Your search keyword '"Pauillac, Serge"' showing total 45 results

1. Detection of ciguatoxin-like and paralysing toxins in Trichodesmium spp. from New Caledonia lagoon

Author

Kerbrat, Anne-Sophie, Darius, H. Taiana, Pauillac, Serge, Chinain, Mireille, and Laurent, Dominique

Published

2010

2. Characterisation of the anti-inflammatory potential of Vitex trifolia L. (Labiatae), a multipurpose plant of the Pacific traditional medicine

Author

Matsui, Mariko, Kumar-Roine, Shilpa, Darius, H. Taiana, Chinain, Mireille, Laurent, Dominique, and Pauillac, Serge

Published

2009

3. Ability of certain plant extracts traditionally used to treat ciguatera fish poisoning to inhibit nitric oxide production in RAW 264.7 macrophages

Author

Kumar-Roiné, Shilpa, Matsui, Mariko, Reybier, Karine, Darius, Hélène Taiana, Chinain, Mireille, Pauillac, Serge, and Laurent, Dominique

Published

2009

4. Protective Immunization of the Squirrel Monkey against Asexual Blood Stages of Plasmodium falciparum by Use of Parasite Protein Fractions

Author

Dubois, Philippe, Dedet, Jean-Pierre, Fandeur, Thierry, Roussilhon, Christian, Jendoubi, Moncef, Pauillac, Serge, Mercereau-Puijalon, Odile, and Da Silva, Luiz Pereira

Published

1984

5. Characterization of the enzymatic activity of Clostridium perfringens TpeL

Author

Pauillac, Serge, Dʼallayer, Jacques, Lenormand, Pascal, Rousselle, Jean Claude, Bouvet, Philippe, and Popoff, Michel R.

Published

2013

6. A Review of Traditional Remedies of Ciguatera Fish Poisoning in the Pacific

Author

Kumar-Roiné, Shilpa, Taiana Darius, H., Matsui, Mariko, Fabre, Nicolas, Haddad, Mohamed, Chinain, Mireille, Pauillac, Serge, and Laurent, Dominique

Published

2011

7. Marine toxic cyanobacteria: Diversity, environmental responses and hazards

Author

Golubic, Stjepko, Abed, Raeid M.M., Palińska, Katarzyna, Pauillac, Serge, Chinain, Mireille, and Laurent, Dominique

Published

2010

8. First identification of the neurotoxin homoanatoxin-a from mats of Hydrocoleum lyngbyaceum (marine cyanobacterium) possibly linked to giant clam poisoning in New Caledonia

Author

Méjean, Annick, Peyraud-Thomas, Caroline, Kerbrat, Anne Sophie, Golubic, Stjepko, Pauillac, Serge, Chinain, Mireille, and Laurent, Dominique

Published

2010

9. Prevalence, symptoms and chronicity of ciguatera in New Caledonia: Results from an adult population survey conducted in Noumea during 2005

Author

Baumann, Francine, Bourrat, Marie-Blanche, and Pauillac, Serge

Published

2010

10. Pacific ciguatoxin 1B-induced modulation of inflammatory mediators in a murine macrophage cell line

Author

Matsui, Mariko, Kumar-Roine, Shilpa, Darius, Taiana H., Chinain, Mireille, Laurent, Dominique, and Pauillac, Serge

Published

2010

11. Growth and toxin production in the ciguatera-causing dinoflagellate Gambierdiscus polynesiensis (Dinophyceae) in culture☆

Author

Chinain, Mireille, Darius, Taiana H., Ung, André, Cruchet, Philippe, Wang, Zhihong, Ponton, Dominique, Laurent, Dominique, and Pauillac, Serge

Published

2010

12. Ciguatera risk management in French Polynesia: The case study of Raivavae Island (Australes Archipelago)

Author

Chinain, Mireille, Darius, Taiana H., Ung, André, Fouc, Mote Tchou, Revel, Taina, Cruchet, Philippe, Pauillac, Serge, and Laurent, Dominique

Published

2010

13. Special issue on “Ciguatera and Related Biotoxins”

Author

Molgó, Jordi, Laurent, Dominique, Pauillac, Serge, Chinain, Mireille, and Yeeting, Being

Published

2010

14. Development of nonradioactive microtiter plate assays for nuclease activity

Author

Mouratou, Barbara, Rouyre, Sylvie, Pauillac, Serge, and Guesdon, Jean-Luc

Published

2002

15. Characterization of mice antisera elicited with a ciguatoxin tetracyclic synthetic ring fragment (JKLM) conjugated to carrier proteins

Author

Pauillac, Serge, Sasaki, Makato, Inoue, Masayuki, Naar, Jérôme, Branaa, Philippe, Chinain, Mireille, Tachibana, Kazuo, and Legrand, Anne-Marie

Published

2000

16. Ciguatoxins and brevetoxins, neurotoxic polyether compounds active on sodium channels

Author

Dechraoui, Marie-Yasmine, Naar, Jérôme, Pauillac, Serge, and Legrand, Anne-Marie

Published

1999

17. Highly sensitive sandwich immunoassay and immunochromatographic test for the detection of Clostridial epsilon toxin in complex matrices

