Your search keyword '"Audisio D"' showing total 82 results

1. Interaction médicamenteuse médiée par la P-glycoprotéine au niveau de la barrière hémato-encéphalique : comparaison in vitro et in vivo par imagerie TEP de la dompéridone et du métoclopramide

Author

Breuil, L., primary, Goutal, S., additional, Marie, S., additional, Del Vecchio, A., additional, Audisio, D., additional, Soyer, A., additional, Goislard, M., additional, Saba, W., additional, Caillé, F., additional, and Tournier, N., additional

Published

2023

2. Abstracts of the 26th international isotope society (UK group) symposium: Synthesis & applications of labelled compounds 2017

Author

Aboagye, E., primary, Aigbirhio, F., additional, Allott, L., additional, Anderson, E.A., additional, Artelsmair, M., additional, Audisio, D., additional, Audisio, J., additional, Bragg, R., additional, Brindle, K., additional, Bulat, F., additional, Bürli, R., additional, Carroll, L., additional, Chapdelaine, M., additional, Collins, S., additional, Cortezon-Tamarit, F., additional, Da Pieve, C., additional, Davies, J.R., additional, Decuypere, E., additional, Defay, T., additional, DeFrees, S., additional, Dilworth, J., additional, Duckett, S.B., additional, Dugave, C., additional, Elhabiri, M., additional, Elmore, C.S., additional, Fairlamb, I.J.S., additional, Fenwick, A., additional, Forsback, S., additional, Ge, H., additional, Geach, N., additional, Gouverneur, V., additional, Gregson, T., additional, Gu, C., additional, Ivanov, P., additional, Kagoro, M.P., additional, Kerr, W.J., additional, Kidd, G.L., additional, Knox, G., additional, Kolodych, S., additional, Koniev, O., additional, Krzyczmonik, A., additional, Lawrie, K.W.M., additional, Leeper, F., additional, Lewis, R., additional, Little, G., additional, Liu, H., additional, Lockley, W.J.S., additional, Mekareeya, A., additional, Mirabello, V., additional, Morrissey, C., additional, Neves, A., additional, Pascu, S.I., additional, Paton, R.S., additional, Plougastel, L., additional, Poot, A.J., additional, Puhalo, N., additional, Read, D., additional, Reid, M., additional, Robinson, A., additional, Sardana, M., additional, Sarpaki, S., additional, Schou, M., additional, Simmonds, A., additional, Smith, G., additional, Solin, J.C..O., additional, Soloviev, D., additional, Talbot, E.P., additional, Taran, F., additional, Turton, D.R., additional, Tuttle, T., additional, Venanzi, N.A.E., additional, Vugts, D.J., additional, Wagner, A., additional, Wang, L., additional, Webster, B., additional, White, R., additional, Willis, C.L., additional, Windhorst, A.D., additional, Winfield, C., additional, and Xie, B., additional

Published

2018

3. Combining efficient C-14-radiolabeling and radioimaging techniques of manufactured nanoparticles for toxicological studies

Author

Audisio, D., Czarny, B., Berthon, F., Georgin, D., Plastow, G., Pinault, M., Patriarche, G., Thuleau, Aurélie, Mayne-L'Hermite, M., Dive, Vincent, Taran, F., Service de Chimie Bio-Organique et de Marquage (SCBM), Médicaments et Technologies pour la Santé (MTS), Université Paris-Saclay-Direction de Recherche Fondamentale (CEA) (DRF (CEA)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE)-Université Paris-Saclay-Direction de Recherche Fondamentale (CEA) (DRF (CEA)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Institut de Biologie et de Technologies de Saclay (IBITECS), Université Paris-Saclay-Commissariat à l'énergie atomique et aux énergies alternatives (CEA), Service d'Ingénierie Moléculaire pour la Santé (ex SIMOPRO) (SIMoS), Laboratoire Edifices Nanométriques (LEDNA), Nanosciences et Innovation pour les Matériaux, la Biomédecine et l'Energie (ex SIS2M) (NIMBE UMR 3685), Institut Rayonnement Matière de Saclay (IRAMIS), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Institut de Chimie du CNRS (INC)-Institut Rayonnement Matière de Saclay (IRAMIS), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Institut de Chimie du CNRS (INC), Laboratoire de photonique et de nanostructures (LPN), Centre National de la Recherche Scientifique (CNRS), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay, Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS)-Institut Rayonnement Matière de Saclay (IRAMIS), and Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS)

Subjects

[CHIM.MATE]Chemical Sciences/Material chemistry, ComputingMilieux_MISCELLANEOUS

Abstract

International audience

Published

2016

4. Scalable and practical synthesis of clickable Cu-chelating azides

Author

Sallustrau, A., primary, Bregant, S., additional, Chollet, C., additional, Audisio, D., additional, and Taran, F., additional

Published

2017

5. Abstracts of the 24th international isotope society (UK group) symposium: synthesis and applications of labelled compounds 2015

Author

Aigbirhio, F. I., primary, Allwein, S., additional, Anwar, A., additional, Atzrodt, J., additional, Audisio, D., additional, Badman, G, additional, Bakale, R., additional, Berthon, F., additional, Bragg, R., additional, Brindle, K. M., additional, Bushby, N., additional, Campos, S., additional, Cant, A. A., additional, Chan, M. Y. T., additional, Colbon, P., additional, Cornelissen, B., additional, Czarny, B., additional, Derdau, V., additional, Dive, V., additional, Dunscombe, M., additional, Eggleston, I., additional, Ellis-Sawyer, K., additional, Elmore, C. S., additional, Engstrom, P., additional, Ericsson, C., additional, Fairlamb, I. J. S., additional, Georgin, D., additional, Godfrey, S. P., additional, He, L., additional, Hickey, M. J., additional, Huscroft, I. T., additional, Kerr, W. J., additional, Lashford, A., additional, Lenz, E., additional, Lewinton, S., additional, L'Hermite, M. M., additional, Lindelöf, Å., additional, Little, G., additional, Lockley, W. J. S., additional, Loreau, O., additional, Maddocks, S., additional, Marguerit, M., additional, Mirabello, V., additional, Mudd, R. J., additional, Nilsson, G. N., additional, Owens, P. K., additional, Pascu, S.I., additional, Patriarche, G., additional, Pimlott, S. L., additional, Pinault, M., additional, Plastow, G., additional, Racys, D. T., additional, Reif, J., additional, Rossi, J., additional, Ruan, J., additional, Sarpaki, S., additional, Sephton, S. M., additional, Simonsson, R., additional, Speed, D. J., additional, Sumal, K., additional, Sutherland, A., additional, Taran, F., additional, Thuleau, A., additional, Wang, Y., additional, Waring, M., additional, Watters, W. H., additional, Wu, J, additional, and Xiao, J., additional

Published

2016

6. Abstracts of the 23rd International Isotope Society (UK group) Symposium: synthesis and applications of labelled compounds 2014

