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2. Microbial colonisation rewires the composition and content of poplar root exudates, root and shoot metabolomes.

Author

Fracchia, F., Guinet, F., Engle, N. L., Tschaplinski, T. J., Veneault-Fourrey, C., and Deveau, A.

Subjects
PLANT exudates, COLONIZATION (Ecology), MICROBIAL metabolites, METABOLOMICS, METABOLISM, POPLARS, EUROPEAN aspen
Abstract

Background: Trees are associated with a broad range of microorganisms colonising the diverse tissues of their host. However, the early dynamics of the microbiota assembly microbiota from the root to shoot axis and how it is linked to root exudates and metabolite contents of tissues remain unclear. Here, we characterised how fungal and bacterial communities are altering root exudates as well as root and shoot metabolomes in parallel with their establishment in poplar cuttings (Populus tremula x tremuloides clone T89) over 30 days of growth. Sterile poplar cuttings were planted in natural or gamma irradiated soils. Bulk and rhizospheric soils, root and shoot tissues were collected from day 1 to day 30 to track the dynamic changes of fungal and bacterial communities in the different habitats by DNA metabarcoding. Root exudates and root and shoot metabolites were analysed in parallel by gas chromatography-mass spectrometry. Results: Our study reveals that microbial colonisation triggered rapid and substantial alterations in both the composition and quantity of root exudates, with over 70 metabolites exclusively identified in remarkably high abundances in the absence of microorganisms. Noteworthy among these were lipid-related metabolites and defence compounds. The microbial colonisation of both roots and shoots exhibited a similar dynamic response, initially involving saprophytic microorganisms and later transitioning to endophytes and symbionts. Key constituents of the shoot microbiota were also discernible at earlier time points in the rhizosphere and roots, indicating that the soil constituted a primary source for shoot microbiota. Furthermore, the microbial colonisation of belowground and aerial compartments induced a reconfiguration of plant metabolism. Specifically, microbial colonisation predominantly instigated alterations in primary metabolism in roots, while in shoots, it primarily influenced defence metabolism. Conclusions: This study highlighted the profound impact of microbial interactions on metabolic pathways of plants, shedding light on the intricate interplay between plants and their associated microbial communities. 2SWtA3_gUD-Xt4Z7N25436 Video Abstract [ABSTRACT FROM AUTHOR]

Published
2024
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4. Virtual colonoscopy

Author

Schmutz, G., Buthiau, D., Iyriboz, T., Maurel, J., Justum, A. M., Khayat, D., Rixie, O., Chiche, B., Nizri, D., Chantelard, J. V., Rocher, M. A., Cohen-Aloro, G., Guinet, F., Gil-Delgado, M., Krainik, F., Antoine, E. Ch., Wechsler, B., Agranat, P., Malaurie-Agostini, E., Piedbois, P., Le Bourgeois, J. P., Hecht, F., Thuilier, G., Senikiès, A., Errieau, G., Chapelon-Abric, C., Salandre, D., Mikhael, F., Le Cesne, A., Taillibert, S., Renody, N., Spano, J.-P., Paraiso, D., Misset, J. L., Fayette, J., Bernard-Marty, C., Ziza, J. M., Gozy, M., Bletry, O., Marty, M., Soubrane, C., Buthiau, Didier, editor, and Khayat, David, editor

Published
2003
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5. Virtual bronchoscopy in oncology

Author

Ferretti, G. R., Palau, R., Lenoir, S., Buthiau, D., Strauss, C. B., Fontanelle, L., Bouzar, N., Zins, M., Coulomb, M., Khayat, D., Rixe, O., Nizri, D., Guinet, F., Taillibert, S., Rocher, M. A., Soubrane, C., Chantelard, J. V., Gil-Delgado, M., Le Chevalier, T., Gozy, M., Agranat, P., Hecht, F., Chapelon-Abric, C., Blétry, O., Renody, N., Errieau, G., Senikiès, A., Spano, J. P., Bernard-Marty, C., Fayette, J., Malaurie-Agostini, E., Baldeyrou, P., Coeffic, D., Chaumier, P., Antoine, E.-CH., Pouillart, P., Buthiau, Didier, editor, and Khayat, David, editor

Published
2003
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6. Virtual cystoscopy of the urinary tract

Author

Palau, R., Strauss, C. B., Buthiau, D., Zins, M., Lenoir, S., Régent, D., Khayat, D., Rixe, O., Gil-Delgado, M., Meric, J. B., Bloch, J., Bloch, P., Bernard-Marty, C., Nizri, D., Guinet, F., Agranat, P., Chantelard, J. V., Chiche, B., Malaurie-Agostini, E., Hecht, F., Cohen-Aloro, G., Errieau, G., Thuilier, G., Senikiès, A., Bendavid, S., Antoine, E. Ch., Weil, M., Benhammouda, A., Wechsler, B., Amoura, Z., Cesne, A. Le, Mikhael, F., Fayette, J., Housset, M., Buthiau, Didier, editor, and Khayat, David, editor

Published
2003
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7. Malignant tumors of the spine and spinal cord

Author

Missenard, G., Lapresle, P., Grob, R., Antoine, E.-Ch., Grosskopf, D., Guinet, F., Borel, C., Brunet, P., Sahel, M., Dormont, D., Marro, B., Gerber, S., Biondi, A., Marsault, C., Buthiau, Didier, editor, and Khayat, David, editor

Published
1998
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10. Pulmonary metastases

Author

Breau, J.-L., Piette, J.-C., Rixe, O., Guinet, F., Chaumier, P., Baldeyrou, P., Buthiau, D., Buthiau, Didier, editor, and Khayat, David, editor

Published
1998
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12. MPSA abstracts

