectively. These two enzymes catalyze the first two steps involved in sterol biosynthesis. In highly dividing cells, SQS was actively expressed concomitantly with 3-hydroxy-3-methylglutaryl coenzyme A reductase and both sterol methyltransferases. At nanomolar concentrations, squalestatin was found to inhibit efficiently sterol biosynthesis as attested by the rapid decrease in SQS activity and [(14)C]radioactivity from acetate incorporated into sterols. A parallel dose-dependent accumulation of farnesol, the dephosphorylated form of the SQS substrate, was observed without affecting farnesyl diphosphate synthase steady-state mRNA levels. Treatment of tobacco cells with terbinafine is also shown to inhibit sterol synthesis. In addition, this inhibitor induced an impressive accumulation of squalene and a dose-dependent stimulation of the triacylglycerol content and synthesis, suggesting the occurrence of regulatory relationships between sterol and triacylglycerol biosynthetic pathways. We demonstrate that squalene was stored in cytosolic lipid particles, but could be redirected toward sterol synthesis if required. Inhibition of either SQS or squalene epoxidase was found to trigger a severalfold increase in enzyme activity of 3-hydroxy-3-methylglutaryl coenzyme A reductase, giving first evidence for a positive feedback regulation of this key enzyme in response to a selective depletion of endogenous sterols. At the same time, no compensatory responses mediated by SQS were observed, in sharp contrast to the situation in mammalian cells.

Published

2002

60. Inhibition of the sterol pathway in leek seedlings impairs phosphatidylserine and glucosylceramide synthesis but triggers an accumulation of triacylglycerols.

Author

Hartmann MA, Perret AM, Carde JP, Cassagne C, and Moreau P

Subjects

Allium drug effects, Cell Membrane drug effects, Cell Membrane metabolism, Enzyme Inhibitors pharmacology, Fatty Acids metabolism, Lipid Metabolism, Lipids chemistry, Morpholines pharmacology, Phytosterols metabolism, Plant Roots drug effects, Plant Roots ultrastructure, Seeds drug effects, Triterpenes, Allium metabolism, Glucosylceramides biosynthesis, Phosphatidylserines biosynthesis, Seeds metabolism, Sterols metabolism, Triglycerides metabolism

Abstract

Like most higher plants, leek seedlings (Allium porrum L.) contain a mixture of Delta(5)-sterols in which sitosterol largely predominates. As previously reported (Plant Physiol., 117 (1998) 931), these compounds, which are synthesized at the endoplasmic reticulum level, were shown to be actively transported to the plasma membrane via a membrane-mediated process, together with phosphatidylserine (PS). In the present work, leek seedlings were allowed to germinate for 7 days in the presence of fenpropimorph, a sterol biosynthesis inhibitor. Such a treatment was found to trigger an almost complete replacement of the usual sterols by 9beta,19-cyclopropylsterols (mainly cycloeucalenol and 29-norcycloartenol). Extensive lipid analyses and labeling experiments with sodium [14C]acetate were performed to examine potential changes in the content and the rate of synthesis of the other lipid molecular species. The results indicate that the inhibition of the sterol pathway was accompanied by a severe decrease in PS and glucosylceramide synthesis as well as by a redirection of fatty acids toward the storage triacylglycerol pathway. Triacyglycerols are shown to accumulate concomitantly with a significant increase in intracellular lipid droplets in both aerial parts and roots of leek seedlings. Taken together, the present data emphasize that a coordinated regulation of the biosynthetic pathways of sterols and some specific lipid molecular species could take place during plant membrane biogenesis.

Published

2002

61. Sterol biosynthesis by the arbuscular mycorrhizal fungus Glomus intraradices.

Author

Fontaine J, Grandmougin-Ferjani A, Hartmann MA, and Sancholle M

Subjects

Cholesterol Esters biosynthesis, Cholesterol Esters chemistry, Daucus carota microbiology, Esterification, Plant Roots microbiology, Sterols chemistry, Symbiosis, Fungi metabolism, Sterols biosynthesis

Abstract

Ri-T-DNA-transformed carrot roots were used for investigating sterol metabolism by the arbuscular mycorrhizal (AM) fungus Glomus intraradices under three distinct experimental conditions: (i) a symbiotic stage (fungus still attached to the host roots); (ii) a detached stage (fungus physically separated from the roots); and (iii) a germinating stage (germinating spores). In all three stages, G. intraradices was found to contain a mixture of 24-alkylated sterols, with 24-methyl and 24-ethyl cholesterol as the main compounds, but no ergosterol, the predominant sterol in most fungi. Feeding experiments with [1-14C]sodium acetate were performed to check the ability of the fungus to synthesize sterols. Whatever the experimental conditions, G. intraradices was able to actively take up exogenous acetate and to incorporate it into sterols and their precursors. Our data provide first evidence for de novo sterol synthesis by an AM fungus.