Author

Anwar, A., primary, Archibald, S., additional, Audisio, D., additional, Badman, G., additional, Bergin, J., additional, Bew, S. P., additional, Bloom, J., additional, Bushby, N., additional, Busigin, A., additional, Chan, M. Y. T., additional, Davies, J., additional, Dilworth, J., additional, Dunscombe, M., additional, Elmore, C. S., additional, Engstrom, P., additional, Fuchter, M. J., additional, Geach, N. J., additional, Georgin, D., additional, Griffiths, A., additional, Hansen, P., additional, Hardcastle, G., additional, Hiatt-Gipson, G. D., additional, Hickey, M. J., additional, Kitson, S. L., additional, Lashford, A., additional, Lenz, E., additional, Lewinton, S., additional, Lockley, W. J. S., additional, Loreau, O., additional, Maddocks, S., additional, Marlière, P., additional, McEwen, A., additional, Moody, T. S., additional, Morgan, P., additional, Roe, S. J., additional, Schenk, D. J., additional, Speed, D. J., additional, Stockman, R. A., additional, Sumal, K., additional, Taran, F., additional, Thurston, S., additional, Waring, M., additional, and Watters, W. H., additional

Published

2015

7. Science and technology research and development in support to ITER and the Broader Approach at CEA

Author

Bécoulet, A., primary, Hoang, G.T., additional, Abiteboul, J., additional, Achard, J., additional, Alarcon, T., additional, Alba-Duran, J., additional, Allegretti, L., additional, Allfrey, S., additional, Amiel, S., additional, Ané, J.M., additional, Aniel, T., additional, Antar, G., additional, Argouarch, A., additional, Armitano, A., additional, Arnaud, J., additional, Arranger, D., additional, Artaud, J.F., additional, Audisio, D., additional, Aumeunier, M., additional, Autissier, E., additional, Azcona, L., additional, Back, A., additional, Bahat, A., additional, Bai, X., additional, Baiocchi, B., additional, Balaguer, D., additional, Balme, S., additional, Balorin, C., additional, Barana, O., additional, Barbier, D., additional, Barbuti, A., additional, Basiuk, V., additional, Baulaigue, O., additional, Bayetti, P., additional, Baylard, C., additional, Beaufils, S., additional, Beaute, A., additional, Bécoulet, M., additional, Bej, Z., additional, Benkadda, S., additional, Benoit, F., additional, Berger-By, G., additional, Bernard, J.M., additional, Berne, A., additional, Bertrand, B., additional, Bertrand, E., additional, Beyer, P., additional, Bigand, A., additional, Bonhomme, G., additional, Borel, G., additional, Boron, A., additional, Bottereau, C., additional, Bottollier-Curtet, H., additional, Bouchand, C., additional, Bouquey, F., additional, Bourdelle, C., additional, Bourg, J., additional, Bourmaud, S., additional, Brémond, S., additional, Bribiesca Argomedo, F., additional, Brieu, M., additional, Brun, C., additional, Bruno, V., additional, Bucalossi, J., additional, Bufferand, H., additional, Buravand, Y., additional, Cai, L., additional, Cantone, V., additional, Cantone, B., additional, Caprin, E., additional, Cartier-Michaud, T., additional, Castagliolo, A., additional, Belo, J., additional, Catherine-Dumont, V., additional, Caulier, G., additional, Chaix, J., additional, Chantant, M., additional, Chatelier, M., additional, Chauvin, D., additional, Chenevois, J., additional, Chouli, B., additional, Christin, L., additional, Ciazynski, D., additional, Ciraolo, G., additional, Clairet, F., additional, Clapier, R., additional, Cloez, H., additional, Coatanea-Gouachet, M., additional, Colas, L., additional, Colledani, G., additional, Commin, L., additional, Coquillat, P., additional, Corbel, E., additional, Corre, Y., additional, Cottet, J., additional, Cottier, P., additional, Courtois, X., additional, Crest, I., additional, Dachicourt, R., additional, Dapena Febrer, M., additional, Daumas, C., additional, de Esch, H.P.L., additional, De Gentile, B., additional, Dechelle, C., additional, Decker, J., additional, Decool, P., additional, Deghaye, V., additional, Delaplanche, J., additional, Delchambre-Demoncheaux, E., additional, Delpech, L., additional, Desgranges, C., additional, Devynck, P., additional, Dias Pereira Bernardo, J., additional, Dif-Pradalier, G., additional, Doceul, L., additional, Dong, Y., additional, Douai, D., additional, Dougnac, H., additional, Dubuit, N., additional, Duchateau, J.-L., additional, Ducobu, L., additional, Dugue, B., additional, Dumas, N., additional, Dumont, R., additional, Durocher, A., additional, Duthoit, F., additional, Ekedahl, A., additional, Elbeze, D., additional, Escarguel, A., additional, Escop, J., additional, Faïsse, F., additional, Falchetto, G., additional, Farjon, J., additional, Faury, M., additional, Fedorzack, N., additional, Féjoz, P., additional, Fenzi, C., additional, Ferlay, F., additional, Fiet, P., additional, Firdaouss, M., additional, Francisquez, M., additional, Franel, B., additional, Frauche, J., additional, Frauel, Y., additional, Futtersack, R., additional, Garbet, X., additional, Garcia, J., additional, Gardarein, J., additional, Gargiulo, L., additional, Garibaldi, P., additional, Garin, P., additional, Garnier, D., additional, Gauthier, E., additional, Gaye, O., additional, Geraud, A., additional, Gerome, M., additional, Gervaise, V., additional, Geynet, M., additional, Ghendrih, P., additional, Giacalone, I., additional, Gibert, S., additional, Gil, C., additional, Ginoux, S., additional, Giovannangelo, L., additional, Girard, S., additional, Giruzzi, G., additional, Goletto, C., additional, Goncalves, R., additional, Gonde, R., additional, Goniche, M., additional, Goswami, R., additional, Grand, C., additional, Grandgirard, V., additional, Gravil, B., additional, Grisolia, C., additional, Gros, G., additional, Grosman, A., additional, Guigue, J., additional, Guilhem, D., additional, Guillemaut, C., additional, Guillerminet, B., additional, Guimaraes Filho, Z., additional, Guirlet, R., additional, Gunn, J. P., additional, Gurcan, O., additional, Guzman, F., additional, Hacquin, S., additional, Hariri, F., additional, Hasenbeck, F., additional, Hatchressian, J.C., additional, Hennequin, P., additional, Hernandez, C., additional, Hertout, P., additional, Heuraux, S., additional, Hillairet, J., additional, Honore, C., additional, Hornung, G., additional, Houry, M., additional, Hunstad, I., additional, Hutter, T., additional, Huynh, P., additional, Icard, V., additional, Imbeaux, F., additional, Irishkin, M., additional, Isoardi, L., additional, Jacquinot, J., additional, Jacquot, J., additional, Jiolat, G., additional, Joanny, M., additional, Joffrin, E., additional, Johner, J., additional, Joubert, P., additional, Jourd'Heuil, L., additional, Jouve, M., additional, Junique, C., additional, Keller, D., additional, Klepper, C., additional, Kogut, D., additional, Kubič, M., additional, Labassé, F., additional, Lacroix, B., additional, Lallier, Y., additional, Lamaison, V., additional, Lambert, R., additional, Larroque, S., additional, Latu, G., additional, Lausenaz, Y., additional, Laviron, C., additional, Le, R., additional, Le Luyer, A., additional, Le Niliot, C., additional, Le Tonqueze, Y., additional, Lebourg, P., additional, Lefevre, T., additional, Leroux, F., additional, Letellier, L., additional, Li, Y., additional, Lipa, M., additional, Lister, J., additional, Litaudon, X., additional, Liu, F., additional, Loarer, T., additional, Lombard, G., additional, Lotte, P., additional, Lozano, M., additional, Lucas, J., additional, Lütjens, H., additional, Magaud, P., additional, Maget, P., additional, Magne, R., additional, Mahieu, J.-F., additional, Maini, P., additional, Malard, P., additional, Manenc, L., additional, Marandet, Y., additional, Marbach, G., additional, Marechal, J.-L., additional, Marfisi, L., additional, Marle, M., additional, Martin, C., additional, Martin, V., additional, Martin, G., additional, Martinez, A., additional, Martino, P., additional, Masset, R., additional, Mazon, D., additional, Mellet, N., additional, Mercadier, L., additional, Merle, A., additional, Meshcheriakov, D., additional, Messina, P., additional, Meyer, O., additional, Millon, L., additional, Missirlian, M., additional, Moerel, J., additional, Molina, D., additional, Mollard, P., additional, Moncada, V., additional, Monier-Garbet, P., additional, Moreau, D., additional, Moreau, M., additional, Moreau, P., additional, Morel, P., additional, Moriyama, T., additional, Motassim, Y., additional, Mougeolle, G., additional, Moulton, D., additional, Moureau, G., additional, Mouyon, D., additional, Naim Habib, M., additional, Nardon, E., additional, Négrier, V., additional, Nemeth, J., additional, Nguyen, C., additional, Nguyen, M., additional, Nicolas, L., additional, Nicolas, T., additional, Nicollet, S., additional, Nilsson, E., additional, N'Konga, B., additional, Noel, F., additional, Nooman, A., additional, Norscini, C., additional, Nouailletas, R., additional, Oddon, P., additional, Ohsako, T., additional, Orain, F., additional, Ottaviani, M., additional, Pagano, M., additional, Palermo, F., additional, Panayotis, S., additional, Parrat, H., additional, Pascal, J.-Y., additional, Passeron, C., additional, Pastor, P., additional, Patterlini, J., additional, Pavy, K., additional, Pecquet, A.-L., additional, Pégourié, B., additional, Peinturier, C., additional, Pelletier, T., additional, Peluso, B., additional, Petrzilka, V., additional, Peysson, Y., additional, Pignoly, E., additional, Pirola, R., additional, Pocheau, C., additional, Poitevin, E., additional, Poli, V., additional, Poli, S., additional, Pompon, F., additional, Porchy, I., additional, Portafaix, C., additional, Preynas, M., additional, Prochet, P., additional, Prou, M., additional, Ratnani, A., additional, Raulin, D., additional, Ravenel, N., additional, Renard, S., additional, Ricaud, B., additional, Richou, M., additional, Ritz, G., additional, Roche, H., additional, Roubin, P., additional, Roux, C., additional, Ruiz, K., additional, Sabathier, F., additional, Sabot, R., additional, Saille, A., additional, Saint-Laurent, F., additional, Sakamoto, R., additional, Salasca, S., additional, Salmon, T., additional, Samaille, F., additional, Sanchez, S., additional, Santagiustina, A., additional, Saoutic, B., additional, Sarazin, Y., additional, Sardain, P., additional, Schlosser, J., additional, Schneider, M., additional, Schwob, J., additional, Segui, J., additional, Seguin, N., additional, Selig, G., additional, Serret, D., additional, Signoret, J., additional, Simonin, A., additional, Soldaini, M., additional, Soler, B., additional, Soltane, C., additional, Song, S., additional, Sourbier, F., additional, Sparagna, J., additional, Spitz, P., additional, Spuig, P., additional, Storelli, A., additional, Strugarek, A., additional, Tamain, P., additional, Tena, M., additional, Theis, J., additional, Thomine, O., additional, Thouvenin, D., additional, Torre, A., additional, Toulouse, L., additional, Travère, J., additional, Tsitrone, E., additional, Turck, B., additional, Urban, J., additional, Vallet, J.-C., additional, Vallory, J., additional, Valognes, A., additional, Van Helvoirt, J., additional, Vartanian, S., additional, Verger, J.-M., additional, Vermare, L., additional, Vermare, C., additional, Vezinet, D., additional, Vicente, K., additional, Vidal, J., additional, Vignal, N., additional, Vigne, T., additional, Villecroze, F., additional, Villedieu, E., additional, Vincent, B., additional, Volpe, B., additional, Volpe, D., additional, Volpe, R., additional, Wagrez, J., additional, Wang, H., additional, Wauters, T., additional, Wintersdorff, O., additional, Wittebol, E., additional, Zago, B., additional, Zani, L., additional, Zarzoso, D., additional, Zhang, Y., additional, Zhong, W., additional, and Zou, X.L., additional