Author

Aminlari, Mahmoud, Asquith, Thomas, Sarlo, Katherine, Bailey, Jerome M., Tu, Oanh, Issai, Gilbert, Ha, Alice, Shively, John E., Bell, Alexander W., Baur, Nicole C., Bergeron, John J. M., Ou, Wei -Jia, Thomas, David Y., Cianflone, Katherine, Baldo, Allain, Hincke, Maxwell T., Momparler, Richard L., Laliberté, Josée, Thomson, David M. P., Sutherland, M., Besada, Vladimir, Gonzalez, Javier, Padron, Gabriel, Garay, Hilda, Reyes, Osvaldo, Takao, Toshifumi, Shimonishi, Yasutsugu, Bischoff, Rainer, Roecklin, Dominique, Bouchon, Bernadette, Klarskov, Klaus, Van Dorsselaer, Alain, Brake, Patricia G., Pacitti, Anne, Higgins, Terry, Stevis, Panos, Malinowski, John, McElhiney, Sue, Huang, Janes, Vestal, Christine, Buckel, Scott D., Stevenson, Tracy, Loo, Joseph A., Caffrey, Martin, Wang, Jin, Wallace, Carmichael J. A., Clark-Lewis, Ian, Carraway, C. A. Carothers, Huang, J., Li, Y., Juang, S. -H., Gallo, A., Mayer, B. J., Carraway, K. L., Coleman, Patrick L., Sarpong, Daniel, Deerfield, II, David W., Holland-Minkley, Amanda, Hempel, John D., Nicholas, Jr., Hugh B., Denslow, Nancy D., Folmar, Leroy C., Sullivan, Craig V., Dixon, James D., Mark, Jonathan P., Elicone, Christopher P., Maleknia, Simin D., McGuinness, Brian F., Regnier, Fred E., Afeyan, Noubar B., Dolence, Julia M., Poulter, C. Dale, Egorov, Tsezi, Musolyamov, Alexander, Popineau, Yves, Andersen, Jens, Roepstorff, Peter, Falkenstein, Roberto J., Biscoglio de Jiménez Bonino, Mirtha J., Peña, Clara, Gauggel, D. L., Asquith, T. N., Isfort, R. J., Miller, N. S., Cody, D. B., Giblin, Michael F., Wong, Tuck C., Quinn, Thomas P., Grant, Gregory A., Crankshaw, Mark W., Griffith, Scott, Schroeder, Steve, Quinn, Thomas, Guinet, F., Petillot, Y., Chapsal, J. M., Dubayle, J., Greco, F., Barge, O., Forest, E., Valentin, C., Hahn, Frederick M, Baker, Jonathan A., Poulter, C. Dale, Haniu, Mitsuru, Kenney, William C., Rohde, Michael F., Harman, James G., Lee, Eun Ju, Glasgow, Joel, Lew, Sew Fen, Belduz, Ali O., Harris, Reed J., Molony, Michael S., Keyt, Lene H., Wu, Shiaw -Lin, Hawke, David H., Tso, Jaqueline, Early, Sherrell, Miller, Chad G., Hayman, G. Thomas, Miernyk, Jan A., Hellman, Ulf, Wernstedt, Christer, Góñez, Jorge, Hess, Daniel, Studer, Ralph, Hunziker, Peter E., Hirano, Hisashi, Watanabe, Yoshihiro, Barbashov, Sergei F., Komatsu, Setsuko, Hemmings, Andrew M., Miyagi, Masaru, Tsunasawa, Susumu, Huber, Reuben E., Roth, Nathan J., Gaunt, Michael T., Jenö, Paul, Mini, Thierry, Moes, Suzette, Horst, Martin, Jinnai, Kenji, Ashizawa, Tetsuo, Atassi, M. Zouhair, Johnsen, Anders H., Jensen, Hanne, Rehfeld, Jens F., Kamo, Masaharu, Kawakami, Takao, Miyatake, Norifumi, Tsugita, Akira, Keen, JN, Zagalsky, PF, Findlay, JBC, Kraft, Regine, Kostka, Susanne, Hartmann, Enno, Krutzsch, Henry C., Inman, John K., Machalinski, Claudia, Bonino, Mirtha Biscoglio de Jiménez, McRorie, Donald K., Dieckmann, Gregg R., Heilman, Susan, DeGrado, William F., Pecoraro, Vincent L., Kenny, James, Sahakian, Julie, Tso, Jacqueline, Moyer, Mary B., Burkhart, William A., Muranova, Tatyana, Makova, Lubov, Nicholas, Hugh, Hempel, John, Hinich, Amy, Deerfield, David, Behrmann, Joseph, Ropelewski, Alex, Nixon, Lori, Maneri, Leonard, Nugent, Kerry, Stoney, Ken, Wieser, John, Ohguro, Hiroshi, Palczewski, Krzysztof, Walsh, Kenneth A., Johnson, Richard S., Packman, Leonard C, Webster, Carl, Gray, John, Padrón, G., Morera, V., González, L. J., Támbara, Y., Besada, V., Villalonga, R., Chinea, G., Reyes, O., Bringas, H. Garay R., Nazábal, C., Parkinson, Bruce P., Yamada, Kent A., Randolph, Anne, Pisano, Anthony, Packer, Nicole H., Redmond, John W., Williams, Keith L., Gooley, Andrew A., Rasmussen, Hanne H., Mørtz, Ejvind, Mann, Matthias, Celis, Julio E., Rasmussen, Lone K., Sørensen, Esben S., Petersen, Torben E., Gliemann, Jørgen, Jensen, Poul Henning, Renlund, Staffan, Wadensten, Henrik, Persson, Annika, Persson, Per, Johansson, Agneta, Edlund, Per -Olof, Rose, Donald J., Sack, Ragna, Apffel, Alex, Miller, Chad, Levine, Rodney L., Sakaguchi, Kazuyasu, Zambrano, Nicola, Lewis, Marc S., Baldwin, Eric T., Shapiro, Bruce A., Erickson, John W, Omichinski, James G., Clore, G. Marius, Gronenborn, Angela M., Appella, Ettore, Schröder, Werner, Moser, Irmgard, Pansegrau, Werner, Lanka, Erich, Simpson, Richard J., Eddes, James, Ji, Hong, Reid, Gavin E., Moritz, Robert L., Højrup, Peter, Speicher, David W., Reim, David F., Speicher, Kaye D., Srinivasa, B. R., Barde, S. P., Stirtan, William G., Sukhanova, Alyona, Vorob'ev, Sergey, Gabibov, Alexander, Bronstein, Igor, Tanaka, Kenji, Einaga, Kuniko, Tsukada, Minoru, Tait, Jonathan F., Fujikawa, Kazuo, Takamoto, Keiji, Satake, Kazuo, Vakser, Ilya A., Velikodvorskaia, V. V., Gabibov, A. G., Rabinkov, A. G., Videler, Tennie, Osborne, Michael, Moore, Geoffrey, James, Richard, Kleanthous, Colin, Walent, Jane H., Bessen, Richard, Marsh, Dick, Clore, G. Marius, Niece, Ronald L., Tsao, Francis H. C., Wang, Hong, Weinberger, Scot R., Chakel, Lynn M., Wondrak, Ewald M., Kimmel, Alan R., and Louis, John M.

Published
1994
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13. 6 months versus 12 months of adjuvant trastuzumab in early breast cancer (PHARE): final analysis of a multicentre, open-label, phase 3 randomised trial

