Your search keyword '"Mathieu Y"' showing total 179 results

151. Characterization of a new aryl-alcohol oxidase secreted by the phytopathogenic fungus Ustilago maydis.

Author

Couturier M, Mathieu Y, Li A, Navarro D, Drula E, Haon M, Grisel S, Ludwig R, and Berrin JG

Subjects

2,6-Dichloroindophenol metabolism, Benzoquinones metabolism, Biomass, Electron Transport, Oxygen metabolism, Phylogeny, Pichia genetics, Recombinant Proteins genetics, Recombinant Proteins metabolism, Ustilago metabolism, Alcohol Oxidoreductases genetics, Alcohol Oxidoreductases metabolism, Lignin metabolism, Ustilago enzymology

Abstract

The discovery of novel fungal lignocellulolytic enzymes is essential to improve the breakdown of plant biomass for the production of second-generation biofuels or biobased materials in green biorefineries. We previously reported that Ustilago maydis grown on maize secreted a diverse set of lignocellulose-acting enzymes including hemicellulases and putative oxidoreductases. One of the most abundant proteins of the secretome was a putative glucose-methanol-choline (GMC) oxidoreductase. The phylogenetic prediction of its function was hampered by the few characterized members within its clade. Therefore, we cloned the gene and produced the recombinant protein to high yield in Pichia pastoris. Functional screening using a library of substrates revealed that this enzyme was able to oxidize several aromatic alcohols. Of the tested aryl-alcohols, the highest oxidation rate was obtained with 4-anisyl alcohol. Oxygen, 1,4-benzoquinone, and 2,6-dichloroindophenol can serve as electron acceptors. This GMC oxidoreductase displays the characteristics of an aryl-alcohol oxidase (E.C.1.1.3.7), which is suggested to act on the lignin fraction in biomass.

Published

2016

152. Comparing targeted exome and whole exome approaches for genetic diagnosis of neuromuscular disorders.

Author

Gorokhova S, Cerino M, Mathieu Y, Courrier S, Desvignes JP, Salgado D, Béroud C, Krahn M, and Bartoli M

Abstract

Massively parallel sequencing is rapidly becoming a widely used method in genetic diagnostics. However, there is still no clear consensus as to which approach can most efficiently identify the pathogenic mutations carried by a given patient, while avoiding false negative and false positive results. We developed a targeted exome approach (MyoPanel2) in order to optimize genetic diagnosis of neuromuscular disorders. Using this approach, we were able to analyse 306 genes known to be mutated in myopathies as well as in related disorders, obtaining 98.8% target sequence coverage at 20 ×. Moreover, MyoPanel2 was able to detect 99.7% of 11,467 known mutations responsible for neuromuscular disorders. We have then used several quality control parameters to compare performance of the targeted exome approach with that of whole exome sequencing. The results of this pilot study of 140 DNA samples suggest that targeted exome sequencing approach is an efficient genetic diagnostic test for most neuromuscular diseases.

Published

2015

153. Exon 32 Skipping of Dysferlin Rescues Membrane Repair in Patients' Cells.

Author

Barthélémy F, Blouin C, Wein N, Mouly V, Courrier S, Dionnet E, Kergourlay V, Mathieu Y, Garcia L, Butler-Browne G, Lamaze C, Lévy N, Krahn M, and Bartoli M

Abstract

Dysferlinopathies are a family of disabling muscular dystrophies with LGMD2B and Miyoshi myopathy as the main phenotypes. They are associated with molecular defects in DYSF, which encodes dysferlin, a key player in sarcolemmal homeostasis. Previous investigations have suggested that exon skipping may be a promising therapy for a subset of patients with dysferlinopathies. Such an approach aims to rescue functional proteins when targeting modular proteins and specific tissues.We sought to evaluate the dysferlin functional recovery following exon 32 skipping in the cells of affected patients. Exon skipping efficacy was characterized at several levels by use of in vitro myotube formation assays and quantitative membrane repair and recovery tests. Data obtained from these assessments confirmed that dysferlin function is rescued by quasi-dysferlin expression in treated patient cells, supporting the case for a therapeutic antisense-based trial in a subset of dysferlin-deficient patients.

Published

2015

154. A novel glucose dehydrogenase from the white-rot fungus Pycnoporus cinnabarinus: production in Aspergillus niger and physicochemical characterization of the recombinant enzyme.

Author

Piumi F, Levasseur A, Navarro D, Zhou S, Mathieu Y, Ropartz D, Ludwig R, Faulds CB, and Record E

Subjects

Amino Acid Sequence, Aspergillus niger genetics, Aspergillus niger metabolism, Chromatography, Affinity, DNA, Fungal chemistry, DNA, Fungal genetics, Enzyme Stability, Gene Expression, Glucose metabolism, Glucose 1-Dehydrogenase chemistry, Glucose 1-Dehydrogenase genetics, Hydrogen-Ion Concentration, Models, Molecular, Molecular Sequence Data, Molecular Weight, Oxidation-Reduction, Protein Multimerization, Quinones metabolism, Recombinant Proteins chemistry, Recombinant Proteins genetics, Recombinant Proteins isolation & purification, Recombinant Proteins metabolism, Sequence Alignment, Sequence Analysis, DNA, Substrate Specificity, Temperature, Chemical Phenomena, Glucose 1-Dehydrogenase isolation & purification, Glucose 1-Dehydrogenase metabolism, Pycnoporus enzymology