Published

2013

8. Cholecystokinin (CCK), -endorphin (BE) and vasoactive intestinal peptide (VIP) in peripheral blood mononuclear cells of drug naive schizophrenic patients treated with haloperidol compared to healthy controls

Author

Mauri, M. C., Rudelli, R., Vanni, S., Panza, G., Audisio, D., Sacerdote, P., and Panerai, A. E.

Published

1998

9. Taming CO 2 •- via Synergistic Triple Catalysis in Anti-Markovnikov Hydrocarboxylation of Alkenes.

Author

Ghosh P, Maiti S, Malandain A, Raja D, Loreau O, Maity B, Roy TK, Audisio D, and Maiti D

Abstract

The direct utilization of carbon dioxide as an ideal one-carbon source in value-added chemical synthesis has garnered significant attention from the standpoint of global sustainability. In this regard, the photo/electrochemical reduction of CO 2 into useful fuels and chemical feedstocks could offer a great promise for the transition to a carbon-neutral economy. However, challenges in product selectivity continue to limit the practical application of these systems. A robust and general method for the conversion of CO 2 to the polarity-reversed carbon dioxide radical anion, a C1 synthon, is critical for the successful valorization of CO 2 to selective carboxylation reactions. We demonstrate herein a hydride and hydrogen atom transfer synergy driven general catalytic platform involving CO 2 •- for highly selective anti-Markovnikov hydrocarboxylation of alkenes via triple photoredox, hydride, and hydrogen atom transfer catalysis. Mechanistic studies suggest that the synergistic operation of the triple catalytic cycle ensures a low-steady-state concentration of CO 2 •- in the reaction medium. This method using a renewable light energy source is mild, robust, selective, and capable of accommodating a wide range of activated and unactivated alkenes. The highly selective nature of the transformation has been revealed through the synthesis of hydrocarboxylic acids from the substrates bearing a hydrogen atom available for intramolecular 1, n -HAT process as well as diastereoselective synthesis. This technology represents a general strategy for the merger of in situ formate generation with a synergistic photoredox and HAA catalytic cycle to provide CO 2 •- for selective chemical transformations.