Author

Pivot, Xavier, primary, Romieu, Gilles, additional, Debled, Marc, additional, Pierga, Jean-Yves, additional, Kerbrat, Pierre, additional, Bachelot, Thomas, additional, Lortholary, Alain, additional, Espié, Marc, additional, Fumoleau, Pierre, additional, Serin, Daniel, additional, Jacquin, Jean-Philippe, additional, Jouannaud, Christelle, additional, Rios, Maria, additional, Abadie-Lacourtoisie, Sophie, additional, Venat-Bouvet, Laurence, additional, Cany, Laurent, additional, Catala, Stéphanie, additional, Khayat, David, additional, Gambotti, Laetitia, additional, Pauporté, Iris, additional, Faure-Mercier, Celine, additional, Paget-Bailly, Sophie, additional, Henriques, Julie, additional, Grouin, Jean Marie, additional, Piprot, C, additional, Cals, L, additional, Chaigneau, L, additional, Demarchi, F, additional, N'Guyen, T, additional, Stein, U, additional, Villanueva, C, additional, Bréau, JL, additional, Chouahnia, AK, additional, Saintigny, P, additional, Boué, F, additional, deSaint-Hilaire, P, additional, Guimont, I, additional, Grossat, N, additional, Valenza, B, additional, Lévy, E, additional, Médioni, J, additional, Delbaldo, C, additional, Grenier, J, additional, Pouessel, D, additional, Lavau-Denès, S, additional, Falandry, C, additional, Fournel-Fédérico, C, additional, Freyer, G, additional, Tartas, S, additional, Trillet-Lenoir, V, additional, Bons, F, additional, Auclerc, G, additional, Chièze, S, additional, Raban, N, additional, Tournigand, C, additional, Trager-Maury, S, additional, Bousquet, G, additional, Cuvier, C, additional, Giacchetti, S, additional, Hocini, A, additional, LeMaignan, C, additional, Misset, JL, additional, Avenin, D, additional, Beerblock, C, additional, Gligorov, J, additional, Rivera, P, additional, Roché, H, additional, Bougnoux, P, additional, Hajjaji, N, additional, Capitain, O, additional, Delva, R, additional, Maillart, P, additional, Soulié, P, additional, Bonnefoi, H, additional, Durand, M, additional, Madranges, N, additional, Mauriac, L, additional, Chollet, P, additional, Dillies, AF, additional, Durando, X, additional, Ferrière, JP, additional, Mouret-Reynier, C, additional, Nabholtz, JM, additional, Van Praagh, I, additional, Cottu, P, additional, Diéras, V, additional, Durieux, A, additional, Galotte, M, additional, Girre, V, additional, Henry, S, additional, Iurisci, I, additional, Jouve, M, additional, Laurence, V, additional, Mignot, L, additional, Piperno-Neumann, S, additional, Tresca, P, additional, Coudert, B, additional, Ferrant, E, additional, Mayer, F, additional, Vanneuville, AC, additional, Bonneterre, J, additional, Servent, V, additional, Vanlemmens, L, additional, Vennin, P, additional, Guastalla, JP, additional, Biron, P, additional, Dupuy-Brousseau, L, additional, Lancry, L, additional, Ray-Coquard, I, additional, Rebattu, P, additional, Trédan, O, additional, Extra, JM, additional, Rousseau, F, additional, Tarpin, C, additional, Fabbro, M, additional, Luporsi, E, additional, Uwer, L, additional, Weber, B, additional, Berton-Rigaud, D, additional, Bourbouloux, E, additional, Campone, M, additional, Ferrero, JM, additional, Follana, P, additional, Largillier, R, additional, Mari, V, additional, Costa, B, additional, Curé, H, additional, Eymard, JC, additional, Jovenin, N, additional, Lebrun, D, additional, Meunier, J, additional, Yazbek, G, additional, Gedoin, D, additional, Laguerre, B, additional, Lefeuvre, C, additional, Vauléon, E, additional, Chevrier, A, additional, Guillemet, C, additional, Leheurteur, M, additional, Rigal, O, additional, Tennevet, I, additional, Veyret, C, additional, Brain, E, additional, Guiterrez, M, additional, Mefti-Lacheraf, F, additional, Petit, T, additional, Dalenc, F, additional, Gladieff, L, additional, André, F, additional, Delaloge, S, additional, Domont, J, additional, Ezenfis, J, additional, Spielmann, M, additional, Guillet, P, additional, Boulanger, V, additional, Provençal, J, additional, Stefani, L, additional, Alliot, C, additional, Ré, D, additional, Bellaiche-Miccio, C, additional, Boutan-Laroze, G, additional, Vanica, R, additional, Dion, P, additional, Sadki-Benaoudia, G, additional, Marti, A, additional, Villing, AL, additional, Slama, B, additional, Dutel, JL, additional, Nguyen, S, additional, Saad, R, additional, Arsène, O, additional, Merad-Boudia, Z, additional, Orfeuvre, H, additional, Egreteau, J, additional, Goudier, MJ, additional, Lamy, R, additional, Leduc, B, additional, Sarda, C, additional, Salles, B, additional, Agostini, C, additional, Cauvin, I, additional, Dufresne, A, additional, Mangold, M, additional, Lebouvier-Sadot, S, additional, Audhuy, B, additional, Barats, JC, additional, Cluet-Dennetière, S, additional, Zylberait, D, additional, Netter, G, additional, Gautier-Felizot, L, additional, Cojean-Zelek, I, additional, Plantade, A, additional, Vignot, S, additional, Guardiola, E, additional, Marti, P, additional, deHartingh, I, additional, Diab, R, additional, Dietmann, A, additional, Ruck, S, additional, Portois, C, additional, Oddou-Lagranière, S, additional, Campos-Gazeau, F, additional, Bourcier, A, additional, Priou, F, additional, Geay, JF, additional, Mayeur, D, additional, Gabez, P, additional, ElAmarti, R, additional, Combe, M, additional, Raichon-Patru, P, additional, Amsalhem, P, additional, Dauba, J, additional, Paraiso, D, additional, Guinet, F, additional, Duvert, B, additional, Litor, M, additional, Kara-Slimane, F, additional, Bichoffe, A, additional, Denizon, N, additional, Soyer, P, additional, Morvan, F, additional, Van-Hulst, S, additional, Vincent, L, additional, Alleaume, C, additional, Ibanez-Martin, P, additional, Youssef, A, additional, Tadrist, Z, additional, Carola, E, additional, Pourny, C, additional, Toccanier, JF, additional, Al-Aukla, N, additional, Mahour-Bacha, K, additional, Salvat, J, additional, Nouyrigat, P, additional, Clippe, S, additional, Gouttebel, MC, additional, Vedrine, L, additional, Clavreul, G, additional, Collard, O, additional, Mille, D, additional, Goubely, Y, additional, Hervé, R, additional, Kirscher, S, additional, Plat, F, additional, Delecroix, V, additional, Ligeza-Poisson, V, additional, Coeffic, D, additional, Fric, D, additional, Garnier, C, additional, Leyronnas, C, additional, Kreitman, T, additional, Teissier, E, additional, Martin, P, additional, Rohart deCordoue, S, additional, ElKouri, C, additional, Ramée, JF, additional, Laporte, C, additional, Bernard, O, additional, Altwegg, T, additional, Darut-Jouve, A, additional, Dujols, JP, additional, Darloy, F, additional, Giraud, C, additional, Pottier-Kyndt, V, additional, Achour, N, additional, Drony, S, additional, Moriceau, M, additional, Sarrazin, C, additional, Legueul, JC, additional, Mandet, J, additional, Besson, D, additional, Hardy-Bessard, AC, additional, Cretin, J, additional, Houyau, P, additional, Achille, E, additional, Genêt, D, additional, Thévenot, H, additional, Moran-Ribon, A, additional, Pavlovitch, JM, additional, Ardisson, P, additional, Moullet, I, additional, Couderc, B, additional, Fichet, V, additional, Burki, F, additional, Auliard, A, additional, Levaché, CB, additional, Cailleux, P, additional, Schaeffer, F, additional, Albin, N, additional, Sévin-Robiche, D, additional, Domas, J, additional, Ellis, S, additional, Montcuquet, P, additional, Baumont, GA, additional, Bégue, M, additional, Gréget, S, additional, Ratoanina, JL, additional, Vanoli, A, additional, Bielsa, C, additional, Bonichon-Lamichhane, M, additional, Jaubert, D, additional, Laharie-Mineur, H, additional, Alcaraz, L, additional, Legouffe, E, additional, Bourgeois, H, additional, Cartron, G, additional, Denis, F, additional, Dupuis, O, additional, Ganem, G, additional, Roche-Forestier, S, additional, Delzenne, L, additional, Chirat, E, additional, Baticle, JL, additional, Béguier, E, additional, Jacquot, S, additional, Janssen, E, additional, Lauché, H, additional, LeRol, A, additional, Chantelard, JP, additional, L'Helgoualc'h, GA, additional, Antoine, EC, additional, Kanoui, A, additional, Llory, JF, additional, Vannetzel, JM, additional, Vignoud, J, additional, Bruna, C, additional, Facchini, T, additional, Moutel-Corviole, K, additional, Voloch, A, additional, Ghoul, A, additional, Loiseau, D, additional, Barbet, N, additional, Dohollou, N, additional, and Yakendji, K, additional

Published
2019
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18. Polyclonal Antibodies Against the Rat Nk1 Receptor - Characterization and Localization in the Spinal-cord

Author

UCL - MD/FSIO - Département de physiologie et pharmacologie, Moussaoui, SM., Hermans, Emmanuel, Mathieu, AM., Bonici, B., Clerc, F., Guinet, F., Garret, C., Laduron, PM., UCL - MD/FSIO - Département de physiologie et pharmacologie, Moussaoui, SM., Hermans, Emmanuel, Mathieu, AM., Bonici, B., Clerc, F., Guinet, F., Garret, C., and Laduron, PM.

Abstract

WE have developed antibodies against the NK1 receptor and have investigated its cellular distribution. Rabbit polyclonal antibodies were generated against peptide (19-32) of the rat brain NK1 receptor. They were very specific to the NK1 site as shown by ELISA against various epitopes of NK1, NK2 and NK3 receptors and by immunoblotting of proteins from bacteria transfected with rat brain NK1 receptor cDNA and from rat cortex. Determining how immunostained NK1 receptors are distributed in the rat spinal cord made it possible to identify the cellular structures on which NK1 receptors are located and where they form synapses with SP terminals. In the superficial layers of the dorsal horn, the NK1 receptors appeared mainly of dendritic nature and were, like SP, abundant. In the deep layers of the dorsal horn and in the ventral horn, they were associated mostly with cell bodies.