Abstract

Data on glucose dehydrogenases (GDHs) are scarce and availability of these enzymes for application purposes is limited. This paper describes a new GDH from the fungus Pycnoporus cinnabarinus CIRM BRFM 137 that is the first reported GDH from a white-rot fungus belonging to the Basidiomycota. The enzyme was recombinantly produced in Aspergillus niger, a well-known fungal host producing an array of homologous or heterologous enzymes for industrial applications. The full-length gene that encodes GDH from P. cinnabarinus (PcGDH) consists of 2,425 bp and codes for a deduced protein of 620 amino acids with a calculated molecular mass of 62.5 kDa. The corresponding complementary DNA was cloned and placed under the control of the strong and constitutive glyceraldehyde-3-phosphate dehydrogenase promoter. The signal peptide of the glucoamylase prepro sequence of A. niger was used to target PcGDH secretion into the culture medium, achieving a yield of 640 mg L(-1), which is tenfold higher than any other reported value. The recombinant PcGDH was purified twofold to homogeneity in a one-step procedure with a 41 % recovery using a Ni Sepharose column. The identity of the recombinant protein was further confirmed by immunodetection using western blot analysis and N-terminal sequencing. The molecular mass of the native PcGDH was 130 kDa, suggesting a homodimeric form. Optimal pH and temperature were found to be similar (5.5 and 60 °C, respectively) to those determined for the previously characterized GDH, i.e., from Glomerella cingulata. However PcGDH exhibits a lower catalytic efficiency of 67 M(-1) s(-1) toward glucose. This substrate is by far the preferred substrate, which constitutes an advantage over other sugar oxidases in the case of blood glucose monitoring. The substrate-binding domain of PcGDH turns out to be conserved as compared to other glucose-methanol-choline (GMCs) oxidoreductases. In addition, the ability of PcGDH to reduce oxidized quinones or radical intermediates was clearly demonstrated, which raises prospects for applying this enzyme to detoxify toxic compounds formed during the degradation of lignin.

Published

2014

155. Diversification of fungal specific class a glutathione transferases in saprotrophic fungi.

Author

Mathieu Y, Prosper P, Favier F, Harvengt L, Didierjean C, Jacquot JP, Morel-Rouhier M, and Gelhaye E

Subjects

Amino Acid Sequence, Base Sequence, Cloning, Molecular, Crystallization, DNA Primers, Glutathione Transferase chemistry, Glutathione Transferase genetics, Models, Molecular, Molecular Sequence Data, Sequence Homology, Amino Acid, Spectrometry, Fluorescence, Coprinus enzymology, Glutathione Transferase metabolism, Phanerochaete enzymology

Abstract

Glutathione transferases (GSTs) form a superfamily of multifunctional proteins with essential roles in cellular detoxification processes and endogenous metabolism. The distribution of fungal-specific class A GSTs was investigated in saprotrophic fungi revealing a recent diversification within this class. Biochemical characterization of eight GSTFuA isoforms from Phanerochaete chrysosporium and Coprinus cinereus demonstrated functional diversity in saprotrophic fungi. The three-dimensional structures of three P. chrysosporium isoforms feature structural differences explaining the functional diversity of these enzymes. Competition experiments between fluorescent probes, and various molecules, showed that these GSTs function as ligandins with various small aromatic compounds, derived from lignin degradation or not, at a L-site overlapping the glutathione binding pocket. By combining genomic data with structural and biochemical determinations, we propose that this class of GST has evolved in response to environmental constraints induced by wood chemistry.

Published

2013

156. Defective prolactin signaling impairs pancreatic β-cell development during the perinatal period.

Author

Auffret J, Freemark M, Carré N, Mathieu Y, Tourrel-Cuzin C, Lombès M, Movassat J, and Binart N

Subjects

Animals, Animals, Newborn, Cell Differentiation, Cells, Cultured, Embryo, Mammalian, Female, Insulin-Secreting Cells cytology, Insulin-Secreting Cells drug effects, Mice, Mice, Knockout, Pancreas drug effects, Pancreas growth & development, Pregnancy, Prolactin pharmacology, Rats, Rats, Wistar, Receptors, Prolactin genetics, Signal Transduction drug effects, Signal Transduction physiology, Insulin-Secreting Cells physiology, Pancreas embryology, Prolactin metabolism, Receptors, Prolactin metabolism

Abstract

Prolactin (PRL) and placental lactogens stimulate β-cell replication and insulin production in pancreatic islets and insulinoma cells through binding to the PRL receptor (PRLR). However, the contribution of PRLR signaling to β-cell ontogeny and function in perinatal life and the effects of the lactogens on adaptive islet growth are poorly understood. We provide evidence that expansion of β-cell mass during both embryogenesis and the postnatal period is impaired in the PRLR(-/-) mouse model. PRLR(-/-) newborns display a 30% reduction of β-cell mass, consistent with reduced proliferation index at E18.5. PRL stimulates leucine incorporation and S6 kinase phosphorylation in INS-1 cells, supporting a role for β-cell mTOR signaling in PRL action. Interestingly, a defect in the development of acini is also observed in absence of PRLR signaling, with a sharp decline in cellular size in both endocrine and exocrine compartments. Of note, a decrease in levels of IGF-II, a PRL target, in the Goto-Kakizaki (GK) rat, a spontaneous model of type 2 diabetes, is associated with a lack of PRL-mediated β-cell proliferation in embryonic pancreatic buds. Reduced pancreatic IGF-II expression in both rat and mouse models suggests that this factor may constitute a molecular link between PRL signaling and cell ontogenesis. Together, these results provide evidence that PRL signaling is essential for pancreas ontogenesis during the critical perinatal window responsible for establishing functional β-cell reserve.