Published

2024

10. A cancer immunoprofiling strategy using mass spectrometry coupled with bioorthogonal cleavage.

Author

Ribéraud M, Porret E, Pruvost A, Theodoro F, Nguyen AL, Specklin S, Kereselidze D, Denis C, Jego B, Barbe P, Keck M, D'Anfray T, Kuhnast B, Audisio D, Truillet C, and Taran F

Abstract

The accurate quantification of biomarkers is paramount in modern medicine, particularly in cancer where precise diagnosis is imperative for targeted therapy selection. In this paper we described a multiplexed analysis diagnostic approach based on cleavable MS-tagged antibodies. The technology uses MS-tag isotopologues and the sydnonimine-cyclooctyne click-and-release bioorthogonal reaction. In a proof of concept study, we demonstrated the potential of this approach for cancer cell immunoprofiling in culture cells, tissues and in vivo as well, thereby unveiling promising diagnostic avenues., Competing Interests: There are no conflicts to declare., (This journal is © The Royal Society of Chemistry.)

Published

2024

11. Pyridine-based strategies towards nitrogen isotope exchange and multiple isotope incorporation.

Author

Feng M, Norlöff M, Guichard B, Kealey S, D'Anfray T, Thuéry P, Taran F, Gee A, Feuillastre S, and Audisio D

Abstract

Isotopic labeling is at the core of health and life science applications such as nuclear imaging, metabolomics and plays a central role in drug development. The rapid access to isotopically labeled organic molecules is a sine qua non condition to support these societally vital areas of research. Based on a rationally driven approach, this study presents an innovative solution to access labeled pyridines by a nitrogen isotope exchange reaction based on a Zincke activation strategy. The technology conceptualizes an opportunity in the field of isotope labeling. 15 N-labeling of pyridines and other relevant heterocycles such as pyrimidines and isoquinolines showcases on a large set of derivatives, including pharmaceuticals. Finally, we explore a nitrogen-to-carbon exchange strategy in order to access 13 C-labeled phenyl derivatives and deuterium labeling of mono-substituted benzene from pyridine- 2 H 5 . These results open alternative avenues for multiple isotope labeling on aromatic cores., (© 2024. The Author(s).)

Published

2024

12. Synthesis of sydnonimines from sydnones and their use for bioorthogonal release of isocyanates in cells.

Author

Baudet J, Lesur E, Ribéraud M, Chevalier A, D'Anfray T, Thuéry P, Audisio D, and Taran F

Subjects

Isocyanates, Sydnones

Abstract

In this article, we report the synthesis of sydnonimines from sydnones and their use as dipoles for fast click-and-release reactions. The process relies on nucleophilic aromatic substitution of aliphatic and aromatic amines with triflated sydnones. This new methodology allowed the preparation of functionalised sydnonimine probes that are otherwise difficult to prepare. These probes were then used to release a drug and a fluorescent aromatic isocyanate inside living cells.

Published

2024

13. Platform for Multiple Isotope Labeling via Carbon-Sulfur Bond Exchange.

Author

Mouhsine B, Norlöff M, Ghouilem J, Sallustrau A, Taran F, and Audisio D

Abstract

In this work, we explore a nickel-catalyzed reversible carbon-sulfur (C-S) bond activation strategy to achieve selective sulfur isotope exchange. Isotopes are at the foundation of applications in life science, such as nuclear imaging, and are essential tools for the determination of pharmacokinetic and dynamic profiles of new pharmaceuticals. However, the insertion of an isotope into an organic molecule remains challenging, and current technologies are element-specific. Despite the ubiquitous presence of sulfur in many biologically active molecules, sulfur isotope labeling is an underexplored field, and sulfur isotope exchange has been overlooked. This approach enables us to move beyond standardized element-specific procedures and was applied to multiple isotopes, including deuterium, carbon-13, sulfur-34, and radioactive carbon-14. These results provide a unique platform for multiple isotope labeling and are compatible with a wide range of substrates, including pharmaceuticals. In addition, this technology proved its potential as an isotopic encryption device for organic molecules.

Published

2024

14. Exploration of the Copper-Catalyzed Sydnone and Sydnonimine-Alkyne Cycloaddition Reactions by High-Throughput Experimentation.

Author

Louis M, Force G, D'Anfray T, Bourgeat E, Romero E, Thuéry P, Audisio D, Sallustrau A, and Taran F

Abstract

The reactivity of sydnones and sydnonimines toward terminal alkynes under copper catalysis has been explored using High-Throughput-Experimentation. A large panel of ligands and reaction conditions have been tested to optimize the copper-catalyzed sydnone click reaction discovered by our group ten years ago. This screening approach led to the identification of new ligands, which boosted the catalytic properties of copper and allowed the discovery of a new copper-catalyzed click-and-release reaction involving sydnonimines. This reaction allowed chemoselective ligation of terminal alkynes with sydnonimines and, simultaneously, the release of an isocyanate fragment molecule that can be used for further transformations., (© 2023 Wiley-VCH GmbH.)

Published

2024

15. Modern Strategies for Carbon Isotope Exchange.

Author

Labiche A, Malandain A, Molins M, Taran F, and Audisio D

Abstract

In contrast to stable and natural abundant carbon-12, the synthesis of organic molecules with carbon (radio)isotopes must be conceived and optimized in order to navigate through the hurdles of radiochemical requirements, such as high costs of the starting materials, harsh conditions and radioactive waste generation. In addition, it must initiate from the small cohort of available C-labeled building blocks. For long time, multi-step approaches have represented the sole available patterns. On the other side, the development of chemical reactions based on the reversible cleavage of C-C bonds might offer new opportunities and reshape retrosynthetic analysis in radiosynthesis. This review aims to provide a short survey on the recently emerged carbon isotope exchange technologies that provide effective opportunity for late-stage labeling. At present, such strategies have relied on the use of primary and easily accessible radiolabeled C1-building blocks, such as carbon dioxide, carbon monoxide and cyanides, while the activation principles have been based on thermal, photocatalytic, metal-catalyzed and biocatalytic processes., (© 2023 The Authors. Angewandte Chemie International Edition published by Wiley-VCH GmbH.)

Published

2023

16. Carbon Dioxide Radical Anion by Photoinduced Equilibration between Formate Salts and [ 11 C, 13 C, 14 C]CO 2 : Application to Carbon Isotope Radiolabeling.

Author

Malandain A, Molins M, Hauwelle A, Talbot A, Loreau O, D'Anfray T, Goutal S, Tournier N, Taran F, Caillé F, and Audisio D

Subjects

Mice, Animals, Carbon Isotopes, Carbon Radioisotopes, Tissue Distribution, Anions, Positron-Emission Tomography methods, Formates, Isotope Labeling, Carbon Dioxide chemistry, Salts

Abstract

The need for carbon-labeled radiotracers is increasingly higher in drug discovery and development (carbon-14, β - , t 1/2 = 5730 years) as well as in positron emission tomography (PET) for in vivo molecular imaging applications (carbon-11, β + , t 1/2 = 20.4 min). However, the structural diversity of radiotracers is still systematically driven by the narrow available labeled sources and methodologies. In this context, the emergence of carbon dioxide radical anion chemistry might set forth potential unexplored opportunities. Based on a dynamic isotopic equilibration between formate salts and [ 13 C, 14 C, 11 C]CO 2 , C-labeled radical anion CO 2 •- could be accessed under extremely mild conditions within seconds. This methodology was successfully applied to hydrocarboxylation and dicarboxylation reactions in late-stage carbon isotope labeling of pharmaceutically relevant compounds. The relevance of the method in applied radiochemistry was showcased by the whole-body PET biodistribution profile of [ 11 C]oxaprozin in mice.