Published
1992

21. Continuous low-dose racemic verapamil (VER) significantly increases response rate and survival in patients treated by VDS and 5-FU (VF) for anthracycline resistant metastatic breast carcinoma (MBC)

Author

Belpomme, D, primary, Pujade-Laurainc, E, additional, Gauthier, S, additional, Krakowski, I, additional, Frenay, M, additional, Filippi, M H, additional, Facchini, T, additional, Gaudier, M J, additional, Guinet, F, additional, Netter-Pinon, G, additional, Roullet, B, additional, Bastion, Y, additional, Platini, C, additional, Darse, T, additional, Rol, A Le, additional, Mignot, L, additional, Riou, R, additional, and Fretault, N, additional

Published
1994
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32. A measles-vectored vaccine candidate expressing prefusion-stabilized SARS-CoV-2 spike protein brought to phase I/II clinical trials: candidate selection in a preclinical murine model.

Author

Brunet J, Choucha Z, Gransagne M, Tabbal H, Ku M-W, Buchrieser J, Fernandes P, Batalie D, Lopez J, Ma L, Dufour E, Simon E, Hardy D, Petres S, Guinet F, Strick-Marchand H, Monot M, Charneau P, Majlessi L, Duprex WP, Gerke C, Martin A, and Escriou N

Subjects
Animals, Female, Humans, Mice, Antibodies, Neutralizing immunology, Antibodies, Neutralizing blood, Antibodies, Viral blood, Antibodies, Viral immunology, COVID-19 prevention & control, COVID-19 immunology, COVID-19 virology, Disease Models, Animal, Genetic Vectors, Measles Vaccine immunology, Measles Vaccine genetics, Mice, Inbred BALB C, COVID-19 Vaccines immunology, Measles virus immunology, Measles virus genetics, SARS-CoV-2 immunology, SARS-CoV-2 genetics, Spike Glycoprotein, Coronavirus immunology, Spike Glycoprotein, Coronavirus genetics
Abstract

In the early COVID-19 pandemic with urgent need for countermeasures, we aimed at developing a replicating viral vaccine using the highly efficacious measles vaccine as vector, a promising technology with prior clinical proof of concept. Building on our successful pre-clinical development of a measles virus (MV)-based vaccine candidate against the related SARS-CoV, we evaluated several recombinant MV expressing codon-optimized SARS-CoV-2 spike glycoprotein. Candidate V591 expressing a prefusion-stabilized spike through introduction of two proline residues in HR1 hinge loop, together with deleted S1/S2 furin cleavage site and additional inactivation of the endoplasmic reticulum retrieval signal, was the most potent in eliciting neutralizing antibodies in mice. After single immunization, V591 induced similar neutralization titers as observed in sera of convalescent patients. The cellular immune response was confirmed to be Th1 skewed. V591 conferred long-lasting protection against SARS-CoV-2 challenge in a murine model with marked decrease in viral RNA load, absence of detectable infectious virus loads, and reduced lesions in the lungs. V591 was furthermore efficacious in an established non-human primate model of disease (see companion article [S. Nambulli, N. Escriou, L. J. Rennick, M. J. Demers, N. L. Tilston-Lunel et al., J Virol 98:e01762-23, 2024, https://doi.org/10.1128/jvi.01762-23]). Thus, V591 was taken forward into phase I/II clinical trials in August 2020. Unexpected low immunogenicity in humans (O. Launay, C. Artaud, M. Lachâtre, M. Ait-Ahmed, J. Klein et al., eBioMedicine 75:103810, 2022, https://doi.org/10.1016/j.ebiom.2021.103810) revealed that the underlying mechanisms for resistance or sensitivity to pre-existing anti-measles immunity are not yet understood. Different hypotheses are discussed here, which will be important to investigate for further development of the measles-vectored vaccine platform.IMPORTANCESARS-CoV-2 emerged at the end of 2019 and rapidly spread worldwide causing the COVID-19 pandemic that urgently called for vaccines. We developed a vaccine candidate using the highly efficacious measles vaccine as vector, a technology which has proved highly promising in clinical trials for other pathogens. We report here and in the companion article by Nambulli et al. (J Virol 98:e01762-23, 2024, https://doi.org/10.1128/jvi.01762-23) the design, selection, and preclinical efficacy of the V591 vaccine candidate that was moved into clinical development in August 2020, 7 months after the identification of SARS-CoV-2 in Wuhan. These unique in-human trials of a measles vector-based COVID-19 vaccine revealed insufficient immunogenicity, which may be the consequence of previous exposure to the pediatric measles vaccine. The three studies together in mice, primates, and humans provide a unique insight into the measles-vectored vaccine platform, raising potential limitations of surrogate preclinical models and calling for further refinement of the platform., Competing Interests: J. Brunet, Z.C., M.G., H.S.-M., M.M., P.C., L. Majlessi, C.G., A.M., and N.E. are inventors of a patent application describing measles-vectored vaccine candidates against SARS-CoV-2. All other authors declare no financial or non-financial competing interests.

Published
2024
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33. Mice humanized for MHC and hACE2 with high permissiveness to SARS-CoV-2 omicron replication.

Author

Le Chevalier F, Authié P, Chardenoux S, Bourgine M, Vesin B, Cussigh D, Sassier Y, Fert I, Noirat A, Nemirov K, Anna F, Bérard M, Guinet F, Hardy D, Charneau P, Lemonnier F, Langa-Vives F, and Majlessi L

Subjects
Animals, Mice, Humans, SARS-CoV-2 genetics, COVID-19 Vaccines, Permissiveness, Major Histocompatibility Complex, Mice, Transgenic, Angiotensin-Converting Enzyme 2 genetics, COVID-19
Abstract

Human Angiotensin-Converting Enzyme 2 (hACE2) is the major receptor enabling host cell invasion by SARS-CoV-2 via interaction with Spike. The murine ACE2 does not interact efficiently with SARS-CoV-2 Spike and therefore the laboratory mouse strains are not permissive to SARS-CoV-2 replication. Here, we generated new hACE2 transgenic mice, which harbor the hACE2 gene under the human keratin 18 promoter, in "HHD-DR1" background. HHD-DR1 mice are fully devoid of murine Major Histocompatibility Complex (MHC) molecules of class-I and -II and express only MHC molecules from Human Leukocyte Antigen (HLA) HLA 02.01, DRA01.01, DRB1.01.01 alleles, widely expressed in human populations. We selected three transgenic strains, with various hACE2 mRNA expression levels and distinctive profiles of lung and/or brain permissiveness to SARS-CoV-2 replication. These new hACE2 transgenic strains display high permissiveness to the replication of SARS-CoV-2 Omicron sub-variants, while the previously available B6.K18-ACE2 2Prlmn/JAX mice have been reported to be poorly susceptible to infection with Omicron. As a first application, one of these MHC- and ACE2-humanized strains was successfully used to show the efficacy of a lentiviral-based COVID-19 vaccine., Competing Interests: Declaration of Competing Interest PC is the founder and CSO of TheraVectys. FLC, PA, BV, IF, FM, AN, KN and FA are employees of TheraVectys. LM has a consultancy activity for TheraVectys. Other authors declare no competing interests., (Copyright © 2023 The Author(s). Published by Elsevier Masson SAS.. All rights reserved.)

Published
2023
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34. DNA hypomethylation of the host tree impairs interaction with mutualistic ectomycorrhizal fungus.