Published

2013

157. Xenomic networks variability and adaptation traits in wood decaying fungi.

Author

Morel M, Meux E, Mathieu Y, Thuillier A, Chibani K, Harvengt L, Jacquot JP, and Gelhaye E

Subjects

Basidiomycota genetics, Basidiomycota metabolism, Basidiomycota physiology, Biodegradation, Environmental, Cytochrome P-450 Enzyme System genetics, Fungal Proteins genetics, Fungal Proteins metabolism, Genome, Fungal, Glutathione Transferase genetics, Wood metabolism, Xenobiotics metabolism, Adaptation, Physiological genetics, Basidiomycota enzymology, Cytochrome P-450 Enzyme System metabolism, Glutathione Transferase metabolism, Metabolic Networks and Pathways genetics, Wood chemistry, Wood microbiology

Abstract

Fungal degradation of wood is mainly restricted to basidiomycetes, these organisms having developed complex oxidative and hydrolytic enzymatic systems. Besides these systems, wood-decaying fungi possess intracellular networks allowing them to deal with the myriad of potential toxic compounds resulting at least in part from wood degradation but also more generally from recalcitrant organic matter degradation. The members of the detoxification pathways constitute the xenome. Generally, they belong to multigenic families such as the cytochrome P450 monooxygenases and the glutathione transferases. Taking advantage of the recent release of numerous genomes of basidiomycetes, we show here that these multigenic families are extended and functionally related in wood-decaying fungi. Furthermore, we postulate that these rapidly evolving multigenic families could reflect the adaptation of these fungi to the diversity of their substrate and provide keys to understand their ecology. This is of particular importance for white biotechnology, this xenome being a putative target for improving degradation properties of these fungi in biomass valorization purposes., (© 2013 The Authors. Published by Society for Applied Microbiology and Blackwell Publishing Ltd. This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.)

Published

2013

158. Selection and validation of enzymatic activities as functional markers in wood biotechnology and fungal ecology.

Author

Mathieu Y, Gelhaye E, Dumarçay S, Gérardin P, Harvengt L, and Buée M

Subjects

Biomarkers, Fungi metabolism, Enzymes analysis, Fungi classification, Fungi enzymology, Wood microbiology

Abstract

The dead wood and forest soils are sources of diversity and under-explored fungal strains with biotechnological potential, which require to be studied. Numerous enzymatic tests have been proposed to investigate the functional potential of the soil microbial communities or to test the functional abilities of fungal strains. Nevertheless, the diversity of these functional markers and their relevance in environmental studies or biotechnological screening does still have not been demonstrated. In this work, we assessed ten different extracellular enzymatic activities involved in the wood decaying process including β-etherase that specifically cleaves the β-aryl ether linkages in the lignin polymer. For this purpose, a collection of 26 fungal strains, distributed within three ecological groups (white, brown and soft rot fungi), has been used. Among the ten potential functional markers, the combinatorial use of only six of them allowed separation between the group of white and soft rot fungi from the brown rot fungi. Moreover, our results suggest that extracellular β-etherase is a rare and dispensable activity among the wood decay fungi. Finally, we propose that this set of markers could be useful for the analysis of fungal communities in functional and environmental studies, and for the selection of strains with biotechnological interests., (Copyright © 2012 Elsevier B.V. All rights reserved.)

Published

2013

159. Contributions of PHOX2B in the pathogenesis of Hirschsprung disease.

Author

Fernández RM, Mathieu Y, Luzón-Toro B, Núñez-Torres R, González-Meneses A, Antiñolo G, Amiel J, and Borrego S

Subjects

Case-Control Studies, Computational Biology, DNA Mutational Analysis, Female, Humans, Male, Hirschsprung Disease genetics, Hirschsprung Disease pathology, Homeodomain Proteins genetics, Transcription Factors genetics

Abstract

Hirschsprung disease (HSCR) is a congenital malformation of the hindgut resulting from a disruption of neural crest cell migration during embryonic development. It has a complex genetic aetiology with several genes involved in its pathogenesis. PHOX2B plays a key function in the development of neural crest derivatives, and heterozygous mutations cause a complex dysautonomia associating HSCR, Congenital Central Hypoventilation Syndrome (CCHS) and neuroblastoma (NB) in various combinations. In order to determine the role of PHOX2B in isolated HSCR, we performed a mutational screening in a cohort of 207 Spanish HSCR patients. Our most relevant finding has been the identification of a de novo and novel deletion (c.393_410del18) in a patient with HSCR. Results of in silico and functional assays support its pathogenic effect related to HSCR. Therefore our results support that PHOX2B loss-of-function is a rare cause of HSCR phenotype.

Published

2013

160. Characterization of a Phanerochaete chrysosporium glutathione transferase reveals a novel structural and functional class with ligandin properties.

Author

Mathieu Y, Prosper P, Buée M, Dumarçay S, Favier F, Gelhaye E, Gérardin P, Harvengt L, Jacquot JP, Lamant T, Meux E, Mathiot S, Didierjean C, and Morel M

Subjects

Anilino Naphthalenesulfonates pharmacology, Binding Sites, Binding, Competitive, Biotechnology methods, Cloning, Molecular, Crystallography, X-Ray methods, Glutathione chemistry, Lignin, Mass Spectrometry methods, Molecular Sequence Data, Protein Binding, Protein Conformation, Protein Isoforms, Recombinant Proteins chemistry, Glutathione Transferase chemistry, Glutathione Transferase metabolism, Phanerochaete metabolism

Abstract

Glutathione S-transferases (GSTs) form a superfamily of multifunctional proteins with essential roles in cellular detoxification processes. A new fungal specific class of GST has been highlighted by genomic approaches. The biochemical and structural characterization of one isoform of this class in Phanerochaete chrysosporium revealed original properties. The three-dimensional structure showed a new dimerization mode and specific features by comparison with the canonical GST structure. An additional β-hairpin motif in the N-terminal domain prevents the formation of the regular GST dimer and acts as a lid, which closes upon glutathione binding. Moreover, this isoform is the first described GST that contains all secondary structural elements, including helix α4' in the C-terminal domain, of the presumed common ancestor of cytosolic GSTs (i.e. glutaredoxin 2). A sulfate binding site has been identified close to the glutathione binding site and allows the binding of 8-anilino-1-naphtalene sulfonic acid. Competition experiments between 8-anilino-1-naphtalene sulfonic acid, which has fluorescent properties, and various molecules showed that this GST binds glutathionylated and sulfated compounds but also wood extractive molecules, such as vanillin, chloronitrobenzoic acid, hydroxyacetophenone, catechins, and aldehydes, in the glutathione pocket. This enzyme could thus function as a classical GST through the addition of glutathione mainly to phenethyl isothiocyanate, but alternatively and in a competitive way, it could also act as a ligandin of wood extractive compounds. These new structural and functional properties lead us to propose that this GST belongs to a new class that we name GSTFuA, for fungal specific GST class A.