Author

Féraudet-Tarisse, Cécile, primary, Mazuet, Christelle, additional, Pauillac, Serge, additional, Krüger, Maren, additional, Lacroux, Caroline, additional, Popoff, Michel R., additional, Dorner, Brigitte G., additional, Andréoletti, Olivier, additional, Plaisance, Marc, additional, Volland, Hervé, additional, and Simon, Stéphanie, additional

Published

2017

18. Correlation between in vitro cytotoxicity and in vivo lethal activity in mice of epsilon toxin mutants from Clostridium perfringens

Author

Dorca Arévalo, Jonatan, Pauillac, Serge, Díaz Hidalgo, Laura, Martín Satué, Mireia, Popoff, Michel R., Blasi Cabús, Joan, Institut d'Investigació Biomèdica de Bellvitge [Barcelone] ( IDIBELL ), Universitat de Barcelona ( UB ), Bactéries anaérobies et Toxines, Institut Pasteur [Paris], This work was supported by grant SAF2011-27566 (MINECO, Spanish Government) and grant 2009 SGR 152 from AGAUR (Generalitat de Catalunya), The authors thank Inmaculada Gómez de Aranda and the CCiTUB Biology Unit of the Campus de Bellvitge for their technical assistance. We are also grateful to Dr. Mark S. McClain (Department of Medicine, Vanderbilt University School of Medicine, Nashville, Tennessee) for his valuable comments and discussions., Institut d'Investigació Biomèdica de Bellvitge [Barcelone] (IDIBELL), Universitat de Barcelona (UB), Institut Pasteur [Paris] (IP), and Universitat de Barcelona

Subjects

Male, Clostridium perfringens, Toxicology, Mouse models, MESH : Green Fluorescent Proteins, Madin Darby Canine Kidney Cells, MESH: Dogs, Mice, MESH: Structure-Activity Relationship, Membrane proteins, Toxin Binding, Toxins, MESH: Animals, Kidney Tubules, Distal, lcsh:Science, MESH: Clostridium perfringens, Brain, Veterinary Diseases, Neurology, Medical Microbiology, MESH: Epithelial Cells, [SDV.TOX]Life Sciences [q-bio]/Toxicology, Neurotoxicology, MESH : Clostridium perfringens, Cell Physiology, Multiple Sclerosis, MESH: Gene Expression, Recombinant Fusion Proteins, Primary Cell Culture, Immunology, Toxic Agents, Microbiology, Structure-Activity Relationship, MESH: Green Fluorescent Proteins, MESH: Kidney Tubules, Distal, MESH: Recombinant Fusion Proteins, MESH : Primary Cell Culture, Microbial Pathogens, [ SDV.BC ] Life Sciences [q-bio]/Cellular Biology, lcsh:R, Biology and Life Sciences, Cell binding, Survival Analysis, MESH : Kidney Tubules, Distal, Cell membranes, Confocal microscopy, MESH : Gene Expression, MESH : Brain, Mutation, Clostridium Infections, MESH: Enterotoxemia, Veterinary Science, lcsh:Q, Membranes cel·lulars, Veterinary Microbiology, [ SDV.TOX ] Life Sciences [q-bio]/Toxicology, Veterinary Toxicology, Gene Expression, lcsh:Medicine, Epithelial cells, MESH: Blood-Brain Barrier, MESH : Blood-Brain Barrier, MESH : Dogs, Molecular Cell Biology, MESH : Structure-Activity Relationship, Medicine and Health Sciences, Cèl·lules epitelials, MESH : Epithelial Cells, Blood-Brain Barrier, MESH: Survival Analysis, MESH : Mutation, Research Article, MESH: Mutation, MESH : Recombinant Fusion Proteins, MESH: Biological Transport, MESH: Clostridium Infections, MESH : Male, Bacterial Toxins, Green Fluorescent Proteins, [SDV.BC]Life Sciences [q-bio]/Cellular Biology, Autoimmune Diseases, MESH: Primary Cell Culture, MESH: Brain, Dogs, MESH : Mice, Animals, MESH: Mice, MESH : Enterotoxemia, MESH : Madin Darby Canine Kidney Cells, MESH: Madin Darby Canine Kidney Cells, Biological Transport, Kidneys, Cell Biology, Demyelinating Disorders, MESH: Male, MESH : Clostridium Infections, MESH : Biological Transport, MESH: Bacterial Toxins, Membrane Trafficking, Toxines, MESH : Bacterial Toxins, Clinical Immunology, MESH : Animals, MESH : Survival Analysis, Enterotoxemia

Abstract

International audience; Epsilon toxin (Etx) from Clostridium perfringens is a pore-forming protein with a lethal effect on livestock, producing severe enterotoxemia characterized by general edema and neurological alterations. Site-specific mutations of the toxin are valuable tools to study the cellular and molecular mechanism of the toxin activity. In particular, mutants with paired cysteine substitutions that affect the membrane insertion domain behaved as dominant-negative inhibitors of toxin activity in MDCK cells. We produced similar mutants, together with a well-known non-toxic mutant (Etx-H106P), as green fluorescent protein (GFP) fusion proteins to perform in vivo studies in an acutely intoxicated mouse model. The mutant (GFP-Etx-I51C/A114C) had a lethal effect with generalized edema, and accumulated in the brain parenchyma due to its ability to cross the blood-brain barrier (BBB). In the renal system, this mutant had a cytotoxic effect on distal tubule epithelial cells. The other mutants studied (GFP-Etx-V56C/F118C and GFP-Etx-H106P) did not have a lethal effect or cross the BBB, and failed to induce a cytotoxic effect on renal epithelial cells. These data suggest a direct correlation between the lethal effect of the toxin, with its cytotoxic effect on the kidney distal tubule cells, and the ability to cross the BBB.