Author

Vigneaud J, Kohler A, Sow MD, Delaunay A, Fauchery L, Guinet F, Daviaud C, Barry KW, Keymanesh K, Johnson J, Singan V, Grigoriev I, Fichot R, Conde D, Perales M, Tost J, Martin FM, Allona I, Strauss SH, Veneault-Fourrey C, and Maury S

Subjects
Trees genetics, Trees metabolism, Plant Roots metabolism, DNA Methylation genetics, DNA, Mycorrhizae physiology, Populus metabolism, Laccaria genetics
Abstract

Ectomycorrhizas are an intrinsic component of tree nutrition and responses to environmental variations. How epigenetic mechanisms might regulate these mutualistic interactions is unknown. By manipulating the level of expression of the chromatin remodeler DECREASE IN DNA METHYLATION 1 (DDM1) and two demethylases DEMETER-LIKE (DML) in Populus tremula × Populus alba lines, we examined how host DNA methylation modulates multiple parameters of the responses to root colonization with the mutualistic fungus Laccaria bicolor. We compared the ectomycorrhizas formed between transgenic and wild-type (WT) trees and analyzed their methylomes and transcriptomes. The poplar lines displaying lower mycorrhiza formation rate corresponded to hypomethylated overexpressing DML or RNAi-ddm1 lines. We found 86 genes and 288 transposable elements (TEs) differentially methylated between WT and hypomethylated lines (common to both OX-dml and RNAi-ddm1) and 120 genes/1441 TEs in the fungal genome suggesting a host-induced remodeling of the fungal methylome. Hypomethylated poplar lines displayed 205 differentially expressed genes (cis and trans effects) in common with 17 being differentially methylated (cis). Our findings suggest a central role of host and fungal DNA methylation in the ability to form ectomycorrhizas including not only poplar genes involved in root initiation, ethylene and jasmonate-mediated pathways, and immune response but also terpenoid metabolism., (© 2023 The Authors New Phytologist © 2023 New Phytologist Foundation This article has been contributed to by U.S. Government employees and their work is in the public domain in the USA.)

Published
2023
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35. Confocal Laser Scanning Microscopy Approach to Investigate Plant-Fungal Interactions.

Author

Fracchia F, Basso V, Guinet F, Veneault-Fourrey C, and Deveau A

Subjects
Humans, Plant Roots microbiology, Fungi genetics, Bacteria genetics, Plants microbiology, Microscopy, Confocal, Soil Microbiology, Mycorrhizae, Microbiota
Abstract

Plants interact with a broad range of microorganisms, such as bacteria and fungi. In plant roots, complex microbial communities participate in plant nutrition and development as well as in the protection against stresses. The establishment of the root microbiota is a dynamic process in space and time regulated by abiotic (e.g., edaphic, climate, etc.) and biotic factors (e.g., host genotype, root exudates, etc.). In the last 20 years, the development of metabarcoding surveys, based on high-throughput next-generation sequencing methods, identified the main drivers of microbial community structuration. However, identification of plant-associated microbes by sequencing should be complemented by imaging techniques to provide information on the micrometric spatial organization and its impact on plant-fungal and fungal-fungal interactions. Laser scanning confocal microscopy can provide both types of information and is now used to investigate communities of endophytic, endomycorrhizal, and ectomycorrhizal fungi. In this chapter, we present a protocol enabling the detection of fungal individuals and communities associated to the plant root system., (© 2023. The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature.)

Published
2023
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36. Full-Lung Prophylaxis against SARS-CoV-2 by One-Shot or Booster Intranasal Lentiviral Vaccination in Syrian Golden Hamsters.

Author

Vesin B, Authié P, Blanc C, Fert I, Noirat A, Le Chevalier F, Wei Y, Ku MW, Nemirov K, Anna F, Hardy D, Planchais C, Mouquet H, Guinet F, Charneau P, Majlessi L, and Bourgine M

Abstract

Following the breakthrough of numerous severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) variants in recent months and the incomplete efficiency of the currently available vaccines, development of more effective vaccines is desirable. Non-integrative, non-cytopathic and non-inflammatory lentiviral vectors elicit sterilizing prophylaxis against SARS-CoV-2 in preclinical animal models and are particularly suitable for mucosal vaccination, which is acknowledged as the most effective in reducing viral transmission. Here, we demonstrate that a single intranasal administration of a vaccinal lentiviral vector encoding a stabilized form of the original SARS-CoV-2 Spike glycoprotein induces full-lung protection of respiratory tracts and strongly reduces pulmonary inflammation in the susceptible Syrian golden hamster model against the prototype SARS-CoV-2. In addition, we show that a lentiviral vector encoding stabilized Spike of SARS-CoV-2 Beta variant (LV::S Beta-2P ) prevents pathology and reduces infectious viral loads in lungs and nasal turbinates following inoculation with the SARS-CoV-2 Omicron variant. Importantly, an intranasal boost with LV::S Beta-2P improves cross-seroneutralization much better in LV::S Beta-2P -primed hamsters than in their counterparts primed with an LV-encoding Spike from the ancestral SARS-CoV-2. These results strongly suggest that an immune imprint with the original Spike sequence has a negative impact on cross-protection against new variants. Our results tackle the issue of vaccine effectiveness in people who have already been vaccinated and have vanished immunity and indicate the efficiency of LV-based intranasal vaccination, either as a single dose or as booster.

Published
2022
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37. An intranasal lentiviral booster reinforces the waning mRNA vaccine-induced SARS-CoV-2 immunity that it targets to lung mucosa.

Author

Vesin B, Lopez J, Noirat A, Authié P, Fert I, Le Chevalier F, Moncoq F, Nemirov K, Blanc C, Planchais C, Mouquet H, Guinet F, Hardy D, Vives FL, Gerke C, Anna F, Bourgine M, Majlessi L, and Charneau P

Subjects
Animals, Antibodies, Neutralizing, Antibodies, Viral, COVID-19 Vaccines, Humans, Lung, Mice, Mucous Membrane, SARS-CoV-2 genetics, Vaccination, Vaccines, Synthetic, mRNA Vaccines, COVID-19 prevention & control, Viral Vaccines
Abstract

As the coronavirus disease 2019 (COVID-19) pandemic continues and new severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) variants of concern emerge, the adaptive immunity initially induced by the first-generation COVID-19 vaccines starts waning and needs to be strengthened and broadened in specificity. Vaccination by the nasal route induces mucosal, humoral, and cellular immunity at the entry point of SARS-CoV-2 into the host organism and has been shown to be the most effective for reducing viral transmission. The lentiviral vaccination vector (LV) is particularly suitable for this route of immunization owing to its non-cytopathic, non-replicative, and scarcely inflammatory properties. Here, to set up an optimized cross-protective intranasal booster against COVID-19, we generated an LV encoding stabilized spike of SARS-CoV-2 Beta variant (LV::S Beta-2P ). mRNA vaccine-primed and -boosted mice, with waning primary humoral immunity at 4 months after vaccination, were boosted intranasally with LV::S Beta-2P . A strong boost effect was detected on cross-sero-neutralizing activity and systemic T cell immunity. In addition, mucosal anti-spike IgG and IgA, lung-resident B cells, and effector memory and resident T cells were efficiently induced, correlating with complete pulmonary protection against the SARS-CoV-2 Delta variant, demonstrating the suitability of the LV::S Beta-2P vaccine candidate as an intranasal booster against COVID-19. LV::S Beta-2P vaccination was also fully protective against Omicron infection of the lungs and central nervous system, in the highly susceptible B6.K18-hACE2 IP-THV transgenic mice., Competing Interests: Declaration of interests P.C. is the founder and CSO of TheraVectys. B.V., A.N., P.A., I.F., F.L.C., F.M., K.N., and F.A. are employees of TheraVectys. L.M. has a consultancy activity for TheraVectys. The other authors declare no competing interests. P.A., I.F., J.L., B.V., F.A., M.B., L.M., and P.C. are the inventors of pending patents directed to the potential of i.n. LV::S vaccination against SARS-CoV-2., (Copyright © 2022 The American Society of Gene and Cell Therapy. Published by Elsevier Inc. All rights reserved.)

Published
2022
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38. A lentiviral vector encoding fusion of light invariant chain and mycobacterial antigens induces protective CD4 + T cell immunity.