Published

2001

62. Metabolism of farnesyl diphosphate in tobacco BY-2 cells treated with squalestatin.

Author

Hartmann MA, Wentzinger L, Hemmerlin A, and Bach TJ

Subjects

Aphidicolin pharmacology, Carbon Radioisotopes, Cell Cycle drug effects, Cell Division drug effects, Cell Line, Coenzymes, Farnesol metabolism, G1 Phase, Hydroxymethylglutaryl CoA Reductases genetics, Hydroxymethylglutaryl CoA Reductases metabolism, Mitochondria metabolism, Radioisotope Dilution Technique, Sesquiterpenes, Sodium Acetate metabolism, Sterols biosynthesis, Nicotiana cytology, Nicotiana drug effects, Transcription, Genetic drug effects, Ubiquinone analogs & derivatives, Ubiquinone biosynthesis, Bridged Bicyclo Compounds, Heterocyclic pharmacology, Farnesyl-Diphosphate Farnesyltransferase antagonists & inhibitors, Plants, Toxic, Polyisoprenyl Phosphates metabolism, Nicotiana metabolism, Tricarboxylic Acids pharmacology

Abstract

Plant isoprenoids represent a large group of compounds with a wide range of physiological functions. In the cytosol, isoprenoids are synthesized via the classical acetate/mevalonate pathway. In this pathway, farnesyl diphosphate (FPP) occupies a central position, from which isoprene units are dispatched to the different classes of isoprenoids, with sterols as the major end products. The present work deals with effects of squalestatin (SQ) on the metabolism of FPP in proliferating and synchronized cultured tobacco cv. Bright Yellow-2 cells. SQ is a potent inhibitor of squalene synthase (SQS), the first committed enzyme in the sterol pathway. At nanomolar concentrations, SQ severely impaired cell growth and sterol biosynthesis, as attested by the rapid decrease in SQS activity. At the same time, it triggered a several-fold increase in both the enzymic activity and mRNA levels of 3-hydroxy-3-methylglutaryl CoA reductase. When SQ was added to cells synchronized by aphidicolin treatment, it was found to block the cell cycle at the end of G(1) phase, but no cell death was induced. Tobacco cells were also fed exogenous tritiated trans-trans farnesol, the allylic alcohol derived from FPP, in the presence and absence of SQ. Evidence is presented that this compound was incorporated into sterols and ubiquinone Q(10). In the presence of SQ, the sterol pathway was inhibited, but no increase in the radioactivity of ubiquinone was observed, suggesting that this metabolic channel was already saturated under normal conditions.

Published

2000

63. Transport of sterols to the plasma membrane of leek seedlings

Author

Moreau P, Hartmann MA, Perret AM, Sturbois-Balcerzak B, and Cassagne C

Abstract

To investigate the intracellular transport of sterols in etiolated leek (Allium porrum L.) seedlings, in vivo pulse-chase experiments with [1-14C]acetate were performed. Then, endoplasmic reticulum-, Golgi-, and plasma membrane (PM)-enriched fractions were prepared and analyzed for the radioactivity incorporated into free sterols. In leek seedlings sterols are present as a mixture in which (24R)-24-ethylcholest-5-en-3beta-ol is by far the major compound (around 60%). The other sterols are represented by cholest-5-en-3beta-ol, 24-methyl-cholest-5-en-3beta-ol, (24S)-24-ethylcholesta-5,22E-dien-3beta-ol, and stigmasta-5, 24(24(1))Z-dien-3beta-ol. These compounds are shown to reside mainly in the PM. Our results clearly indicate that free sterols are actively transported from the endoplasmic reticulum to the PM during the first 60 min of chase, with kinetics very similar to that of phosphatidylserine. Such a transport was found to be decreased at low temperature (12 degreesC) and following treatment with monensin and brefeldin A. These data are consistent with a membrane-mediated process for the intracellular transport of sterols to the PM, which likely involves the Golgi apparatus.