Published

2012

161. R-type anion channel activation is an essential step for ROS-dependent innate immune response in Arabidopsis suspension cells.

Author

Colcombet J, Mathieu Y, Peyronnet R, Agier N, Lelièvre F, Barbier-Brygoo H, and Frachisse JM

Abstract

Plants are constantly exposed to environmental biotic and abiotic stresses. Plants cells perceive these factors and trigger early responses followed by delayed and complex adaptation processes. Using cell suspensions of Arabidopsis thaliana (L.) as a cellular model, we investigated the role of plasma membrane anion channels in Reactive Oxygen Species (ROS) production and in cell death which occurs during non-host pathogen infection. Protoplasts derived from Arabidopsis suspension cells display two anion currents with characteristics very similar to those of the slow nitrate-permeable (S-type) and rapid sulfate-permeable (R-type) channels previously characterised in hypocotyl cells and other cell types. Using seven inhibitors, we showed that the R-type channel and ROS formation in cell cultures present similar pharmacological profiles. The efficiency of anion channel blockers to inhibit ROS production was independent of the nature of the triggering signal (osmotic stress or general elicitors of plant defence), indicating that the R-type channel represents a crossroad in the signalling pathways leading to ROS production. In a second step, we show that treatment with R-type channel blockers accelerates cell death triggered by the non-specific plant pathogen Xanthomonas campestris. Finally, we discuss the hypothesis that the R-type channel is involved in innate immune response allowing cell defence via antibacterial ROS production.

Published

2009

162. Mutational, functional, and expression studies of the TCF4 gene in Pitt-Hopkins syndrome.

Author

de Pontual L, Mathieu Y, Golzio C, Rio M, Malan V, Boddaert N, Soufflet C, Picard C, Durandy A, Dobbie A, Heron D, Isidor B, Motte J, Newburry-Ecob R, Pasquier L, Tardieu M, Viot G, Jaubert F, Munnich A, Colleaux L, Vekemans M, Etchevers H, Lyonnet S, and Amiel J

Subjects

Abnormalities, Multiple pathology, Abnormalities, Multiple physiopathology, Adolescent, Adult, Basic Helix-Loop-Helix Leucine Zipper Transcription Factors, Child, Child, Preschool, DNA-Binding Proteins chemistry, DNA-Binding Proteins physiology, Dimerization, Electroencephalography, Female, Gene Expression Regulation, Developmental, HeLa Cells, Humans, Hyperventilation pathology, Immunohistochemistry, In Situ Hybridization, Infant, Intellectual Disability pathology, Luciferases genetics, Luciferases metabolism, Magnetic Resonance Imaging, Male, Reverse Transcriptase Polymerase Chain Reaction, Syndrome, Transcription Factor 4, Transcription Factors chemistry, Transcription Factors physiology, Young Adult, Abnormalities, Multiple genetics, DNA-Binding Proteins genetics, Gene Expression Profiling, Mutation, Transcription Factors genetics

Abstract

Pitt-Hopkins syndrome is a severe congenital encephalopathy recently ascribed to de novo heterozygous TCF4 gene mutations. We report a series of 13 novel PHS cases with a TCF4 mutation and show that EEG, brain magnetic resonance imagain (MRI), and immunological investigations provide valuable additional clues to the diagnosis. We confirm a mutational hot spot in the basic domain of the E-protein. Functional studies illustrate that heterodimerisation of mutant TCF4 proteins with a tissue-specific transcription factor is less effective than that homodimerisation in a luciferase reporter assay. We also show that the TCF4 expression pattern in human embryonic development is widespread but not ubiquitous. In summary, we further delineate an underdiagnosed mental retardation syndrome, highlighting TCF4 function during development and facilitating diagnosis within the first year of life., ((c) 2009 Wiley-Liss, Inc.)

Published

2009

163. In Vitro studies of non poly alanine PHOX2B mutations argue against a loss-of-function mechanism for congenital central hypoventilation.

Author

Trochet D, Mathieu Y, Pontual Ld, Savarirayan R, Munnich A, Brunet JF, Lyonnet S, Goridis C, and Amiel J

Subjects

Amino Acid Sequence, Amino Acid Substitution, Base Sequence, Chromatography, Gel, Codon genetics, Codon, Nonsense, Frameshift Mutation, HeLa Cells, Homeodomain Proteins chemistry, Humans, Luciferases metabolism, Molecular Sequence Data, Mutant Proteins chemistry, Mutant Proteins genetics, Promoter Regions, Genetic genetics, Protein Multimerization, Protein Stability, Transcription Factors chemistry, Transcriptional Activation genetics, Homeodomain Proteins genetics, Hypoventilation congenital, Hypoventilation genetics, Mutation genetics, Peptides genetics, Transcription Factors genetics

Abstract

A wide range of autonomic dysfunctions, i.e. Central Hypoventilation Syndromes, Hirschsprung disease and Tumours of the Sympathetic Nervous System have been ascribed to heterozygous PHOX2B mutations in man. The PHOX2B mutations reported include polyalanine expansions in a 20 alanines tract, missense, frameshift mutations and nonsense mutation. Some genotype/phenotype correlations have been drawn, but the molecular mechanism(s) underlying them remain(s) unclear. So far, loss-of-function, gain-of-function and dominant negative effects have been proposed as disease-causing mechanisms for polyalanine expansions. Indeed, mutant with an expanded polyalanine tract result in decreased transactivation of known target genes and protein misfolding leading to oligomerisation in vitro for all expansions and to cytoplasmic protein aggregation for longer expansions. We extended the molecular studies to other non-polyalanine expansion mutations and show that most PHOX2B protein mutants oligomerize even in the absence of the normal 20 alanines tract. Conversely, a premature stop codon mutation in a CHS patient leads to the production of an N-terminally truncated protein by re-initiation of translation that does not form oligomers. Therefore, PHOX2B misfolding is not the only mechanism leading to dysfunction of the ventilatory autonomic system., ((c) 2008 Wiley-Liss, Inc.)