Author

Lopez J, Anna F, Authié P, Pawlik A, Ku MW, Blanc C, Souque P, Moncoq F, Noirat A, Hardy D, Sougakoff W, Brosch R, Guinet F, Charneau P, and Majlessi L

Subjects
Animals, Antigens, Bacterial, Antigens, Differentiation, B-Lymphocyte, CD4-Positive T-Lymphocytes, CD8-Positive T-Lymphocytes, Genetic Vectors, Lentivirus, Mice, Mice, Inbred C57BL, Mycobacteriaceae, Histocompatibility Antigens Class II, Mycobacterium tuberculosis
Abstract

Lentiviral vectors (LVs) are highly efficient at inducing CD8 + T cell responses. However, LV-encoded antigens are processed inside the cytosol of antigen-presenting cells, which does not directly communicate with the endosomal major histocompatibility complex class II (MHC-II) presentation pathway. LVs are thus poor at inducing CD4 + T cell response. To overcome this limitation, we devised a strategy whereby LV-encoded antigens are extended at their N-terminal end with the MHC-II-associated light invariant chain (li), which contains an endosome-targeting signal sequence. When evaluated with an LV-encoded polyantigen composed of CD4 + T cell targets from Mycobacterium tuberculosis, intranasal vaccination in mice triggers pulmonary polyfunctional CD4 + and CD8 + T cell responses. Adjuvantation of these LVs extends the mucosal immunity to Th17 and Tc17 responses. A systemic prime and an intranasal boost with one of these LV induces protection against M. tuberculosis. This strategy improves the protective power of LVs against infections and cancers, where CD4 + T cell immunity plays an important role., Competing Interests: Declaration of interests P.C. is the founder and CSO of TheraVectys. J.L., F.A., P.A., M.-W.K., F.M., and A.N. are employees of TheraVectys. J.L., F.A., C.B., F.M., L.M., and P.C. are inventors of a pending patent directed to LV immunization able to induce CD4(+) T cells., (Copyright © 2022 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2022
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39. Molecular basis of differential adventitious rooting competence in poplar genotypes.

Author

Ranjan A, Perrone I, Alallaq S, Singh R, Rigal A, Brunoni F, Chitarra W, Guinet F, Kohler A, Martin F, Street NR, Bhalerao R, Legué V, and Bellini C

Subjects
Genotype, Plant Proteins genetics, Plant Proteins metabolism, Plant Roots metabolism, Transcription Factors metabolism, Gene Expression Regulation, Plant, Populus
Abstract

Recalcitrant adventitious root (AR) development is a major hurdle in propagating commercially important woody plants. Although significant progress has been made to identify genes involved in subsequent steps of AR development, the molecular basis of differences in apparent recalcitrance to form AR between easy-to-root and difficult-to-root genotypes remains unknown. To address this, we generated cambium tissue-specific transcriptomic data from stem cuttings of hybrid aspen, T89 (difficult-to-root) and hybrid poplar OP42 (easy-to-root), and used transgenic approaches to verify the role of several transcription factors in the control of adventitious rooting. Increased peroxidase activity was positively correlated with better rooting. We found differentially expressed genes encoding reactive oxygen species scavenging proteins to be enriched in OP42 compared with T89. A greater number of differentially expressed transcription factors in cambium cells of OP42 compared with T89 was revealed by a more intense transcriptional reprograming in the former. PtMYC2, a potential negative regulator, was less expressed in OP42 compared with T89. Using transgenic approaches, we demonstrated that PttARF17.1 and PttMYC2.1 negatively regulate adventitious rooting. Our results provide insights into the molecular basis of genotypic differences in AR and implicate differential expression of the master regulator MYC2 as a critical player in this process., (© The Author(s) 2022. Published by Oxford University Press on behalf of the Society for Experimental Biology.)

Published
2022
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40. A lentiviral vector expressing a dendritic cell-targeting multimer induces mucosal anti-mycobacterial CD4 + T-cell immunity.

Author

Anna F, Lopez J, Moncoq F, Blanc C, Authié P, Noirat A, Fert I, Souque P, Nevo F, Pawlik A, Hardy D, Goyard S, Hudrisier D, Brosch R, Guinet F, Neyrolles O, Charneau P, and Majlessi L

Subjects
Mice, Animals, Dendritic Cells, Mice, Inbred C57BL, Genetic Vectors genetics, CD8-Positive T-Lymphocytes, CD4-Positive T-Lymphocytes
Abstract

Most viral vectors, including the potently immunogenic lentiviral vectors (LVs), only poorly direct antigens to the MHC-II endosomal pathway and elicit CD4 + T cells. We developed a new generation of LVs encoding antigen-bearing monomers of collectins substituted at their C-terminal domain with the CD40 ligand ectodomain to target and activate antigen-presenting cells. Host cells transduced with such optimized LVs secreted soluble collectin-antigen polymers with the potential to be endocytosed in vivo and reach the MHC-II pathway. In the murine tuberculosis model, such LVs induced efficient MHC-II antigenic presentation and triggered both CD8 + and CD4 + T cells at the systemic and mucosal levels. They also conferred a significant booster effect, consistent with the importance of CD4 + T cells for protection against Mycobacterium tuberculosis. Given the pivotal role of CD4 + T cells in orchestrating innate and adaptive immunity, this strategy could have a broad range of applications in the vaccinology field., (© 2022. The Author(s).)

Published
2022
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41. A Transcriptomic Atlas of the Ectomycorrhizal Fungus Laccaria bicolor .

Author

Ruytinx J, Miyauchi S, Hartmann-Wittulsky S, de Freitas Pereira M, Guinet F, Churin JL, Put C, Le Tacon F, Veneault-Fourrey C, Martin F, and Kohler A

Abstract

Trees are able to colonize, establish and survive in a wide range of soils through associations with ectomycorrhizal (EcM) fungi. Proper functioning of EcM fungi implies the differentiation of structures within the fungal colony. A symbiotic structure is dedicated to nutrient exchange and the extramatricular mycelium explores soil for nutrients. Eventually, basidiocarps develop to assure last stages of sexual reproduction. The aim of this study is to understand how an EcM fungus uses its gene set to support functional differentiation and development of specialized morphological structures. We examined the transcriptomes of Laccaria bicolor under a series of experimental setups, including the growth with Populus tremula x alba at different developmental stages, basidiocarps and free-living mycelium, under various conditions of N, P and C supply. In particular, N supply induced global transcriptional changes, whereas responses to P supply seemed to be independent from it. Symbiosis development with poplar is characterized by transcriptional waves. Basidiocarp development shares transcriptional signatures with other basidiomycetes. Overlaps in transcriptional responses of L. bicolor hyphae to a host plant and N/C supply next to co-regulation of genes in basidiocarps and mature mycorrhiza were detected. Few genes are induced in a single condition only, but functional and morphological differentiation rather involves fine tuning of larger gene sets. Overall, this transcriptomic atlas builds a reference to study the function and stability of EcM symbiosis in distinct conditions using L. bicolor as a model and indicates both similarities and differences with other ectomycorrhizal fungi, allowing researchers to distinguish conserved processes such as basidiocarp development from nutrient homeostasis.

Published
2021
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42. Brain cross-protection against SARS-CoV-2 variants by a lentiviral vaccine in new transgenic mice.

Author

Ku MW, Authié P, Bourgine M, Anna F, Noirat A, Moncoq F, Vesin B, Nevo F, Lopez J, Souque P, Blanc C, Fert I, Chardenoux S, Lafosse L, Cussigh D, Hardy D, Nemirov K, Guinet F, Langa Vives F, Majlessi L, and Charneau P

Subjects
Animals, Antibodies, Neutralizing, Antibodies, Viral, Brain metabolism, COVID-19 Vaccines, Humans, Mice, Mice, Transgenic, Spike Glycoprotein, Coronavirus metabolism, COVID-19, SARS-CoV-2
Abstract

COVID-19 vaccines already in use or in clinical development may have reduced efficacy against emerging SARS-CoV-2 variants. In addition, although the neurotropism of SARS-CoV-2 is well established, the vaccine strategies currently developed have not taken into account protection of the central nervous system. Here, we generated a transgenic mouse strain expressing the human angiotensin-converting enzyme 2, and displaying unprecedented brain permissiveness to SARS-CoV-2 replication, in addition to high permissiveness levels in the lung. Using this stringent transgenic model, we demonstrated that a non-integrative lentiviral vector, encoding for the spike glycoprotein of the ancestral SARS-CoV-2, used in intramuscular prime and intranasal boost elicits sterilizing protection of lung and brain against both the ancestral virus, and the Gamma (P.1) variant of concern, which carries multiple vaccine escape mutations. Beyond induction of strong neutralizing antibodies, the mechanism underlying this broad protection spectrum involves a robust protective T-cell immunity, unaffected by the recent mutations accumulated in the emerging SARS-CoV-2 variants., (© 2021 The Authors. Published under the terms of the CC BY 4.0 license.)