Published

1998

64. Sterol Modulation of the Plasma Membrane H+-ATPase Activity from Corn Roots Reconstituted into Soybean Lipids.

Author

Grandmougin-Ferjani A, Schuler-Muller I, and Hartmann MA

Abstract

A partially purified H+-ATPase from the plasma membrane (PM) of corn (Zea mays L.) roots was inserted into vesicles prepared with soybean (Glycine max L.) phospholipids and various concentrations of individual sterols using either a freeze-thaw sonication or an octylglucoside dilution procedure. Both methods yielded a functional enzyme that retained its native characteristics. We have investigated the effects of typical plant sterols (i.e. sitosterol, stigmasterol, and 24-methylcholesterol) on both ATP hydrolysis and H+ pumping by the reconstituted corn root PM ATPase. We have also checked the influence of cholesterol and of two unusual sterols, 24-methylpollinastanol and 14[alpha],24-dimethylcholest-8-en-3[beta]-ol. Here we present evidence for a sterol modulation of the plant PM H+-ATPase activity. In particular, cholesterol and stigmasterol were found to stimulate the pump, especially when present at 5 mol%, whereas all of the other sterols tested behaved as inhibitors at any concentration in proteoliposomes. In all situations H+ pumping was shown to be more sensitive to a sterol environment than was ATP hydrolysis. Our results suggest the occurrence of binding sites for sterols on the plant PM H+-ATPase.

Published

1997

65. Sterol composition of phaeodactylum tricornutum as influenced by growth temperature and light spectral quality.

Author

Véron B, Billard C, Dauguet JC, and Hartmann MA

Subjects

Eukaryota growth & development, Eukaryota radiation effects, Temperature, Eukaryota chemistry, Light, Sterols analysis

Abstract

In a detailed sterol analysis of the marine diatom Phaeodactylum tricornutum, free sterols as well as esterified and glycosylated conjugates were found. When the alga was grown under standard conditions (i.e., at 13 degrees C under white light), 64% of total sterols were steryl glycosides. In all sterol classes, except steryl esters, (24S)-24-methylcholesta-5,22E-dien-3 beta-ol (epibrassicasterol) was the major (80 to 99%) sterol component. Eight other sterols were identified. Growth under different light spectral quality (red, blue, yellow, and green) at 13 and 23 degrees C was examined. At 23 degrees C, a dramatic decrease in total sterol content was observed, especially under blue light. The distribution of sterols between free and conjugated forms as well as sterol profile inside each class was found to be strongly dependent on the light spectral quality at both temperatures.

Published

1996

66. Changes in plasma membrane fluidity of Bryonia dioica internodes during thigmomorphogenesis.

Author

Mathieu C, Motta C, Hartmann MA, Thonat C, and Boyer N

Subjects

Cell Membrane chemistry, Cell Membrane physiology, Diphenylhexatriene, Fatty Acids analysis, Fluorescence Polarization, Membrane Lipids analysis, Morphogenesis, Phospholipids analysis, Physical Stimulation, Plant Physiological Phenomena, Sterols analysis, Membrane Fluidity physiology, Membrane Lipids physiology, Plants ultrastructure

Abstract

Fluidity changes in plasma membrane (PM) lipid extracts or native membranes isolated from Bryonia dioica internodes after a mechanical stimulation were monitored by steady-state fluorescence polarization with 1,6-diphenyl-1,3,5-hexatriene as a probe. The signal was shown to rapidly induce an increase in the bulk lipid fluidity. This event was closely related to a relative enrichment in some phospholipid species (PC, PG and PS) as well as a significant increase in the unsaturation index of total fatty acyl chains. Free sterols and protein content did not appear to be involved into this process. After 48 h, lipids from rubbed internodes became less fluid than PM lipids from control internodes.

Published

1995

67. Soybean phosphatidylcholine vesicles containing plant sterols: a fluorescence anisotropy study.

Author

Schuler I, Duportail G, Glasser N, Benveniste P, and Hartmann MA

Subjects

Cholesterol analogs & derivatives, Cholesterol pharmacology, Fluorescence Polarization, Liposomes, Sitosterols pharmacology, Solubility, Glycine max, Stigmasterol pharmacology, Fluorescent Dyes, Lipid Bilayers metabolism, Membrane Fluidity drug effects, Phosphatidylcholines, Phytosterols pharmacology

Abstract

The typical plant sterols (sitosterol, stigmasterol and campesterol) were compared with respect to their ability to regulate membrane fluidity of soybean phosphatidylcholine (PC) vesicles. Fluidity changes were monitored by the steady-state fluorescence anisotropy with 1,6-diphenyl-1,3,5-hexatriene as a probe and assigned to a measure of the acyl chain orientational order. Sitosterol and campesterol appear to be the most suitable sterols in ordering the acyl chains of soybean lecithin bilayers, even more efficient than cholesterol, the standard of reference for sterol effects on membranes, suggesting that they play a significant role in the regulation of plant membrane properties. Stigmasterol is shown to be much less active. Cycloartenol, a biosynthetic precursor of plant sterols, increases the acyl chain order with the same efficiency as cholesterol. We also investigated the effects of two unusual sterols, 24-methylpollinastanol and 14 alpha,24-dimethylcholest-8-en-3 beta-ol, which were shown to accumulate in plants treated with fungicides belonging to two important classes, N-substituted morpholines and triazoles, respectively. These two sterols exhibit a behavior very similar to that of stigmasterol. The results are discussed in terms of sterol effects on the molecular packing of soybean PC bilayers.