Published

2014

19. The Tip of the Four N-Terminal α-Helices of Clostridium sordellii Lethal Toxin Contains the Interaction Site with Membrane Phosphatidylserine Facilitating Small GTPases Glucosylation

Author

Varela Chavez, Carolina, primary, Haustant, Georges, additional, Baron, Bruno, additional, England, Patrick, additional, Chenal, Alexandre, additional, Pauillac, Serge, additional, Blondel, Arnaud, additional, and Popoff, Michel-Robert, additional

Published

2016

20. CD44 Promotes Intoxication by the Clostridial Iota-Family Toxins

Author

Wigelsworth, Darran, Gordon Ruthel, Schnell, Leonie, Herrlich, Peter, Blonder, Josip, Veenstra, Timothy, Carman, Robert, Wilkins, Tracy, Nhieu, Guy Tran, Pauillac, Serge, Gibert, Maryse, Sauvonnet, Nathalie, Stiles, Bradley, Popoff, Michel, Barth, Holger, Tran, Guy, Nhieu, Van, Chaves-Olarte, Esteban, Army Medical Research Institute of Infectious Diseases [USA] (USAMRIID), University of Pennsylvania School of Veterinary Medicine, Universität Ulm - Ulm University [Ulm, Allemagne], Leibniz Institute on Aging - Fritz Lipmann Institute (FLI), Leibniz Association, National Cancer Institute [Bethesda] (NCI-NIH), National Institutes of Health [Bethesda] (NIH), TechLab Inc, Collège de France (CdF), Bactéries anaérobies et Toxines, Institut Pasteur [Paris], Biologie des Interactions Cellulaires, Institut Pasteur [Paris]-Centre National de la Recherche Scientifique (CNRS), Wilson College, Programa de Investigación en Enfermedades Tropicales, UNIVERSIDAD NACIONAL-Escuela de Medicina Veterinaria, Funding was provided in part by the Institut Pasteur (MRP), Faculty Fund for Research at Wilson College (BGS), as well as the Faculty of Medicine at the University of Ulm plus Deutsche Forschungsgemeinschaft (DFG grant BA 2087/2-1) to HB, Centre interdisciplinaire de recherche en biologie (CIRB), Labex MemoLife, École normale supérieure - Paris (ENS Paris), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Collège de France (CdF (institution))-Ecole Superieure de Physique et de Chimie Industrielles de la Ville de Paris (ESPCI Paris), Université Paris sciences et lettres (PSL)-École normale supérieure - Paris (ENS Paris), Université Paris sciences et lettres (PSL)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), Biologie des Interactions Cellulaires (BIC), U.S. Army Medical Research Institute of Infectious Diseases (USAMRIID), École normale supérieure - Paris (ENS-PSL), Université Paris sciences et lettres (PSL)-École normale supérieure - Paris (ENS-PSL), Institut Pasteur [Paris] (IP), Institut Pasteur [Paris] (IP)-Centre National de la Recherche Scientifique (CNRS), Army Medical Research Institute of Infectious Diseases, Medical Research Institute, University of Ulm, Leibniz Institute for Age Research, Fritz Lipmann Institute, National Cancer Institute ( NIH ), Collège de France ( CdF ), and Institut Pasteur [Paris]-Centre National de la Recherche Scientifique ( CNRS )

Subjects

Bacterial Diseases, Mouse, Clostridium spiroforme, Cytotoxicity, [ SDV.TOX ] Life Sciences [q-bio]/Toxicology, lcsh:Medicine, Pathogenesis, medicine.disease_cause, Biochemistry, Mice, Clostridium, AB toxin, Chlorocebus aethiops, Clostridium botulinum, Toxins, lcsh:Science, ADP Ribose Transferases, Mice, Knockout, 0303 health sciences, Multidisciplinary, biology, Animal Models, Clostridium difficile, Endocytosis, Recombinant Proteins, Bacterial Pathogens, 3. Good health, Hyaluronan Receptors, Infectious Diseases, Medical Microbiology, [SDV.TOX]Life Sciences [q-bio]/Toxicology, Medicine, Vero cells, Research Article, Bacterial Toxins, Blotting, Western, Intoxication, [SDV.BC]Life Sciences [q-bio]/Cellular Biology, Microbiology, 03 medical and health sciences, Model Organisms, Cell Line, Tumor, medicine, Animals, Immunoprecipitation, Protein Interactions, Biology, 030304 developmental biology, Gram Positive, Dose-Response Relationship, Drug, [ SDV.BC ] Life Sciences [q-bio]/Cellular Biology, 030306 microbiology, Toxin, lcsh:R, Proteins, CD coreceptors, biology.organism_classification, Actin cytoskeleton, Dithiothreitol, Cytoskeletal Proteins, lcsh:Q