Published

2009

164. Homozygous mutation of the PHOX2B gene in congenital central hypoventilation syndrome (Ondine's Curse).

Author

Trochet D, de Pontual L, Estêvao MH, Mathieu Y, Munnich A, Feingold J, Goridis C, Lyonnet S, and Amiel J

Subjects

Alanine genetics, Alleles, Female, Genes, Dominant, Humans, Infant, Newborn, Male, Pedigree, Homeodomain Proteins genetics, Homozygote, Mutation, Sleep Apnea, Central genetics, Transcription Factors genetics

Abstract

Homozygosity for a dominant allele is relatively rare and preferentially observed in communities with high inbreeding. According to the definition of true dominance, similar phenotypes should be observed in patients heterozygous and homozygous for a dominant mutation. However, the homozygous phenotype usually tends to be more severe than the heterozygous one. In these cases, the wild-type and mutant alleles are semi-dominant. Here we report a patient with a Congenital Central Hypoventilation Syndrome (CCHS) phenotype and homozygosity for a PHOX2B gene mutation leading to an alanine expansion shorter than the threshold hitherto observed in CCHS patients with a heterozygous mutation. This observation adds the concept of mutational threshold per se to the discussion about dominant and recessive alleles.

Published

2008

165. Control of the morphology and particle size of boehmite nanoparticles synthesized under hydrothermal conditions.

Author

Mathieu Y, Lebeau B, and Valtchev V

Abstract

The spontaneous nucleation under hydrothermal conditions often leads to aggregation of crystallizing particles, which is an undesired phenomenon when the goal is the preparation of nanocrystals with narrow particle size distribution. The present paper reports on the synthesis of boehmite nanocrystals under hydrothermal conditions. An aqueous aluminum chloride salt solution was first prepared, and the pH was increased to 11 using a 5 M sodium hydroxide solution. The hydrothermal treatment was performed at 160 degrees C for different periods of time. The system yielded relatively small (15-40 nm) boehmite crystallites aggregated into larger (160 nm) particles. To avoid the aggregation, a biocompatible polymer, sodium polyacrylate (NaPa) 2100, was employed as a size-/morphology-controlling agent. Thus, stable colloidal suspensions of rounded boehmite nanoparticles having a size between 15 and 40 nm were obtained at 160 degrees C for 24 h. Further, the effect of synthesis time on the morphological features of boehmite synthesized in such a NaPa-containing system was investigated. The increase of the synthesis time from 24 to 168 h resulted in the formation of very long boehmite fibers (1000-2000 nm) with an average diameter of about 10 nm. The boehmite samples were characterized by XRD, DLS, TEM, IR, N2 adsorption, and zeta potential measurements. The colloidal stability of the obtained suspension was also studied.

Published

2007

166. Regulation of human telomerase activity: repression by normal chromosome 3 abolishes nuclear telomerase reverse transcriptase transcripts but does not affect c-Myc activity.

Author

Ducrest AL, Amacker M, Mathieu YD, Cuthbert AP, Trott DA, Newbold RF, Nabholz M, and Lingner J

Subjects

Breast Neoplasms enzymology, Breast Neoplasms genetics, Cell Cycle genetics, Cell Differentiation genetics, Cell Nucleus genetics, Cell Nucleus metabolism, DNA-Binding Proteins, Down-Regulation, Fibroblasts enzymology, Gene Expression Regulation, Neoplastic, Humans, Proto-Oncogene Proteins c-myc genetics, RNA Splicing, RNA, Messenger biosynthesis, RNA, Messenger genetics, RNA, Neoplasm genetics, RNA, Neoplasm metabolism, Telomerase biosynthesis, Telomerase genetics, Tumor Cells, Cultured, Chromosomes, Human, Pair 3 physiology, Gene Expression Regulation, Developmental, Proto-Oncogene Proteins c-myc physiology, RNA, Messenger antagonists & inhibitors, Telomerase antagonists & inhibitors, Telomerase metabolism

Abstract

Telomerase is required for the complete replication of chromosomal ends. In tumors, the human telomerase reverse transcriptase subunit (hTERT) is up-regulated, thereby removing a critical barrier for unlimited cell proliferation. To understand more about hTERT regulation, we measured hTERT RNA levels by quantitative reverse transcription (RT)-PCR. Telomerase-positive cell lines were found to contain between 0.2 and 6 molecules of spliced hTERT RNA per cell, whereas in telomerase-negative cells, the number of molecules was below the sensitivity of the assay (<0.004 molecules/cell). Intron-containing, immature hTERT RNA was observed only in nuclei of telomerase-positive cells, which suggests that hTERT RNA levels are transcriptionally regulated. Microcell transfer of a normal chromosome 3 into the human breast carcinoma cell line (21NT) abolishes telomerase activity and induces senescence. Endogenous hTERT transcripts were undetectable in the nuclei of 21NT-chromosome 3 hybrids, even in cells permanently expressing a transfected hTERT cDNA. However, chromosome 3 transfer did not affect the expression of green fluorescent protein reporter constructs driven by up to 7.4 kb of noncoding DNA flanking the 5' end of the hTERT gene. Because direct up-regulation of hTERT through c-Myc overexpression had previously been reported, we investigated whether chromosome 3 transfer affected c-Myc activity. An at least 30-fold reduction of immature intron-containing hTERT RNA was observed after the introduction of a normal chromosome 3, but expression levels of c-Myc, Mad1, and other c-Myc target genes were unchanged. Our results suggest that telomerase is regulated primarily at the level of hTERT transcription by complex mechanisms involving regulatory elements distant from the 5' flanking region, and that the putative hTERT repressor on chromosome 3 does not regulate the expression of hTERT through c-Myc or one of its coregulators.