Published

1990

68. Sterol methylation in Saccharomyces cerevisiae.

Author

McCammon MT, Hartmann MA, Bottema CD, and Parks LW

Subjects

Alleles, Chromosome Mapping, Genotype, Methylation, Methyltransferases metabolism, Mutation, Saccharomyces cerevisiae enzymology, Species Specificity, Sterols metabolism, Genes, Genes, Fungal, Methyltransferases genetics, Saccharomyces cerevisiae genetics

Abstract

Various nystatin-resistant mutants defective in S-adenosylmethionine: delta 24-sterol-C-methyltransferase (EC 2.1.1.41) were shown to possess alleles of the same gene, erg6. The genetic map location of erg6 was shown to be close to trp1 on chromosome 4. Despite the single locus for erg6, S-adenosylmethionine: delta 24-sterol-C-methyltransferase enzyme activity was found in three separate fractions: mitochondria, microsomes, and the "floating lipid layer." The amount of activity in each fraction could be manipulated by assay conditions. The lipids and lipid synthesis of mutants of Saccharomyces cerevisiae defective in the delta 24-sterol-C-methyltransferase were compared with a C5(6) desaturase mutant and parental wild types. No ergosterol (C28 sterol) could be detected in whole-cell sterol extracts of the erg6 mutants, the limits of detection being less than 10(-11) mol of ergosterol per 10(8) cells. The distribution of accumulated sterols by these mutants varied with growth phase and between free and esterified fractions. The steryl ester concentrations of the mutants were eight times higher than those of the wild type from exponential growth samples. However, the concentration of the ester accumulated by the mutants was not as great in stationary-phase cells. Whereas the head group phospholipid composition was the same between parental and mutant strains, strain-dependent changes in fatty acids were observed, most notably a 40% increase in the oleic acid content of phosphatidylethanolamine of one erg6 mutant, JR5.

Published

1984

69. Cyclopropyl sterol and phospholipid composition of membrane fractions from maize roots treated with fenpropimorph.

Author

Grandmougin A, Bouvier-Navé P, Ullmann P, Benveniste P, and Hartmann MA

Abstract

Maize (Zea mays L.) caryopses were grown in the presence of fenpropimorph, a systemic fungicide, for 7 days in the dark. Membrane fractions enriched, respectively, in endoplasmic reticulum, plasma membrane, and mitochondria were isolated from control and treated maize roots and analyzed for their free sterol, phospholipid, and fatty acid composition. In treated plants, the intracellular distribution of free sterols was dramatically modified both qualitatively and quantitatively. The normally occurring Delta(5)-sterols disappeared almost completely and were replaced by 9beta, 19-cyclopropyl sterols, mainly cycloeucalenol and 24-methyl pollinastanol. These new compounds were found to accumulate in all the membrane fractions in such a way that the endoplasmic reticulum-rich fraction became the richest one in free sterols instead of the plasma membrane. In contrast, the fenpropimorph treatment of maize roots was shown not to affect either the relative proportions or the amounts of the individual phospholipids, but an increase in the unsaturation index of phospholipid-fatty acyl chains of the endoplasmic reticulum-rich fraction was observed. The present data suggest that, in higher plant membranes, cyclopropyl sterols could play a structural role similar to that of the bulk of Delta(5)-sterols.

Published

1989

70. Interaction of the polyene antibiotic filipin with model and natural membranes containing plant sterols.

Author

Milhaud J, Bolard J, Benveniste P, and Hartmann MA

Subjects

Cell Membrane metabolism, Cholestanols metabolism, Cholesterol analogs & derivatives, Cholesterol metabolism, Circular Dichroism, Sitosterols metabolism, Spectrophotometry, Ultraviolet, Stigmasterol metabolism, Zea mays, Filipin metabolism, Liposomes metabolism, Phytosterols metabolism, Plants metabolism, Polyenes metabolism