Abstract

International audience; Various pathogenic clostridia produce binary protein toxins associated with enteric diseases of humans and animals. Separate binding/translocation (B) components bind to a protein receptor on the cell surface, assemble with enzymatic (A) component(s), and mediate endocytosis of the toxin complex. Ultimately there is translocation of A component(s) from acidified endosomes into the cytosol, leading to destruction of the actin cytoskeleton. Our results revealed that CD44, a multifunctional surface protein of mammalian cells, facilitates intoxication by the iota family of clostridial binary toxins. Specific antibody against CD44 inhibited cytotoxicity of the prototypical Clostridium perfringens iota toxin. Versus CD44(+) melanoma cells, those lacking CD44 bound less toxin and were dose-dependently resistant to C. perfringens iota, as well as Clostridium difficile and Clostridium spiroforme iota-like, toxins. Purified CD44 specifically interacted in vitro with iota and iota-like, but not related Clostridium botulinum C2, toxins. Furthermore, CD44 knockout mice were resistant to iota toxin lethality. Collective data reveal an important role for CD44 during intoxication by a family of clostridial binary toxins.

Published

2012

21. The catalytic domains ofClostridium sordelliilethal toxin and related large clostridial glucosylating toxins specifically recognize the negatively charged phospholipids phosphatidylserine and phosphatidic acid

Author

Varela Chavez, Carolina, primary, Hoos, Sylviane, additional, Haustant, Georges Michel, additional, Chenal, Alexandre, additional, England, Patrick, additional, Blondel, Arnaud, additional, Pauillac, Serge, additional, Lacy, D. Borden, additional, and Popoff, Michel Robert, additional

Published

2015

22. Epsilon toxin fromClostridium perfringens acts on oligodendrocytes without forming pores, and causes demyelination

Author

Wioland, Laetitia, primary, Dupont, Jean‐Luc, additional, Doussau, Frédéric, additional, Gaillard, Stéphane, additional, Heid, Flavia, additional, Isope, Philippe, additional, Pauillac, Serge, additional, Popoff, Michel R., additional, Bossu, Jean‐Louis, additional, and Poulain, Bernard, additional

Published

2014

23. Haemorrhagic toxin and lethal toxin fromClostridium sordelliistrain vpi9048: molecular characterization and comparative analysis of substrate specificity of the large clostridial glucosylating toxins

Author

Genth, Harald, primary, Pauillac, Serge, additional, Schelle, Ilona, additional, Bouvet, Philippe, additional, Bouchier, Christiane, additional, Varela-Chavez, Carolina, additional, Just, Ingo, additional, and Popoff, Michel R., additional

Published

2014

24. La pierre brute : mise à nu, moment de vérité et renaissance

Author

Pauillac, Serge, primary

Published

2014

25. Aqueous extract of Vitex trifolia L. (Labiatae) inhibits LPS-dependent regulation of inflammatory mediators in RAW 264.7 macrophages through inhibition of Nuclear Factor kappa B translocation and expression

Author

Matsui, Mariko, primary, Adib-Conquy, Minou, additional, Coste, Agnès, additional, Kumar-Roiné, Shilpa, additional, Pipy, Bernard, additional, Laurent, Dominique, additional, and Pauillac, Serge, additional

Published

2012

26. Update on Methodologies Available for Ciguatoxin Determination: Perspectives to Confront the Onset of Ciguatera Fish Poisoning in Europe

Author

Caillaud, Amandine, primary, De la Iglesia, Pablo, additional, Darius, H. Taiana, additional, Pauillac, Serge, additional, Aligizaki, Katerina, additional, Fraga, Santiago, additional, Chinain, Mireille, additional, and Diogène, Jorge, additional

Published

2010

27. Ciguatera fish poisoning and other seafood intoxication syndromes: A revisit and a review of the existing treatments employed in ciguatera fish poisoning

Author

Kumar-Roiné, Shilpa, primary, Matsui, Mariko, additional, Pauillac, Serge, additional, and Laurent, Dominique, additional

Published

2010

28. Are cyanobacteria involved in Ciguatera Fish Poisoning-like outbreaks in New Caledonia?

Author

Laurent, Dominique, primary, Kerbrat, Anne-Sophie, additional, Darius, H. Taiana, additional, Girard, Emmanuelle, additional, Golubic, Stjepko, additional, Benoit, Evelyne, additional, Sauviat, Martin-Pierre, additional, Chinain, Mireille, additional, Molgo, Jordi, additional, and Pauillac, Serge, additional

Published

2008

29. Modulation of inducible nitric oxide synthase gene expression in RAW 264.7 murine macrophages by Pacific ciguatoxin

Author

Kumar-Roiné, Shilpa, primary, Matsui, Mariko, additional, Chinain, Mireille, additional, Laurent, Dominique, additional, and Pauillac, Serge, additional

Published

2008

30. The catalytic domains of C lostridium sordellii lethal toxin and related large clostridial glucosylating toxins specifically recognize the negatively charged phospholipids phosphatidylserine and phosphatidic acid.