Published

2023

17. Bioorthogonal Drug Release from Nanometric Micelles in Living Cells.

Author

Madegard L, Girard M, Yaw BR, Porte K, Audisio D, Papot S, and Taran F

Subjects

Drug Liberation, Drug Carriers, Doxorubicin pharmacology, Hydrogen-Ion Concentration, Micelles, Nanoparticles

Abstract

We explored a bioorthogonal approach to release drugs from stimuli-responsive micelles inside tumor cells. The concept relies on sydnonimine-based micelles that undergo quantitative cleavage in presence of cyclooctynes, hence releasing their content within living cells. Four cleavable micelles were developed to allow massive burst release of Entinostat, a potent histone deacetylase inhibitor, following their internalization inside cancer cells. A comparative study on the influence of the bioorthogonal-mediated versus passive drug release from micelles was carried out. The results indicated that a fast release of the drug triggered a stronger antiproliferative activity on tumor cells compared to the passive diffusion of the drug from the micelles core. These finding may be of great interest for the development of new nanomedicines., (© 2023 The Authors. Chemistry - A European Journal published by Wiley-VCH GmbH.)

Published

2023

18. Unlocking full and fast conversion in photocatalytic carbon dioxide reduction for applications in radio-carbonylation.

Author

Monticelli S, Talbot A, Gotico P, Caillé F, Loreau O, Del Vecchio A, Malandain A, Sallustrau A, Leibl W, Aukauloo A, Taran F, Halime Z, and Audisio D

Abstract

Harvesting sunlight to drive carbon dioxide (CO 2 ) valorisation represents an ideal concept to support a sustainable and carbon-neutral economy. While the photochemical reduction of CO 2 to carbon monoxide (CO) has emerged as a hot research topic, the full CO 2 -to-CO conversion remains an often-overlooked criterion that prevents a productive and direct valorisation of CO into high-value-added chemicals. Herein, we report a photocatalytic process that unlocks full and fast CO 2 -to-CO conversion (<10 min) and its straightforward valorisation into human health related field of radiochemistry with carbon isotopes. Guided by reaction-model-based kinetic simulations to rationalize reaction optimisations, this manifold opens new opportunities for the direct access to 11 C- and 14 C-labeled pharmaceuticals from their primary isotopic sources [ 11 C]CO 2 and [ 14 C]CO 2 ., (© 2023. The Author(s).)

Published

2023

19. Fast and Bioorthogonal Release of Isocyanates in Living Cells from Iminosydnones and Cycloalkynes.

Author

Ribéraud M, Porte K, Chevalier A, Madegard L, Rachet A, Delaunay-Moisan A, Vinchon F, Thuéry P, Chiappetta G, Champagne PA, Pieters G, Audisio D, and Taran F

Subjects

Animals, Cycloaddition Reaction, Alkynes chemistry, Click Chemistry, Azides chemistry, Cycloparaffins

Abstract

Bioorthogonal click-and-release reactions are powerful tools for chemical biology, allowing, for example, the selective release of drugs in biological media, including inside animals. Here, we developed two new families of iminosydnone mesoionic reactants that allow a bioorthogonal release of electrophilic species under physiological conditions. Their synthesis and reactivities as dipoles in cycloaddition reactions with strained alkynes have been studied in detail. Whereas the impact of the pH on the reaction kinetics was demonstrated experimentally, theoretical calculations suggest that the newly designed dipoles display reduced resonance stabilization energies compared to previously described iminosydnones, explaining their higher reactivity. These mesoionic compounds react smoothly with cycloalkynes under physiological, copper-free reaction conditions to form a click pyrazole product together with a released alkyl- or aryl-isocyanate. With rate constants up to 1000 M -1 s -1 , this click-and-release reaction is among the fastest described to date and represents the first bioorthogonal process allowing the release of isocyanate electrophiles inside living cells, offering interesting perspectives in chemical biology.

Published

2023

20. Catalytic methoxylation of aryl halides using 13 C- and 14 C-labeled CO 2 .

Author

Ohleier A, Sallustrau A, Mouhsine B, Caillé F, Audisio D, and Cantat T

Subjects

Catalysis, Isotope Labeling, Carbon Isotopes, Carbon Dioxide, Amines

Abstract

The functionalization of carbon dioxide (CO 2 ) into high-value building blocks is a relevant topic in carbon isotope labeling, where CO 2 is the primary carbon source. A catalytic methoxylation of aryl halides directly from [ 13 C] and [ 14 C]CO 2 is reported. Relying on the intermediacy of the methoxyborane BBN-OCH 3 , as a new secondary nucleophilic labeled source, this strategy allowed labeling of a series of substrates, including challenging pharmaceuticals containing tertiary alkyl amine substituents.

Published

2022

21. Directed Palladium Catalyzed C-H (Ethoxycarbonyl)difluoromethylthiolation Reactions.

Author

Doche F, Escudero J, Petit-Cancelier F, Xiong HY, Couve-Bonnaire S, Audisio D, Poisson T, and Besset T

Subjects

Catalysis, Palladium chemistry

Abstract

The unprecedented Pd-catalyzed (ethoxycarbonyl)difluoromethylthiolation reaction of various unsaturated derivatives was studied. In the presence of the (ethoxycarbonyl)difluoromethylsulfenamide reagent I and under mild reaction conditions (60 °C), both 2-(hetero)aryl and 2-(α-aryl-vinyl)pyridine derivatives were smoothly functionalized with this methodology (37 examples, up to 87 % yield). Moreover, the synthetic interest of this fluorinated moiety was further showcased by its conversion into various original fluorinated residues. Finally, a plausible mechanism for this transformation was suggested., (© 2022 The Authors. Chemistry - A European Journal published by Wiley-VCH GmbH.)

Published

2022

22. Comparison of the Blood-Brain Barrier Transport and Vulnerability to P-Glycoprotein-Mediated Drug-Drug Interaction of Domperidone versus Metoclopramide Assessed Using In Vitro Assay and PET Imaging.

Author

Breuil L, Goutal S, Marie S, Del Vecchio A, Audisio D, Soyer A, Goislard M, Saba W, Tournier N, and Caillé F

Abstract

Domperidone and metoclopramide are widely prescribed antiemetic drugs with distinct neurological side effects. The impact of P-glycoprotein (P-gp)-mediated efflux at the blood−brain barrier (BBB) on brain exposure and BBB permeation was compared in vitro and in vivo using positron emission tomography (PET) imaging in rats with the radiolabeled analogs [11C]domperidone and [11C]metoclopramide. In P-gp-overexpressing cells, the IC50 of tariquidar, a potent P-gp inhibitor, was drastically different using [11C]domperidone (221 nM [198−248 nM]) or [11C]metoclopramide (4 nM [2−8 nM]) as the substrate. Complete P-gp inhibition led to a 1.8-fold higher increase in the cellular uptake of [11C]domperidone compared with [11C]metoclopramide (p < 0.0001). Brain PET imaging revealed that the baseline brain exposure (AUCbrain) of [11C]metoclopramide was 2.4-fold higher compared with [11C]domperidone (p < 0.001), consistent with a 1.8-fold higher BBB penetration (AUCbrain/AUCplasma). The maximal increase in the brain exposure (2.9-fold, p < 0.0001) and BBB penetration (2.9-fold, p < 0.0001) of [11C]metoclopramide was achieved using 8 mg/kg of tariquidar. In comparison, neither 8 nor 15 mg/kg of tariquidar increased the brain exposure of [11C]domperidone (p > 0.05). Domperidone is an avid P-gp substrate that was in vitro compared with metoclopramide. Domperidone benefits from a lower brain exposure and a limited risk for P-gp-mediated drug−drug interaction involving P-gp inhibition at the BBB., Competing Interests: The authors declare no conflict of interest.