Published
2021
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43. Efficacy of Auricular Acupuncture in Chemotherapy-Induced Peripheral Neuropathy: A Case Series of 73 Cases.

Author

Viel E, Truong D, Rambach L, Guinet F, Vanoli A, Schipman B, and Harami D

Abstract

Background: Chemotherapy-induced peripheral neuropathy (CIPN) can adversely affect completion of systemic anticancer treatment and cause long-term morbidity. To date, its physiopathology remains unclear, and treatments are rare and poorly performed. Auricular acupuncture has already offered interesting results in several symptoms. Objective: This study (AACIPN2020) assessed the efficacy of auriculotherapy in CIPN. Design: We used patients' systematically collected data of 2014-2016 in a medical oncology practice. The treatment was made according to guidelines of the interuniversity diploma and the cartography of the World Health Organization. Pain assessment according to the Common Terminology Criteria for Adverse Event scale was orally collected. Results: Seventy-three cancer patients were treated for CIPN. They had finished chemotherapy 24 weeks prior on average. They received on average 23 punctures at each appointment. Sixty-five percent of patients met satisfaction, with 31% with a real impact on their daily life. Efficacy appeared after one or two treatments for 96% of cases. Some patients continued treatment to maximize benefits. Conclusions: Auricular acupuncture is a safe and inexpensive method of CIPN treatment. It may be applied earlier in chemotherapy administration, and in a large variety of other symptoms. Clinical trial registration number: COS RGDS 2019 09 001., Competing Interests: No competing financial interests exist., (Copyright 2021, Mary Ann Liebert, Inc., publishers.)

Published
2021
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44. Intranasal vaccination with a lentiviral vector protects against SARS-CoV-2 in preclinical animal models.

Author

Ku MW, Bourgine M, Authié P, Lopez J, Nemirov K, Moncoq F, Noirat A, Vesin B, Nevo F, Blanc C, Souque P, Tabbal H, Simon E, Hardy D, Le Dudal M, Guinet F, Fiette L, Mouquet H, Anna F, Martin A, Escriou N, Majlessi L, and Charneau P

Subjects
Animals, Antibodies, Neutralizing immunology, Antibodies, Viral immunology, COVID-19 Vaccines immunology, Cricetinae, Female, Genetic Vectors, Immunity, Mucosal, Immunization, Secondary, Immunoglobulin A immunology, Lentivirus genetics, Lentivirus immunology, Male, Mice, Models, Animal, Respiratory System immunology, Spike Glycoprotein, Coronavirus immunology, Viral Load, Administration, Intranasal methods, COVID-19 immunology, COVID-19 prevention & control, COVID-19 Vaccines administration & dosage, SARS-CoV-2 immunology
Abstract

To develop a vaccine candidate against coronavirus disease 2019 (COVID-19), we generated a lentiviral vector (LV) eliciting neutralizing antibodies against the Spike glycoprotein of SARS-CoV-2. Systemic vaccination by this vector in mice, in which the expression of the SARS-CoV-2 receptor hACE2 has been induced by transduction of respiratory tract cells by an adenoviral vector, confers only partial protection despite high levels of serum neutralizing activity. However, eliciting an immune response in the respiratory tract through an intranasal boost results in a >3 log 10 decrease in the lung viral loads and reduces local inflammation. Moreover, both integrative and non-integrative LV platforms display strong vaccine efficacy and inhibit lung deleterious injury in golden hamsters, which are naturally permissive to SARS-CoV-2 replication and closely mirror human COVID-19 physiopathology. Our results provide evidence of marked prophylactic effects of LV-based vaccination against SARS-CoV-2 and designate intranasal immunization as a powerful approach against COVID-19., Competing Interests: Declaration of interests P.C. is the founder and CSO of TheraVectys. M.-W.K., P.A., J.L., K.N., F.M., A.N., B.V., F.N., and F.A. are employees of TheraVectys. M.-W.K., M.B., P.A., N.E., L.M., and P.C. are inventors of a pending patent directed to a vaccine candidate against SARS-CoV2., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published
2021
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45. An ectomycorrhizal fungus alters sensitivity to jasmonate, salicylate, gibberellin, and ethylene in host roots.

Author

Basso V, Kohler A, Miyauchi S, Singan V, Guinet F, Šimura J, Novák O, Barry KW, Amirebrahimi M, Block J, Daguerre Y, Na H, Grigoriev IV, Martin F, and Veneault-Fourrey C

Subjects
Gene Expression Profiling, Plant Roots metabolism, Plant Roots physiology, Plant Shoots metabolism, Transcriptome, Cyclopentanes metabolism, Ethylenes metabolism, Gibberellins metabolism, Mycorrhizae metabolism, Oxylipins metabolism, Plant Growth Regulators metabolism, Plant Roots microbiology, Salicylates metabolism
Abstract

The phytohormones jasmonate, gibberellin, salicylate, and ethylene regulate an interconnected reprogramming network integrating root development with plant responses against microbes. The establishment of mutualistic ectomycorrhizal symbiosis requires the suppression of plant defense responses against fungi as well as the modification of root architecture and cortical cell wall properties. Here, we investigated the contribution of phytohormones and their crosstalk to the ontogenesis of ectomycorrhizae (ECM) between grey poplar (Populus tremula x alba) roots and the fungus Laccaria bicolor. To obtain the hormonal blueprint of developing ECM, we quantified the concentrations of jasmonates, gibberellins, and salicylate via liquid chromatography-tandem mass spectrometry. Subsequently, we assessed root architecture, mycorrhizal morphology, and gene expression levels (RNA sequencing) in phytohormone-treated poplar lateral roots in the presence or absence of L. bicolor. Salicylic acid accumulated in mid-stage ECM. Exogenous phytohormone treatment affected the fungal colonization rate and/or frequency of Hartig net formation. Colonized lateral roots displayed diminished responsiveness to jasmonate but regulated some genes, implicated in defense and cell wall remodelling, that were specifically differentially expressed after jasmonate treatment. Responses to salicylate, gibberellin, and ethylene were enhanced in ECM. The dynamics of phytohormone accumulation and response suggest that jasmonate, gibberellin, salicylate, and ethylene signalling play multifaceted roles in poplar L. bicolor ectomycorrhizal development., (© 2020 John Wiley & Sons Ltd.)

Published
2020
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46. Laccaria bicolor MiSSP8 is a small-secreted protein decisive for the establishment of the ectomycorrhizal symbiosis.

Author

Pellegrin C, Daguerre Y, Ruytinx J, Guinet F, Kemppainen M, Frey NFD, Puech-Pagès V, Hecker A, Pardo AG, Martin FM, and Veneault-Fourrey C

Subjects
Ecosystem, Fungal Proteins metabolism, Hyphae metabolism, Plant Roots microbiology, Fungal Proteins physiology, Laccaria physiology, Mycorrhizae physiology, Populus microbiology, Symbiosis
Abstract

The ectomycorrhizal symbiosis is a predominant tree-microbe interaction in forest ecosystems sustaining tree growth and health. Its establishment and functioning implies a long-term and intimate relationship between the soil-borne fungi and the roots of trees. Mycorrhiza-induced Small-Secreted Proteins (MiSSPs) are hypothesized as keystone symbiotic proteins, required to set up the symbiosis by modifying the host metabolism and/or building the symbiotic interfaces. L. bicolor MiSSP8 is the third most highly induced MiSSPs in symbiotic tissues and it is also expressed in fruiting bodies. The MiSSP8-RNAi knockdown mutants are strongly impaired in their mycorrhization ability with Populus, with the lack of fungal mantle and Hartig net development due to the lack of hyphal aggregation. MiSSP8 C-terminus displays a repetitive motif containing a kexin cleavage site, recognized by KEX2 in vitro. This suggests MiSSP8 protein might be cleaved into small peptides. Moreover, the MiSSP8 repetitive motif is found in other proteins predicted secreted by both saprotrophic and ectomycorrhizal fungi. Thus, our data indicate that MiSSP8 is a small-secreted protein involved at early stages of ectomycorrhizal symbiosis, likely by regulating hyphal aggregation and pseudoparenchyma formation., (© 2019 Society for Applied Microbiology and John Wiley & Sons Ltd.)