Author

Varela Chavez, Carolina, Hoos, Sylviane, Haustant, Georges Michel, Chenal, Alexandre, England, Patrick, Blondel, Arnaud, Pauillac, Serge, Lacy, D. Borden, and Popoff, Michel Robert

Subjects

CLOSTRIDIUM, BACTERIAL toxins, PHOSPHATIDYLSERINES, PHOSPHOLIPIDS, PHOSPHATIDIC acids, MICROBIAL virulence, ENDOCYTOSIS

Abstract

C lostridium sordellii lethal toxin ( TcsL) is a potent virulence factor belonging to the large clostridial glucosylating toxin family. TcsL enters target cells via receptor-mediated endocytosis and delivers the N-terminal catalytic domain ( TcsL-cat) into the cytosol upon an autoproteolytic process. TcsL-cat inactivates small GTPases including Rac and Ras by glucosylation with uridine-diphosphate (UDP)-glucose as cofactor leading to drastic changes in cytoskeleton and cell viability. TcsL-cat was found to preferentially bind to phosphatidylserine ( PS)-containing membranes and to increase the glucosylation of Rac anchored to lipid membrane. We here report binding affinity measurements of TcsL-cat for brain PS-containing membranes by surface plasmon resonance and enzyme-linked immunosorbent assay ( ELISA). In addition, TcsL-cat bound to phosphatidic acid ( PA) and, to a lesser extent, to other anionic lipids, but not to neutral lipids, sphingolipids or sterol. We further show that the lipid unsaturation status influenced TcsL-cat binding to phospholipids, PS with unsaturated acyl chains and PA with saturated acyl chains being the preferred bindingsubstrates. Phospholipid binding site is localized at the N-terminal four helical bundle structure (1-93 domain). However, TcsL-1-93 bound to a broad range of substrates, whereas TcsL-cat, which is the active domain physiologically delivered into the cytosol, selectively bound to PS and PA. Similar findings were observed with the other large clostridial glucosylating toxins from C. difficile, C. novyi and C. perfringens. [ABSTRACT FROM AUTHOR]

Published

2015

31. Epsilon toxin from C lostridium perfringens acts on oligodendrocytes without forming pores, and causes demyelination.

Author

Wioland, Laetitia, Dupont, Jean‐Luc, Doussau, Frédéric, Gaillard, Stéphane, Heid, Flavia, Isope, Philippe, Pauillac, Serge, Popoff, Michel R., Bossu, Jean‐Louis, and Poulain, Bernard

Subjects

TOXINS, CLOSTRIDIUM perfringens, WHITE matter (Nerve tissue), OLIGODENDROGLIA, ASTROCYTES, ASPARTATE receptors, DEMYELINATION, PURKINJE cells

Abstract

Epsilon toxin ( ET) is produced by C lostridium perfringens types B and D and causes severe neurological disorders in animals. ET has been observed binding to white matter, suggesting that it may target oligodendrocytes. In primary cultures containing oligodendrocytes and astrocytes, we found that ET (10−9 M and 10−7 M) binds to oligodendrocytes, but not to astrocytes. ET induces an increase in extracellular glutamate, and produces oscillations of intracellular Ca2+ concentration in oligodendrocytes. These effects occurred without any change in the transmembrane resistance of oligodendrocytes, underlining that ET acts through a pore-independent mechanism. Pharmacological investigations revealed that the Ca2+ oscillations are caused by the ET-induced rise in extracellular glutamate concentration. Indeed, the blockade of metabotropic glutamate receptors type 1 ( mGluR1) prevented ET-induced Ca2+ signals. Activation of the N-methyl- D-aspartate receptor ( NMDA-R) is also involved, but to a lesser extent. Oligodendrocytes are responsible for myelinating neuronal axons. Using organotypic cultures of cerebellar slices, we found that ET induced the demyelination of Purkinje cell axons within 24 h. As this effect was suppressed by antagonizing mGluR1 and NMDA-R, demyelination is therefore caused by the initial ET-induced rise in extracellular glutamate concentration. This study reveals the novel possibility that ET can act on oligodendrocytes, thereby causing demyelination. Moreover, it suggests that for certain cell types such as oligodendrocytes, ET can act without forming pores, namely through the activation of an undefined receptor-mediated pathway. [ABSTRACT FROM AUTHOR]

Published

2015

32. Haemorrhagic toxin and lethal toxin from C lostridium sordellii strain vpi9048: molecular characterization and comparative analysis of substrate specificity of the large clostridial glucosylating toxins.

Author

Genth, Harald, Pauillac, Serge, Schelle, Ilona, Bouvet, Philippe, Bouchier, Christiane, Varela‐Chavez, Carolina, Just, Ingo, and Popoff, Michel R.