Published

2022

23. Selective chlorination of iminosydnones for fast release of amide, sulfonamide and urea-containing drugs.

Author

Feng M, Madegard L, Riomet M, Louis M, Champagne PA, Pieters G, Audisio D, and Taran F

Subjects

Cycloaddition Reaction, Sulfonamides, Urea, Amides, Halogenation

Abstract

Herein, we describe a methodology for iminosydnone chlorination and we demonstrate the high beneficial effect of this modification on the reactivity of these mesoionic dipoles in strain-promoted cycloaddition reactions. Exploiting their reaction with cyclooctynes, we used these new iminosydnones for bioorthogonal release of amide, urea and sulfonamide containing drugs. Notably, drugs containing a terminal amide function were released for the first time with good kinetic constants.

Published

2022

24. Late-Stage Carbon-14 Labeling and Isotope Exchange: Emerging Opportunities and Future Challenges.

Author

Babin V, Taran F, and Audisio D

Abstract

Carbon-14 ( 14 C) is a gold standard technology routinely utilized in pharmaceutical and agrochemical industries for tracking synthetic organic molecules and providing their metabolic and safety profiles. While the state of the art has been dominated for decades by traditional multistep synthetic approaches, the recent emergence of late-stage carbon isotope labeling has provided new avenues to rapidly access carbon-14-labeled biologically relevant compounds. In particular, the development of carbon isotope exchange has represented a fundamental paradigm change, opening the way to unexplored synthetic transformations. In this Perspective, we discuss the recent developments in the field with a critical assessment of the literature. We subsequently discuss research directions and future challenges within this rapidly evolving field., Competing Interests: The authors declare no competing financial interest., (© 2022 The Authors. Published by American Chemical Society.)

Published

2022

25. Monitoring In Vivo Performances of Protein-Drug Conjugates Using Site-Selective Dual Radiolabeling and Ex Vivo Digital Imaging.

Author

Cahuzac H, Sallustrau A, Malgorn C, Beau F, Barbe P, Babin V, Dubois S, Palazzolo A, Thai R, Correia I, Lee KB, Garcia-Argote S, Lequin O, Keck M, Nozach H, Feuillastre S, Ge X, Pieters G, Audisio D, and Devel L

Subjects

Carbon Radioisotopes, Immunoconjugates

Abstract

In preclinical models, the development and optimization of protein-drug conjugates require accurate determination of the plasma and tissue profiles of both the protein and its conjugated drug. To this aim, we developed a bioanalytical strategy based on dual radiolabeling and ex vivo digital imaging. By combining enzymatic and chemical reactions, we obtained homogeneous dual-labeled anti-MMP-14 Fabs (antigen-binding fragments) conjugated to monomethyl auristatin E where the protein scaffold was labeled with carbon-14 (14C) and the conjugated drug with tritium (3H). These antibody-drug conjugates with either a noncleavable or a cleavable linker were then evaluated in vivo. By combining liquid scintillation counting and ex vivo dual-isotope radio-imaging, it was possible not only to monitor both components simultaneously during their circulation phase but also to quantify accurately their amount accumulated within the different organs.

Published

2022

26. A general procedure for carbon isotope labeling of linear urea derivatives with carbon dioxide.

Author

Babin V, Sallustrau A, Loreau O, Caillé F, Goudet A, Cahuzac H, Del Vecchio A, Taran F, and Audisio D

Subjects

Carbon Dioxide chemistry, Carbon Radioisotopes chemistry, Isotope Labeling methods, Urea chemistry

Abstract

Carbon isotope labeling is a traceless technology, which allows tracking the fate of organic compounds either in the environment or in living organisms. This article reports on a general approach to label urea derivatives with all carbon isotopes, including 14C and 11C, based on a Staudinger aza-Wittig sequence. It provides access to all aliphatic/aromatic urea combinations.

Published

2021

27. Click and Bio-Orthogonal Reactions with Mesoionic Compounds.

Author

Porte K, Riomet M, Figliola C, Audisio D, and Taran F

Subjects

Animals, Azides chemistry, Cycloaddition Reaction, Heterocyclic Compounds chemical synthesis, Hydrocarbons, Cyclic chemistry, Nitriles chemistry, Nitrogen Oxides chemistry, Alkynes chemistry, Click Chemistry methods

Abstract

Click and bio-orthogonal reactions are dominated by cycloaddition reactions in general and 1,3-dipolar cycloadditions in particular. Among the dipoles routinely used for click chemistry, azides, nitrones, isonitriles, and nitrile oxides are the most popular. This review is focused on the emerging click chemistry that uses mesoionic compounds as dipole partners. Mesoionics are a very old family of molecules, but their use as reactants for click and bio-orthogonal chemistry is quite recent. The facility to derivatize these dipoles and to tune their reactivity toward cycloaddition reactions makes mesoionics an attractive opportunity for future click chemistry development. In addition, some compounds from this family are able to undergo click-and-release reactions, finding interesting applications in cells, as well as in animals. This review covers the synthetic access to main mesoionics, their reaction with dipolarophiles, and recent applications in chemical biology and heterocycle synthesis.

Published

2021

28. Heterohelicenes through 1,3-Dipolar Cycloaddition of Sydnones with Arynes: Synthesis, Origins of Selectivity, and Application to pH-Triggered Chiroptical Switch with CPL Sign Reversal.

Author

Yen-Pon E, Buttard F, Frédéric L, Thuéry P, Taran F, Pieters G, Champagne PA, and Audisio D

Abstract

Regioselective access to heterohelicenes through the 1,3-dipolar cycloaddition of sydnones with arynes is described. Novel access to sydnones and poly(hetero)aromatic aryne precursors allowed the introduction of chemical diversity over multiple positions of the helical scaffolds. The origins of the unconventional regioselectivity during the cycloaddition steps was systematically investigated using density functional theory (DFT) calculations, unveiling the key features that control this reactivity, namely, face-to-face (π···π) or edge-to-face (C-H···π) interactions, primary orbital interactions and distortion from coplanarity in the transition structures (TSs) of the transformation. From the library of 24 derivatives synthesized, a pyridyl containing derivative displayed reversible, red-shifted, pH-triggered chiroptical switching properties, with CPL-sign reversal. It is found that protonation of the helicene causes a change of the angle between the electric and magnetic dipole moments related to the S 1 → S 0 transition, resulting in this rare case of reversible CPL sign inversion upon application of an external stimulus., Competing Interests: The authors declare no competing financial interest., (© 2021 The Authors. Published by American Chemical Society.)