Published

2001

167. Oxidative Burst and Hypoosmotic Stress in Tobacco Cell Suspensions

Author

Cazalé AC, Rouet-Mayer MA, Barbier-Brygoo H, Mathieu Y, and Laurière C

Abstract

Oxidative burst constitutes an early response in plant defense reactions toward pathogens, but active oxygen production may also be induced by other stimuli. The oxidative response of suspension-cultured tobacco (Nicotiana tabacum cv Xanthi) cells to hypoosmotic and mechanical stresses was characterized. The oxidase involved in the hypoosmotic stress response showed similarities by its NADPH dependence and its inhibition by iodonium diphenyl with the neutrophil NADPH oxidase. Activation of the oxidative response by hypoosmotic stress needed protein phosphorylation and anion effluxes, as well as opening of Ca2+ channels. Inhibition of the oxidative response impaired Cl- efflux, K+ efflux, and extracellular alkalinization, suggesting that the oxidative burst may play a role in ionic flux regulation. Active oxygen species also induced the cross-linking of a cell wall protein, homologous to a soybean (Glycine max L.) extensin, that may act as part of cell volume and turgor regulation through modification of the physical properties of the cell wall.

Published

1998

168. Identification of calreticulin-like protein as one of the phosphoproteins modulated in response to oligogalacturonides in tobacco cells.

Author

Droillard MJ, Güclü J, Le Caer JP, Mathieu Y, Guern J, and Laurière C

Subjects

Amino Acid Sequence, Calreticulin, Cell Fractionation, Cell Membrane, Molecular Sequence Data, Nicotiana cytology, Calcium-Binding Proteins metabolism, Oligosaccharides pharmacology, Phosphoproteins metabolism, Plant Proteins metabolism, Plants, Toxic, Ribonucleoproteins metabolism, Nicotiana metabolism

Abstract

Oligogalacturonide-induced modifications of protein phosphorylation in cells of Nicotiana tabacum L. were investigated by in-vitro phosphorylation of plasma-membrane-enriched fractions and electrophoretic analysis on two-dimensional gels. About 100 polypeptides were resolved; among these 40 phosphoproteins were detected and their 33P-labelling quantified. Most of the phosphorylations were inhibited by staurosporine and several proteins were hyperphosphorylated in the presence of okadaic acid, indicating the presence of protein phosphatase(s) in addition to staurosporine-susceptible protein kinase(s) in the plasma-membrane-enriched fraction. In the presence of oligogalacturonides, phosphorylation of seven acidic polypeptides ranging from 15 to 65 kDa was strongly enhanced. A twofold enhancement of the phosphorylation of 24-kDa protein and a two- to threefold decrease in the phosphorylation of acidic proteins of MrS 62, 65, 80 and 84 was also observed in response to oligogalacturonides. One of the oligogalacturonide-modulated phosphoproteins was identified as calreticulin by direct nucleotide sequencing after preparative two-dimensional electrophoresis and comparison with protein database sequences. Decreased phosphorylation of calreticulin was also observed in vivo, shortly after addition of oligogalacturonides to tobacco cells, confirming the biological relevance of the modification. Although the presence of calreticulin, an abundant reticuloplasmin with high calcium-binding capacity, has been reported in both mammalian and plant cells, its function is as yet largely unknown. Modulation of the phosphorylation of a plant calreticulin-like protein by oligogalacturonides is shown here, suggesting a role in the early transduction steps of this signal.

Published

1997

169. Cytosolic protons as secondary messengers in elicitor-induced defence responses.

Author

Mathieu Y, Jouanneau JP, Thomine S, Lapous D, and Guern J

Subjects

Cell Membrane drug effects, Cells, Cultured, Cytosol enzymology, Enzyme Activation, Hydrogen-Ion Concentration, Ion Transport, Methyltransferases metabolism, Phenylalanine Ammonia-Lyase metabolism, Phenylpropionates metabolism, Phytophthora physiology, Polysaccharide-Lyases pharmacology, Potassium metabolism, Nicotiana drug effects, Nicotiana enzymology, Nicotiana immunology, Uronic Acids pharmacology, Cell Membrane metabolism, Cytosol metabolism, Plants, Toxic, Protons, Second Messenger Systems, Nicotiana metabolism

Abstract

A variety of early elicitor-induced membrane responses have been described, and their possible role in the generation of second messengers involved in the cascades of events leading to the activation of defence genes is actively investigated. Treatment of tobacco cells with a crude elicitor preparation from Phytophthora megasperma, purified oligouronides and a commercial pectate lyase, induce a common set of membrane reactions similar to those described in a variety of plant material, i.e. efflux of K+, extracellular alkalinization, net Ca2+ uptake and membrane depolarization. In the same conditions the three elicitors stimulate the activity of phenylalanine ammonia-lyase (PAL) and O-diphenol methyltransferase (OMT), two enzymes of the phenylpropanoid pathway. A good correlation between the intensity of the membrane response and the extent of enzyme stimulation has been observed. Cytosolic acidifications have also been measured as a rapid response to the different elicitor preparations used. These results show that plant cells (which usually succeed in counteracting pH-perturbing processes associated with their metabolism, with the transport of solutes or with the effect of various factors from the environment) display significant variation in the concentration of cytosolic protons in specific physiological circumstances, such as the perception of signals inducing defence reactions. Direct evidence that these cytosolic pH changes could be interpreted by plant cells as messages involved in triggering defence responses is provided by experiments showing that artificial acidifications of the cytoplasm lead to a co-ordinated stimulation of PAL and OMT. These results stress the need to explore in more detail the role played by cytoplasmic mechanisms underlying those pH changes.