Subjects

*HEMORRHAGIC diseases, *CLOSTRIDIOIDES difficile, *BACTERIAL toxins, *BIOCHEMICAL substrates, *GLYCOSYLATION, *COMPARATIVE studies

Abstract

Large clostridial glucosylating toxins ( LCGTs) are produced by toxigenic strains of C lostridium difficile, C lostridium perfringens, C lostridium novyi and C lostridium sordellii. While most C . sordellii strains solely produce lethal toxin ( TcsL), C . sordellii strain VPI9048 co-produces both hemorrhagic toxin ( TcsH) and TcsL. Here, the sequences of TcsH-9048 and TcsL-9048 are provided, showing that both toxins retain conserved LCGT features and that TcsL and TcsH are highly related to Toxin A ( TcdA) and Toxin B ( TcdB) from C . difficile strain VPI10463. The substrate profile of the toxins was investigated with recombinant LCGT transferase domains ( rN) and a wide panel of small GTPases. rN- TcsH-9048 and rN- TcdA-10463 glucosylated preferably Rho-GTPases but also Ras- GTPases to some extent. In this respect, rN- TcsH-9048 and rN- TcdA-10463 differ from the respective full-length TcsH-9048 and TcdA-10463, which exclusively glucosylate Rho- GTPases. rN- TcsL-9048 and full length TcsL-9048 glucosylate both Rho- and Ras-GTPases, whereas rN- TcdB-10463 and full length TcdB-10463 exclusively glucosylate Rho- GTPases. Vero cells treated with full length TcsH-9048 or TcdA-10463 also showed glucosylation of Ras, albeit to a lower extent than of Rho-GTPases. Thus, in vitro analysis of substrate spectra using recombinant transferase domains corresponding to the auto-proteolytically cleaved domains, predicts more precisely the in vivo substrates than the full length toxins. Except for TcdB-1470, all LCGTs evoked increased expression of the small GTPase RhoB, which exhibited cytoprotective activity in cells treated with TcsL isoforms, but pro-apoptotic activity in cells treated with TcdA, TcdB, and TcsH. All LCGTs induced a rapid dephosphorylation of pY118-paxillin and of pS144/141- PAK1/2 prior to actin filament depolymerization indicating that disassembly of focal adhesions is an early event leading to the disorganization of the actin cytoskeleton. [ABSTRACT FROM AUTHOR]

Published

2014

33. Application of a modified version of Habeeb's trinitrophenylation method for the characterization of hapten–protein conjugates in a reversed micellar medium

Author

Pauillac, Serge, primary, Naar, Jérôme, additional, Mouratou, Barbara, additional, and Guesdon, Jean-Luc, additional

Published

2002

34. Correlation between In Vitro Cytotoxicity and In Vivo Lethal Activity in Mice of Epsilon Toxin Mutants from Clostridium perfringens.

Author

Dorca-Arévalo, Jonatan, Pauillac, Serge, Díaz-Hidalgo, Laura, Martín-Satué, Mireia, Popoff, Michel R., and Blasi, Juan

Subjects

*CELL-mediated cytotoxicity, *LABORATORY mice, *GENETIC mutation, *CLOSTRIDIUM perfringens, *CLOSTRIDIAL enteritis, *GREEN fluorescent protein

Abstract

Epsilon toxin (Etx) from Clostridium perfringens is a pore-forming protein with a lethal effect on livestock, producing severe enterotoxemia characterized by general edema and neurological alterations. Site-specific mutations of the toxin are valuable tools to study the cellular and molecular mechanism of the toxin activity. In particular, mutants with paired cysteine substitutions that affect the membrane insertion domain behaved as dominant-negative inhibitors of toxin activity in MDCK cells. We produced similar mutants, together with a well-known non-toxic mutant (Etx-H106P), as green fluorescent protein (GFP) fusion proteins to perform in vivo studies in an acutely intoxicated mouse model. The mutant (GFP-Etx-I51C/A114C) had a lethal effect with generalized edema, and accumulated in the brain parenchyma due to its ability to cross the blood-brain barrier (BBB). In the renal system, this mutant had a cytotoxic effect on distal tubule epithelial cells. The other mutants studied (GFP-Etx-V56C/F118C and GFP-Etx-H106P) did not have a lethal effect or cross the BBB, and failed to induce a cytotoxic effect on renal epithelial cells. These data suggest a direct correlation between the lethal effect of the toxin, with its cytotoxic effect on the kidney distal tubule cells, and the ability to cross the BBB. [ABSTRACT FROM AUTHOR]

Published

2014

35. Correlation between In Vitro Cytotoxicity and In Vivo Lethal Activity in Mice of Epsilon Toxin Mutants from Clostridium perfringens.

Author

Dorca-Arévalo, Jonatan, Pauillac, Serge, Díaz-Hidalgo, Laura, Martín-Satué, Mireia, Popoff, Michel R., and Blasi, Juan

Subjects

CELL-mediated cytotoxicity, LABORATORY mice, GENETIC mutation, CLOSTRIDIUM perfringens, CLOSTRIDIAL enteritis, GREEN fluorescent protein

Abstract

Epsilon toxin (Etx) from Clostridium perfringens is a pore-forming protein with a lethal effect on livestock, producing severe enterotoxemia characterized by general edema and neurological alterations. Site-specific mutations of the toxin are valuable tools to study the cellular and molecular mechanism of the toxin activity. In particular, mutants with paired cysteine substitutions that affect the membrane insertion domain behaved as dominant-negative inhibitors of toxin activity in MDCK cells. We produced similar mutants, together with a well-known non-toxic mutant (Etx-H106P), as green fluorescent protein (GFP) fusion proteins to perform in vivo studies in an acutely intoxicated mouse model. The mutant (GFP-Etx-I51C/A114C) had a lethal effect with generalized edema, and accumulated in the brain parenchyma due to its ability to cross the blood-brain barrier (BBB). In the renal system, this mutant had a cytotoxic effect on distal tubule epithelial cells. The other mutants studied (GFP-Etx-V56C/F118C and GFP-Etx-H106P) did not have a lethal effect or cross the BBB, and failed to induce a cytotoxic effect on renal epithelial cells. These data suggest a direct correlation between the lethal effect of the toxin, with its cytotoxic effect on the kidney distal tubule cells, and the ability to cross the BBB. [ABSTRACT FROM AUTHOR]

Published

2014

36. MORPHOLOGY AND MOLECULAR ANALYSES OF THREE TOXIC SPECIES OF GAMBIERDISCUS (DINOPHYCEAE): G. PACIFICUS, SP. NOV., G. AUSTRALES, SP. NOV., AND G. POLYNESIENSIS, SP. NOV.