Published

2021

29. Direct Carbon Isotope Exchange of Pharmaceuticals via Reversible Decyanation.

Author

Feng M, De Oliveira J, Sallustrau A, Destro G, Thuéry P, Roy S, Cantat T, Elmore CS, Blankenstein J, Taran F, and Audisio D

Subjects

Carbon Radioisotopes chemistry, Catalysis, Coordination Complexes chemistry, Cycloaddition Reaction, Isotope Labeling, Molecular Conformation, Nitriles chemistry, Transition Elements chemistry, Zinc chemistry, Pharmaceutical Preparations chemistry

Abstract

The incorporation of carbon-14 allows tracking of organic molecules and provides vital knowledge on their fate. This information is critical in pharmaceutical development, crop science, and human food safety evaluation. Herein, a transition-metal-catalyzed procedure enabling carbon isotope exchange on aromatic nitriles is described. By utilizing the radiolabeled precursor Zn([ 14 C]CN) 2 , this protocol allows the insertion of the desired carbon tag without the need for structural modifications, in a single step. By reducing synthetic costs and limiting the generation of radioactive waste, this procedure will facilitate the labeling of nitrile containing drugs and accelerate 14 C-based ADME studies supporting drug development.

Published

2021

30. Bioorthogonal Reactions in Animals.

Author

Porte K, Riberaud M, Châtre R, Audisio D, Papot S, and Taran F

Subjects

Animals, Click Chemistry, Molecular Structure, Organic Chemicals chemistry, Organic Chemicals metabolism

Abstract

The advent of bioorthogonal chemistry has led to the development of powerful chemical tools that enable increasingly ambitious applications. In particular, these tools have made it possible to achieve what is considered to be the holy grail of many researchers involved in chemical biology: to perform unnatural chemical reactions within living organisms. In this minireview, we present an update of bioorthogonal reactions that have been carried out in animals for various applications. We outline the advances made in the understanding of fundamental biological processes, and the development of innovative imaging and therapeutic strategies using bioorthogonal chemistry., (© 2020 Wiley-VCH GmbH.)

Published

2021

31. Carbon isotope labeling of carbamates by late-stage [ 11 C], [ 13 C] and [ 14 C]carbon dioxide incorporation.

Author

Del Vecchio A, Talbot A, Caillé F, Chevalier A, Sallustrau A, Loreau O, Destro G, Taran F, and Audisio D

Abstract

A general procedure for the late-stage [11C], [13C] and [14C]carbon isotope labeling of cyclic carbamates is reported. This protocol allows the incorporation of carbon dioxide, the primary source of carbon-14 and carbon-11 radioisotopes, in a direct, cost-effective and sustainable manner. A disconnection/reconnection strategy, involving ring opening/isotopic closure, was also implemented.

Published

2020

32. Transition-Metal-Free Carbon Isotope Exchange of Phenyl Acetic Acids.

Author

Destro G, Horkka K, Loreau O, Buisson DA, Kingston L, Del Vecchio A, Schou M, Elmore CS, Taran F, Cantat T, and Audisio D

Abstract

A transition-metal-free carbon isotope exchange procedure on phenyl acetic acids is described. Utilizing the universal precursor CO 2 , this protocol allows the carbon isotope to be inserted into the carboxylic acid position, with no need of precursor synthesis. This procedure enabled the labeling of 15 pharmaceuticals and was compatible with carbon isotopes [ 14 C] and [ 13 C]. A proof of concept with [ 11 C] was also obtained with low molar activity valuable for distribution studies., (© 2020 The Authors. Published by Wiley-VCH Verlag GmbH & Co. KGaA.)

Published

2020

33. Fluorogenic iminosydnones: bioorthogonal tools for double turn-on click-and-release reactions.

Author

Riomet M, Porte K, Wijkhuisen A, Audisio D, and Taran F

Subjects

Animals, CHO Cells, Catalysis, Click Chemistry, Cricetulus, Cycloaddition Reaction, Cyclooctanes chemistry, Fluorescence Resonance Energy Transfer, Fluorescent Dyes metabolism, Optical Imaging, Palladium chemistry, Pyrazoles chemistry, Solvents chemistry, Structure-Activity Relationship, Sydnones metabolism, Fluorescent Dyes chemical synthesis, Sydnones chemical synthesis

Abstract

In this article, we report the synthesis and use of iminosydnone-based profluorophores as bioorthogonal cleavable linkers for imaging applications. These linkers react with cycloalkynes via subsequent [3+2] cycloaddition and retro Diels-Alder reactions, allowing simultaneous release of two dyes in biological media.

Published

2020

34. Access to N -Carbonyl Derivatives of Iminosydnones by Carbonylimidazolium Activation.

Author

Riomet M, Porte K, Madegard L, Thuéry P, Audisio D, and Taran F

Abstract

A new methodology for N -exocyclic functionalization of iminosydnones was developed involving the addition of a large variety of nucleophiles on carbonyl-imidazolium-activated iminosydnones. This practical and highly versatile method provided access to new classes of iminosydnones and opened a straightforward synthetic route to prepare iminosydnone-based prodrugs.

Published

2020

35. Visible-Light-Enabled Aminocarbonylation of Unactivated Alkyl Iodides with Stoichiometric Carbon Monoxide for Application on Late-Stage Carbon Isotope Labeling.

Author

Sardana M, Bergman J, Ericsson C, Kingston LP, Schou M, Dugave C, Audisio D, and Elmore CS

Abstract

A visible-light-mediated late-stage aminocarbonylation of unactivated alkyl iodides with stoichiometric amounts of carbon monoxide is presented. The method provides a mild, one-step route to [ carbonyl - 13/14 C] alkyl amides, thereby reducing radioactive waste, and handling of radioactive materials. Easily accessible and low-cost equipment and a palladium catalyst were successfully used for the synthesis of a wide range of alkyl amides.

Published

2019

36. Accelerated Discovery in Photocatalysis by a Combined Screening Approach Involving MS Tags.

Author

Teders M, Bernard S, Gottschalk K, Schwarz JL, Standley EA, Decuypere E, Daniliuc CG, Audisio D, Taran F, and Glorius F

Abstract

Herein we report on the development of an MS tag screening strategy that accelerates the discovery of photocatalytic reactions. By efficiently combining mechanism- and reaction-based screening dimensions, the respective advantages of each strategy were retained, whereas the drawbacks inherent to each screening approach could be eliminated. Applying this approach led to the discovery of a mild photosensitized decarboxylative hydrazide synthesis from mesoionic sydnones and carboxylic acids as starting materials.

Published

2019

37. Strain-Promoted 1,3-Dithiolium-4-olates-Alkyne Cycloaddition.

Author

Kumar RA, Pattanayak MR, Yen-Pon E, Eliyan J, Porte K, Bernard S, Riomet M, Thuéry P, Audisio D, and Taran F

Abstract

Reported here is the reactivity of mesoionic 1,3-dithiolium-4-olates towards strained alkynes, leading to thiophene cycloaddition products. In the process, the potential of these dipoles towards orthogonal reaction with azides, allowing efficient double ligation reactions, was discovered. A versatile process to access benzo[c]thiophenes, in an unprecedented divergent fashion, was developed and provides a new entry to unconventional polyaromatic thiophenes., (© 2019 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2019

38. New fluorine-18 pretargeting PET imaging by bioorthogonal chlorosydnone-cycloalkyne click reaction.

Author

Richard M, Truillet C, Tran VL, Liu H, Porte K, Audisio D, Roche M, Jego B, Cholet S, Fenaille F, Kuhnast B, Taran F, and Specklin S

Subjects

Animals, Cyclization, Heterografts, Humans, Mice, Alkynes chemistry, Click Chemistry methods, Fluorine Radioisotopes chemistry, Positron-Emission Tomography methods

Abstract

We report the first pretargeting in vivo study using the Strain-Promoted Sydnone-Alkyne Cycloaadition (SPSAC) reaction. The injection of a fluorine-18 labeled cyclooctyne three days after cetuximab bearing chlorosydnone moieties allowed a significant detection of the tumor by PET imaging suggesting an efficient click reaction inside the tumoral site. With a kinetic constant superior to 300 M-1 s-1, the SPSAC reaction might be an interesting tool, in addition to tetrazine-cyclooctene ligation, for in vivo chemistry.