Published

1994

170. Membrane responses induced by oligogalacturonides in suspension-cultured tobacco cells.

Author

Mathieu Y, Armen K, Xia H, Guern J, Koller A, Spiro MD, O'Neill M, Albersheim P, and Darvill A

Published

1991

171. Regulation of Vacuolar pH of Plant Cells: I. Isolation and Properties of Vacuoles Suitable for P NMR Studies.

Author

Mathieu Y, Guern J, Kurkdjian A, Manigault P, Manigault J, Zielinska T, Gillet B, Beloeil JC, and Lallemand JY

Abstract

For the first time, the (31)P nuclear magnetic resonance technique has been used to study the properties of isolated vacuoles of plant cells, namely the vacuolar pH and the inorganic phosphate content. Catharanthus roseus cells incubated for 15 hours on a culture medium enriched with 10 millimolar inorganic phosphate accumulated large amounts of inorganic phosphate in their vacuoles. Vacuolar phosphate ions were largely retained in the vacuoles when protoplasts were prepared from the cells and vacuoles isolated from the protoplasts. Vacuolar inorganic phosphate concentrations up to 150 millimolar were routinely obtained. Suspensions prepared with 2 to 3 x 10(6) vacuoles per milliliter from the enriched C. roseus cells have an internal pH value of 5.50 +/- 0.06 and a mean trans-tonoplast DeltapH of 1.56 +/- 0.07. Reliable determinations of vacuolar and external pH could be made by using accumulation times as low as 2 minutes. These conditions are suitable to follow the kinetics of H(+) exchanges at the tonoplast. The (31)P nuclear magnetic resonance technique also offered the possibility of monitoring simultaneously the stability of the trans-tonoplast pH and phosphate gradients. Both appeared to be reasonably stable over several hours. The buffering capacity of the vacuolar sap around pH 5.5 has been estimated by several procedures to be 36 +/- 2 microequivalents per milliliter per pH unit. The increase of the buffering capacity due to the accumulation of phosphate in the vacuoles is, in large part, compensated by a decrease of the intravacuolar malate content.

Published

1989

172. A P Nuclear Magnetic Resonance Study of Intracellular pH of Plant Cells Cultivated in Liquid Medium.

Author

Martin JB, Bligny R, Rebeille F, Douce R, Leguay JJ, Mathieu Y, and Guern J

Abstract

(31)P nuclear magnetic resonance has been used to study the vacuolar and cytoplasmic pH of Acer pseudoplatanus, Catharanthus roseus, and Glycine max cells grown as cell suspensions. The adaptation of this technique to plant cells grown in liquid medium is described with emphasis on the removal of Mn(2+) and phosphate from the extracellular medium and on providing the O(2) supply of the cells in the nuclear magnetic resonance tube and the various problems of calibration. Aerobic and anaerobic cells show large differences in their glucose-6-phosphate, their cytoplasmic inorganic phosphate pools, and their cytoplasmic pH. Differences in the relative sizes of the cytoplasmic and vacuolar inorganic phosphate pools have been observed for the three cell strains studied.

Published

1982

173. Cytoplasmic pH Regulation in Acer pseudoplatanus Cells: I. A P NMR Description of Acid-Load Effects.

Author

Guern J, Mathieu Y, Pean M, Pasquier C, Beloeil JC, and Lallemand JY

Abstract

Modifications of cytoplasmic pH in Acer pseudoplatanus L. cells cultivated in suspension have been induced by acid-loads and studied by using (31)P nuclear magnetic resonance spectroscopy. The initial drop of cytoplasmic pH, observed in the first minutes of exposure to weak lipophilic acids, was followed by a slow recovery to reach a plateau phase with a pH value lower than the initial one. Conversely, removal of the acid led to a sharp increase of cytoplasmic pH with in most cases an overshoot toward more alkaline values than the initial one and a subsequent decrease to more acidic values. This shows that A. pseudoplatanus cells powerfully regulate their cytoplasmic pH both on the acid side of their normal pH, during the acid-load, and on the alkaline side, after removal of acid. Similar results were obtained with different types of acid-loads, i.e. treatments with propionic or benzoic acid or bubbling with CO(2)-enriched air. This indicates that the occurrence of pH regulation does not depend upon the method used to acid-load the cells. The time courses of cytoplasmic pH observed for A. pseudoplatanus and also Catharanthus roseus cells are similar to those recorded for animal cells but different from those described for other plant materials for which no recovery phase was observed. This can be explained by different balances between the initial rate of proton influx brought in by the acids, and the capacity of proton consumption by the regulatory mechanisms. The existence of the recovery phase offers a unique possibility to study the regulation of the cytoplasmic pH of plant cells, as it has been done in animal systems.

Published

1986

174. Cytoplasmic pH Regulation in Acer pseudoplatanus Cells: II. Possible Mechanisms Involved in pH Regulation during Acid-Load.

Author

Mathieu Y, Guern J, Pean M, Pasquier C, Beloeil JC, and Lallemand JY

Abstract

Qualitative and quantitative aspects of the mechanisms involved in the regulation of cytoplasmic pH during an acid-load have been studied in Acer pseudoplatanus cells. Two main processes, with about the same relative importance, account for the removal of H(+) from the cytoplasm, namely a ;metabolic consumption' of protons and the excretion of protons or proton-equivalents out of the cells. The metabolic component corresponds to a change in the equilibrium between malate synthesis and degradation leading to a 30% decrease of the malate content of the cells during the period of cytoplasmic pH regulation. Various conditions which severely inhibit the activity of the plasmalemma proton pump ATPase reduce, at most by 50%, the excretion of H(+). This suggests that, besides the plasmalemma proton-pump, other systems are involved in the excretion of proton-equivalents. Indirect information on qualitative and quantitative features of these systems is described, which suggests the involvement of Na(+) and HCO(3) (-) exchanges in the regulation of cytoplasmic pH of acid-loaded cells.

Published

1986

175. Regulation of Vacuolar pH of Plant Cells: II. A P NMR Study of the Modifications of Vacuolar pH in Isolated Vacuoles Induced by Proton Pumping and Cation/H Exchanges.