Author

Chinain, Mireille, primary, Faust, Maria A., additional, and Pauillac, Serge, additional

Published

1999

37. Preparation and Characterization of Domoic Acid−Protein Conjugates Using Small Amount of Toxin in a Reversed Micellar Medium: Application in a Competitive Enzyme-Linked Immunosorbent Assay

Author

Branaa, Philippe, primary, Naar, Jérôme, additional, Chinain, Mireille, additional, and Pauillac, Serge, additional

Published

1999

38. An Improved Method for the Microscale Preparation and Characterization of Hapten−Protein Conjugates: The Use of Cholesterol as a Model for Nonchromophore Hydroxylated Haptens

Author

Naar, Jérôme, primary, Branaa, Philippe, additional, Chinain, Mireille, additional, and Pauillac, Serge, additional

Published

1999

39. An improved method for the production of antibodies to lipophilic carboxylic hapten using small amount of hapten-carrier conjugate

Author

Pauillac, Serge, primary, Naar, Jérôme, additional, Branaa, Philippe, additional, and Chinain, Mireille, additional

Published

1998

40. INTRASPECIFIC VARIATION IN THE DINOFLAGELLATE GAMBIERDIZSCUS TOXICUS (DINOPHYCEAE). I. ISOZYME ANALYSIS

Author

Chinain, Mireille, primary, Germain, Michel, additional, Sako, Yoshihiko, additional, Pauillac, Serge, additional, and Legrand, Anne‐Marie, additional

Published

1997

41. Production of highly specific monoclonal antibodies to monensin and development of a microELISA to detect this antibiotic

Author

Pauillac, Serge, primary, Halmos, Thérèse, additional, Labrousse, Hubert, additional, Antonakis, Kostas, additional, and Avrameas, Stratis, additional

Published

1993

42. INTRASPECIFIC VARIATION IN THE DINOFLAGELLATE <em>GAMBIERDISCUS TOXICUS</em> (DINOPHYCEAE). I. ISOZYME ANALYSIS.

Author

Chinain, Mireille, Germain, Michel, Sako, Yoshihiko, Pauillac, Serge, and Legrand, Anne-Marie

Subjects

TOXICOLOGY of poisonous fishes, BIOLOGICAL variation, ELECTROPHORESIS, DINOFLAGELLATES

Abstract

Intraspecific variation among 19 isolates of the ciguatera-causing dinoflagellate Gambierdiscus toxicus Adachi & Fukuyo (Dinophyceae) collected from French Polynesia, New Caledonia, and the French West Indies was investigated by isozyme analysis. Comparison of their cell sizes and growth rates revealed that significant variation exists among these enxyme systems indicated the G. toxicus is comprised of numerous biochemically distinct strains, Isolates from Tubuai and Hao appeared to be the most distantly related. Tahitian strains of G. toxicus also showed a remarkably low degree of similarity with the Tubuai isolates. The latter, which were taken from the same locale in Tubuai, also exhibited highly heterogeneous electrophoeretic profiles when compared to each other, suggesting a multiclonal origin. The single isolate analyzed from the Atlantic Ocean was most closely related to Tohitian isolates, depite their geographic separation. Finally, no clear relationship was found between the electrophoretic profiles of these isolates and their capacity to produce ciguatoxic compounds. [ABSTRACT FROM AUTHOR]

Published

1997

43. The catalytic domains of Clostridium sordellii lethal toxin and related large clostridial glucosylating toxins specifically recognize the negatively charged phospholipids phosphatidylserine and phosphatidic acid.

Author

Varela Chavez C, Hoos S, Haustant GM, Chenal A, England P, Blondel A, Pauillac S, Lacy DB, and Popoff MR

Subjects

Anions metabolism, Binding Sites, Catalytic Domain, Cell Membrane metabolism, Enzyme-Linked Immunosorbent Assay, Protein Binding, Surface Plasmon Resonance, Bacterial Toxins metabolism, Phosphatidic Acids metabolism, Phosphatidylserines metabolism