Abstract

The interaction of the polyene antibiotic, filipin, with individual or mixed plant sterols (stigmasterol, sitosterol, campesterol and 24-methylpollinastanol) incorporated into large unilamellar vesicles (LUV) of soybean phosphatidylcholine (PC) as well as the filipin interaction with purified membrane fractions from maize roots containing these sterols was investigated by ultraviolet (UV) absorption and and circular dichroism (CD) spectroscopy. With both types of membrane preparation, dramatic changes in the UV absorption and CD spectra of the antibiotic were evidenced. When LUV containing stigmasterol, sitosterol and/or campesterol were incubated with low filipin concentrations (i.e., for filipin/sterol molar ratios (rst) lower than 1), CD signal characteristic of the formation of filipin-sterol complexes were observed. At higher rst values, the filipin-sterol interaction was shown to be in competition with a filipin-phospholipid interaction. With 24-methylpollinastanol-containing LUV, the filipin-phospholipid interaction was detected even at rst values lower than 1, which suggests a lower affinity of filipin for this sterol and emphasizes the structural differences between delta 5-sterols and 9 beta,19-cyclopropylsterols. With sterol-free soybean PC LUV, a filipin-phospholipid interaction could also be evidenced. With maize root cell membranes containing either delta 5-sterols or 9 beta,19-cyclopropylsterols, CD spectra similar to those obtained in the presence of LUV having these sterols as components were observed. Thus, the protein component of the membranes does not appear to be an important feature.

Published

1988

71. Protective effects of rat splenic lymphocytes and peritoneal exudate cells on herpes simplex virus infection of rat dorsal root ganglia in culture.

Author

Hartmann MA and Ziegler RJ

Subjects

Animals, Ascitic Fluid cytology, Cells, Cultured, Fibroblasts pathology, Ganglia, Spinal pathology, Herpes Simplex immunology, Immunization, Neurons pathology, Rats, Simplexvirus immunology, Spleen cytology, Virus Replication, Ganglia, Spinal microbiology, Lymphocytes immunology, Simplexvirus growth & development

Abstract

An in vitro model system was developed to study the effects that immune cells might have on herpes simplex virus (HSV) infection of rat dorsal root ganglia in culture. Our results demonstrate that rat splenic lymphocytes and peritoneal exudate cells are incapable of replicating HSV even if these cells come from sensitized animals and are stimulated in vitro. Both cell preparations can offer some protection to rat dorsal root ganglia from the effects of HSV infection. The data suggest that an immunologically non-specific (not mediated by sensitized cells) type of protection is important to neurons, while an immunologically specific (mediated by sensitized cells) protection is most beneficial to fibroblasts. This system can be utilized to study the mechanism of latency since the neurons of sensory ganglia are the natural site of latent herpes virus.

Published

1979

72. Interaction of the polyene antibiotic amphotericin B with model membranes: differences between small and large unilamellar vesicles.

Author

Milhaud J, Hartmann MA, and Bolard J

Subjects

Binding, Competitive, Cholesterol physiology, Circular Dichroism methods, Dimyristoylphosphatidylcholine, Ergosterol physiology, Fluoresceins, Molecular Conformation, Permeability, Amphotericin B pharmacology, Membranes, Artificial

Abstract

The interaction of the polyene antibiotic amphotericin B (AmB) (Fig. 1) with large unilamellar vesicles (LUV) was monitored by circular dichroism (CD) and carboxyfluorescein (CF) release. LUV afford a far better model for biological membranes than small unilamellar vesicles (SUV) which have been used until now. With dimyristoyl phosphatidyl choline (DMPC) LUV (i.e., containing saturated acyl chains), a strong and not saturable binding for AmB/lipid ratios up to 0.5 was observed both above and below the phase transition temperature. Incorporation of cholesterol into the vesicles did not significantly change the interaction. With egg PC (EPC) LUV (i.e., containing unsaturated acyl chains), quite a different picture emerged: the binding reached saturation for AmB/lipid ratios of about 5 x 10(-3), a result not observed with EPC SUV. When sterols were introduced into membranes, the CD spectral features obtained in the presence of ergosterol were different from those obtained in the presence of cholesterol. Such a different behavior was not observed with SUV. We suggest that species whose CD spectrum was observed after 15 min in the presence of ergosterol-containing EPC LUV is the particular one which forms wide channels and induces a Ca2+ release. (H. Ramos, A. Attias, B.E. Cohen and J. Bolard, submitted for publication). The CF release from EPC LUV induced by AmB was very low, even at very high concentrations of the antibiotic (3 x 10(-4)M). In contrast, an important release of the fluorescent dye was observed with DMPC LUV at concentrations of approximately 10(-5)M.(ABSTRACT TRUNCATED AT 250 WORDS)

Published

1989