Author

Guern J, Mathieu Y, Kurkdjian A, Manigault P, Manigault J, Gillet B, Beloeil JC, and Lallemand JY

Abstract

The vacuolar pH and the trans-tonoplast DeltapH modifications induced by the activity of the two proton pumps H(+)-ATPase and H(+)-PPase and by the proton exchanges catalyzed by the Na(+)/H(+) and Ca(2+)/H(+) antiports at the tonoplast of isolated intact vacuoles prepared from Catharanthus roseus cells enriched in inorganic phosphate (Y Mathieu et al 1988 Plant Physiol [in press]) were measured using the (31)P NMR technique. The H(+)-ATPase induced an intravacuolar acidification as large as 0.8 pH unit, building a trans-tonoplast DeltapH up to 2.2 pH units. The hydrolysis of the phosphorylated substrate and the vacuolar acidification were monitored simultaneously to estimate kinetically the apparent stoichiometry between the vectorial proton pumping and the hydrolytic activity of the H(+)-ATPase. A ratio of H(+) translocated/ATP hydrolyzed of 1.97 +/- 0.06 (mean +/- standard error) was calculated. Pyrophosphate-treated vacuoles were also acidified to a significant extent. The H(+)-PPase at 2 millimolar PPi displayed hydrolytic and vectorial activities comparable to those of the H(+)-ATPase, building a steady state DeltapH of 2.1 pH units. Vacuoles incubated in the presence of 10 millimolar Na(+) were alkalinized by 0.4 to 0.8 pH unit. It has been shown by using (23)Na NMR that sodium uptake was coupled to the H(+) efflux and occurred against rather large concentration gradients. For the first time, the activity of the Ca(2+)/H(+) antiport has been measured on isolated intact vacuoles. Ca(2+) uptake was strongly inhibited by NH(4)Cl or gramicidin. Vacuoles incubated with 1 millimolar Ca(2+) were alkalinized by about 0.6 pH unit and this H(+) efflux was associated to a Ca(2+) uptake as demonstrated by measuring the external Ca(2+) concentration with a calcium specific electrode. Steady state accumulation ratios of Ca(2+) as high as 100 were reached for steady state external concentrations about 200 micromolar. The rate of Ca(2+) uptake appeared markedly amplified in intact vacuoles when compared to tonoplast vesicles but the antiport displayed a much lower affinity for calcium. The different behavior of intact vacuoles compared to vesicles appears mainly to be due to differences in the surface to volume ratio and in the rates of dissipation of the pH gradient. Despite its low affinity, the Ca(2+)/H(+) antiport has a high potential capacity to regulate cytoplasmic concentration of calcium.

Published

1989

176. [Comparison of different methods of medical images in the assessment of local extension of osteogenic sarcomas].

Author

Delépine N, Delépine G, Laval-Jeantet M, Roger B, Buy JN, Vadrot D, Larde D, and Mathieu Y

Subjects

Adolescent, Adult, Aged, Bone Neoplasms diagnostic imaging, Child, Female, Humans, Magnetic Resonance Spectroscopy, Male, Middle Aged, Osteosarcoma diagnostic imaging, Radionuclide Imaging, Thermography, Tomography, X-Ray Computed, Bone Neoplasms diagnosis, Osteosarcoma diagnosis

Abstract

The authors compared different methods of medical visualisation (standard radiography, arteriography, quantitative isotope bone scan, telethermography, CT scan, visualisation by nuclear magnetic resonance) in 52 osteogenic sarcomas. In the majority of cases the diagnosis was suggested by standard X-rays at the first visit. CT scan and visualisation by nuclear magnetic resonance are the two basic examinations both in terms of assessing the future single block excision as well as deciding the approach to be used for biopsy. Telethermography and quantitative isotope bone scan usefully complement clinical examination and standard X-rays in following the course during chemotherapy. Arteriography is indicated only in the presence of large tumors threatening the vessels directly.

Published

1985

177. [Effect of ferredoxin on electron transfer and photophosphorylation of spinach and bean chloroplasts under air].

Author

Mathieu Y, Miginiac-Maslow M, and Remy R

Subjects

Adenosine Triphosphate metabolism, Binding Sites, Catalase pharmacology, Chloroplasts drug effects, Depression, Chemical, Electron Transport drug effects, Light, Metabolism drug effects, NADP metabolism, Nitrogen pharmacology, Oxygen Consumption drug effects, Phosphorus metabolism, Stimulation, Chemical, Urea pharmacology, Chloroplasts metabolism, Ferredoxins pharmacology, Oxygen pharmacology, Plants metabolism

Published

1970

178. [Effect of oxygen on electron transfers in photosynthesis. II. Effect of very low oxygen concentrations on the reduction of NADP+ by isolated chloroplasts].

Author

Mathieu Y

Subjects

Air, Chlorophyll metabolism, Chloroplasts drug effects, Darkness, Glucose, Glucose Oxidase, Light, Osmolar Concentration, Piperazines, Plant Cells, Plants metabolism, Plants radiation effects, Polarography, Radiation Effects, Stimulation, Chemical, Sulfonic Acids, Temperature, Chloroplasts metabolism, Electron Transport drug effects, NADP metabolism, Oxygen pharmacology, Photosynthesis drug effects

Published

1969

179. [Effect of oxygen on electron transfers in photosynthesis. I. Effect of various concentrations of oxygen on some Hill reactions].

Author

Mathieu Y

Subjects

Bicarbonates pharmacology, Chlorophyll metabolism, Depression, Chemical, Ferredoxins metabolism, Ferricyanides metabolism, Kinetics, Light, NADP metabolism, Oxidation-Reduction, Plant Cells, Plants metabolism, Plants radiation effects, Polarography, Quinones metabolism, Radiation Effects, Stimulation, Chemical, Chloroplasts metabolism, Electron Transport drug effects, Oxygen pharmacology, Photosynthesis drug effects

Published

1969