Abstract

Clostridium sordellii lethal toxin (TcsL) is a potent virulence factor belonging to the large clostridial glucosylating toxin family. TcsL enters target cells via receptor-mediated endocytosis and delivers the N-terminal catalytic domain (TcsL-cat) into the cytosol upon an autoproteolytic process. TcsL-cat inactivates small GTPases including Rac and Ras by glucosylation with uridine-diphosphate (UDP)-glucose as cofactor leading to drastic changes in cytoskeleton and cell viability. TcsL-cat was found to preferentially bind to phosphatidylserine (PS)-containing membranes and to increase the glucosylation of Rac anchored to lipid membrane. We here report binding affinity measurements of TcsL-cat for brain PS-containing membranes by surface plasmon resonance and enzyme-linked immunosorbent assay (ELISA). In addition, TcsL-cat bound to phosphatidic acid (PA) and, to a lesser extent, to other anionic lipids, but not to neutral lipids, sphingolipids or sterol. We further show that the lipid unsaturation status influenced TcsL-cat binding to phospholipids, PS with unsaturated acyl chains and PA with saturated acyl chains being the preferred bindingsubstrates. Phospholipid binding site is localized at the N-terminal four helical bundle structure (1-93 domain). However, TcsL-1-93 bound to a broad range of substrates, whereas TcsL-cat, which is the active domain physiologically delivered into the cytosol, selectively bound to PS and PA. Similar findings were observed with the other large clostridial glucosylating toxins from C. difficile, C. novyi and C. perfringens., (© 2015 John Wiley & Sons Ltd.)

Published

2015

44. Epsilon toxin from Clostridium perfringens acts on oligodendrocytes without forming pores, and causes demyelination.

Author

Wioland L, Dupont JL, Doussau F, Gaillard S, Heid F, Isope P, Pauillac S, Popoff MR, Bossu JL, and Poulain B

Subjects

Animals, Calcium metabolism, Cells, Cultured, Cerebellum microbiology, Cerebellum pathology, Glutamic Acid metabolism, Rats, Bacterial Toxins toxicity, Clostridium perfringens physiology, Demyelinating Diseases, Oligodendroglia drug effects

Abstract

Epsilon toxin (ET) is produced by Clostridium perfringens types B and D and causes severe neurological disorders in animals. ET has been observed binding to white matter, suggesting that it may target oligodendrocytes. In primary cultures containing oligodendrocytes and astrocytes, we found that ET (10(-9) M and 10(-7) M) binds to oligodendrocytes, but not to astrocytes. ET induces an increase in extracellular glutamate, and produces oscillations of intracellular Ca(2+) concentration in oligodendrocytes. These effects occurred without any change in the transmembrane resistance of oligodendrocytes, underlining that ET acts through a pore-independent mechanism. Pharmacological investigations revealed that the Ca(2+) oscillations are caused by the ET-induced rise in extracellular glutamate concentration. Indeed, the blockade of metabotropic glutamate receptors type 1 (mGluR1) prevented ET-induced Ca(2+) signals. Activation of the N-methyl-D-aspartate receptor (NMDA-R) is also involved, but to a lesser extent. Oligodendrocytes are responsible for myelinating neuronal axons. Using organotypic cultures of cerebellar slices, we found that ET induced the demyelination of Purkinje cell axons within 24 h. As this effect was suppressed by antagonizing mGluR1 and NMDA-R, demyelination is therefore caused by the initial ET-induced rise in extracellular glutamate concentration. This study reveals the novel possibility that ET can act on oligodendrocytes, thereby causing demyelination. Moreover, it suggests that for certain cell types such as oligodendrocytes, ET can act without forming pores, namely through the activation of an undefined receptor-mediated pathway., (© 2014 The Authors. Cellular Microbiology published by John Wiley & Sons Ltd.)

Published

2015

45. CD44 Promotes intoxication by the clostridial iota-family toxins.

Author

Wigelsworth DJ, Ruthel G, Schnell L, Herrlich P, Blonder J, Veenstra TD, Carman RJ, Wilkins TD, Van Nhieu GT, Pauillac S, Gibert M, Sauvonnet N, Stiles BG, Popoff MR, and Barth H

Subjects

Animals, Blotting, Western, Cell Line, Tumor, Chlorocebus aethiops, Dithiothreitol pharmacology, Dose-Response Relationship, Drug, Hyaluronan Receptors genetics, Immunoprecipitation, Mice, Mice, Knockout, Vero Cells, ADP Ribose Transferases toxicity, Bacterial Toxins toxicity, Endocytosis physiology, Hyaluronan Receptors metabolism

Abstract

Various pathogenic clostridia produce binary protein toxins associated with enteric diseases of humans and animals. Separate binding/translocation (B) components bind to a protein receptor on the cell surface, assemble with enzymatic (A) component(s), and mediate endocytosis of the toxin complex. Ultimately there is translocation of A component(s) from acidified endosomes into the cytosol, leading to destruction of the actin cytoskeleton. Our results revealed that CD44, a multifunctional surface protein of mammalian cells, facilitates intoxication by the iota family of clostridial binary toxins. Specific antibody against CD44 inhibited cytotoxicity of the prototypical Clostridium perfringens iota toxin. Versus CD44(+) melanoma cells, those lacking CD44 bound less toxin and were dose-dependently resistant to C. perfringens iota, as well as Clostridium difficile and Clostridium spiroforme iota-like, toxins. Purified CD44 specifically interacted in vitro with iota and iota-like, but not related Clostridium botulinum C2, toxins. Furthermore, CD44 knockout mice were resistant to iota toxin lethality. Collective data reveal an important role for CD44 during intoxication by a family of clostridial binary toxins.

Published

2012