Published
2019
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47. Secretome Analysis from the Ectomycorrhizal Ascomycete Cenococcum geophilum .

Author

de Freitas Pereira M, Veneault-Fourrey C, Vion P, Guinet F, Morin E, Barry KW, Lipzen A, Singan V, Pfister S, Na H, Kennedy M, Egli S, Grigoriev I, Martin F, Kohler A, and Peter M

Abstract

Cenococcum geophilum is an ectomycorrhizal fungus with global distribution in numerous habitats and associates with a large range of host species including gymnosperm and angiosperm trees. Moreover, C. geophilum is the unique ectomycorrhizal species within the clade Dothideomycetes, the largest class of Ascomycetes containing predominantly saprotrophic and many devastating phytopathogenic fungi. Recent studies highlight that mycorrhizal fungi, as pathogenic ones, use effectors in form of Small Secreted Proteins (SSPs) as molecular keys to promote symbiosis. In order to better understand the biotic interaction of C. geophilum with its host plants, the goal of this work was to characterize mycorrhiza-induced small-secreted proteins (MiSSPs) that potentially play a role in the ectomycorrhiza formation and functioning of this ecologically very important species. We combined different approaches such as gene expression profiling, genome localization and conservation of MiSSP genes in different C. geophilum strains and closely related species as well as protein subcellular localization studies of potential targets of MiSSPs in interacting plants using in tobacco leaf cells. Gene expression analyses of C. geophilum interacting with Pinus sylvestris (pine) and Populus tremula × Populus alba (poplar) showed that similar sets of genes coding for secreted proteins were up-regulated and only few were specific to each host. Whereas pine induced more carbohydrate active enzymes (CAZymes), the interaction with poplar induced the expression of specific SSPs. We identified a set of 22 MiSSPs, which are located in both, gene-rich, repeat-poor or gene-sparse, repeat-rich regions of the C. geophilum genome, a genome showing a bipartite architecture as seen for some pathogens but not yet for an ectomycorrhizal fungus. Genome re-sequencing data of 15 C. geophilum strains and two close relatives Glonium stellatum and Lepidopterella palustris were used to study sequence conservation of MiSSP-encoding genes. The 22 MiSSPs showed a high presence-absence polymorphism among the studied C. geophilum strains suggesting an evolution through gene gain/gene loss. Finally, we showed that six CgMiSSPs target four distinct sub-cellular compartments such as endoplasmic reticulum, plasma membrane, cytosol and tonoplast. Overall, this work presents a comprehensive analysis of secreted proteins and MiSSPs in different genetic level of C. geophilum opening a valuable resource to future functional analysis.

Published
2018
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48. Dissociation of Tissue Destruction and Bacterial Expansion during Bubonic Plague.

Author

Guinet F, Avé P, Filali S, Huon C, Savin C, Huerre M, Fiette L, and Carniel E

Subjects
Animals, Disease Models, Animal, Immunohistochemistry, Mice, Mutagenesis, Site-Directed, Plague enzymology, Virulence physiology, Virulence Factors metabolism, Yersinia pestis enzymology, Yersinia pseudotuberculosis enzymology, Yersinia pseudotuberculosis pathogenicity, Yersinia pseudotuberculosis Infections enzymology, Yersinia pseudotuberculosis Infections microbiology, Yersinia pseudotuberculosis Infections pathology, Bacterial Proteins metabolism, Plague microbiology, Plague pathology, Plasminogen Activators metabolism, Yersinia pestis pathogenicity
Abstract

Activation and/or recruitment of the host plasmin, a fibrinolytic enzyme also active on extracellular matrix components, is a common invasive strategy of bacterial pathogens. Yersinia pestis, the bubonic plague agent, expresses the multifunctional surface protease Pla, which activates plasmin and inactivates fibrinolysis inhibitors. Pla is encoded by the pPla plasmid. Following intradermal inoculation, Y. pestis has the capacity to multiply in and cause destruction of the lymph node (LN) draining the entry site. The closely related, pPla-negative, Y. pseudotuberculosis species lacks this capacity. We hypothesized that tissue damage and bacterial multiplication occurring in the LN during bubonic plague were linked and both driven by pPla. Using a set of pPla-positive and pPla-negative Y. pestis and Y. pseudotuberculosis strains in a mouse model of intradermal injection, we found that pPla is not required for bacterial translocation to the LN. We also observed that a pPla-cured Y. pestis caused the same extensive histological lesions as the wild type strain. Furthermore, the Y. pseudotuberculosis histological pattern, characterized by infectious foci limited by inflammatory cell infiltrates with normal tissue density and follicular organization, was unchanged after introduction of pPla. However, the presence of pPla enabled Y. pseudotuberculosis to increase its bacterial load up to that of Y. pestis. Similarly, lack of pPla strongly reduced Y. pestis titers in LNs of infected mice. This pPla-mediated enhancing effect on bacterial load was directly dependent on the proteolytic activity of Pla. Immunohistochemistry of Pla-negative Y. pestis-infected LNs revealed extensive bacterial lysis, unlike the numerous, apparently intact, microorganisms seen in wild type Y. pestis-infected preparations. Therefore, our study demonstrates that tissue destruction and bacterial survival/multiplication are dissociated in the bubo and that the primary action of Pla is to protect bacteria from destruction rather than to alter the tissue environment to favor Y. pestis propagation in the host.

Published
2015
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49. Hydroponic screening of poplar for trace element tolerance and accumulation.

Author

Migeon A, Richaud P, Guinet F, Blaudez D, and Chalot M

Subjects
Biomass, Cadmium analysis, Cadmium toxicity, Copper analysis, Copper metabolism, Copper toxicity, Environmental Monitoring methods, Hydrogen-Ion Concentration, Hydroponics, Nickel analysis, Nickel metabolism, Nickel toxicity, Plant Components, Aerial drug effects, Plant Components, Aerial metabolism, Plant Leaves drug effects, Plant Leaves metabolism, Plant Roots drug effects, Plant Roots metabolism, Populus drug effects, Populus growth & development, Soil Pollutants analysis, Soil Pollutants toxicity, Trace Elements analysis, Trace Elements toxicity, Zinc analysis, Zinc toxicity, Cadmium metabolism, Populus metabolism, Soil Pollutants metabolism, Trace Elements metabolism, Zinc metabolism
Abstract

Using the nutrient film technique, we screened 21 clones of poplar for growth in the presence of a mix of trace elements (TE) and for TE accumulation capacities. Poplar cuttings were exposed for four weeks to a multipollution solution consisting in 10 microM Cd, Cu, Ni, and Pb, and 200 microM Zn. Plant biomass and TE accumulation patterns in leaves varied greatly between clones. The highest Cd and Zn concentrations in leaves were detected in P. trichocarpa and P. trichocarpa hybrids, with the clone Skado (P. trichocarpa x P. maximowiczii) accumulating up to 108 mg Cd kg(-1) DW and 1510 mg Zn kg(-1) DW when exposed to a multipollution context. Our data also confirm the importance of pH and multipollution, as these factors greatly affect TE accumulation in above ground biomass. The NFT technique applied here to a large range of poplar clones also revealed the potential of the Rochester, AFO662 and AFO678 poplar clones for use in phytostabilization programs and bioenergy production, where production of less contaminated above ground biomass is suitable.

Published
2012
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