Published

2019

39. Controlled Release of a Micelle Payload via Sequential Enzymatic and Bioorthogonal Reactions in Living Systems.

Author

Porte K, Renoux B, Péraudeau E, Clarhaut J, Eddhif B, Poinot P, Gravel E, Doris E, Wijkhuisen A, Audisio D, Papot S, and Taran F

Subjects

Alkynes chemistry, Animals, Antineoplastic Agents chemistry, Antineoplastic Agents metabolism, Antineoplastic Agents therapeutic use, Cell Line, Tumor, Click Chemistry, Cyclooctanes chemistry, Drug Liberation, Glucuronides chemistry, Humans, Kinetics, Mice, Nanoparticles chemistry, Neoplasms drug therapy, Neoplasms pathology, Pharmaceutical Preparations chemistry, Tetrazoles chemistry, Transplantation, Heterologous, Micelles, Pharmaceutical Preparations metabolism

Abstract

A bioorthogonal approach is explored to release the content of nanoparticles on demand. Exploiting our recently described click-and-release technology, we developed a new generation of cleavable micelles able to disassemble through a sequential enzymatic and bioorthogonal activation process. Proof-of-concept experiments showed that this new approach could be successfully used to deliver the substances encapsulated into micelles in living cells as well as in mice by two complementary targeted strategies., (© 2019 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2019

40. Sydnone-based turn-on fluorogenic probes for no-wash protein labeling and in-cell imaging.

Author

Plougastel L, Pattanayak MR, Riomet M, Bregant S, Sallustrau A, Nothisen M, Wagner A, Audisio D, and Taran F

Subjects

Alkynes chemistry, Cycloaddition Reaction, Electrophoresis, Polyacrylamide Gel, HeLa Cells, Humans, Microscopy, Confocal, Proteins metabolism, Fluorescent Dyes chemistry, Proteins chemistry, Sydnones chemistry

Abstract

We report the synthesis and use of sydnone-based profluorophores as tools for imaging applications. These new probes display exquisite reactivity towards strain promoted cycloaddition reactions with cycloalkynes allowing fast, efficient and selective labeling in biological media. Styryl-pyridinium sydnone probes were found particularly interesting for click reactions to proceed selectively inside cells.

Published

2019

41. Sydnone-Based Approach to Heterohelicenes through 1,3-Dipolar-Cycloadditions.

Author

Yen-Pon E, Champagne PA, Plougastel L, Gabillet S, Thuéry P, Johnson M, Muller G, Pieters G, Taran F, Houk KN, and Audisio D

Subjects

Models, Molecular, Molecular Conformation, Cycloaddition Reaction, Polycyclic Compounds chemical synthesis, Polycyclic Compounds chemistry, Sydnones chemistry

Abstract

The first approach to pyrazole-containing helicenes via sydnone-aryne [3 + 2]-cycloaddition is described. An unprecedented regioselectivity in the cycloaddition step toward the more sterically constrained product was observed in the presence of extended aromatic scaffolds. DFT calculations enabled understanding the origin of this unexpected selectivity.

Published

2019

42. Dynamic Carbon Isotope Exchange of Pharmaceuticals with Labeled CO 2 .

Author

Destro G, Loreau O, Marcon E, Taran F, Cantat T, and Audisio D

Subjects

Carbon Isotopes chemistry, Carbon Radioisotopes chemistry, Carboxylic Acids chemical synthesis, Catalysis, Copper chemistry, Isotope Labeling methods, Radiopharmaceuticals chemical synthesis, Carbon Dioxide chemistry, Carboxylic Acids chemistry, Radiopharmaceuticals chemistry

Abstract

A copper-catalyzed procedure enabling dynamic carbon isotope exchange is described. Utilizing the universal precursor [ 14 C]CO 2 , this protocol allows to insert, in one single step, the desired carbon tag into carboxylic acids with no need of structural modifications. Reducing synthetic costs and limiting the generation of radioactive waste, this procedure will facilitate the access to carboxylic acids containing drugs and accelerate early 14 C-based ADME studies supporting drug development.

Published

2019

43. Recent developments in heterocycle labeling with carbon isotopes.

Author

Del Vecchio A, Destro G, Taran F, and Audisio D

Subjects

Catalysis, Carbon Isotopes chemistry, Heterocyclic Compounds chemistry, Isotope Labeling methods

Abstract

Heterocycles play an essential role in modern pharmaceutical and agrochemical developments, representing a very common structural unit in marketed drugs. Over the 46 new drugs approved in 2017 by the FDA, 25 contain in their structure a heterocyclic core. The development of novel and straightforward labeling strategies for the effective insertion of carbon isotopes into heterocylic scaffolds is an inspiring and vibrant field of research. The use of carbon-11, carbon-13, and carbon-14 isotopes is well established in life science and particularly in pharmaceutical and agrochemical industry. Their introduction into small organic molecules represents a crucial step for the radiochemists. Because the labeling should occur in metabolically stable positions and in the shortest synthetic route, their incorporation into the heterocycles represents a viable solution. This review summarizes recent contributions to this area of research through the analysis of different industrial and academic cases., (© 2018 John Wiley & Sons, Ltd.)

Published

2018

44. Sydnone-coumarins as clickable turn-on fluorescent sensors for molecular imaging.

Author

Decuypère E, Riomet M, Sallustrau A, Bregant S, Thai R, Pieters G, Clavier G, Audisio D, and Taran F

Abstract

Copper-catalyzed and copper-free sydnone-alkyne cycloaddition reactions have emerged as complementary click tools for chemical biology but their use in bioorthogonal labeling is still in its infancy. Herein, combinations of alkynes and coumarin-sydnones were screened for their ability to generate pyrazole products displaying strong fluoroscence enhancement compared to reactants. One sydnone was identified as a particularly suitable new turn-on probe for protein labeling.

Published

2018

45. Late-Stage Isotopic Carbon Labeling of Pharmaceutically Relevant Cyclic Ureas Directly from CO 2 .

Author

Del Vecchio A, Caillé F, Chevalier A, Loreau O, Horkka K, Halldin C, Schou M, Camus N, Kessler P, Kuhnast B, Taran F, and Audisio D

Subjects

Carbon Isotopes, Click Chemistry, Molecular Structure, Radiopharmaceuticals chemistry, Urea analogs & derivatives, Urea chemistry, Carbon Dioxide chemistry, Isotope Labeling, Radiopharmaceuticals chemical synthesis, Urea chemical synthesis

Abstract

A robust, click-chemistry-inspired procedure for radiolabeling of cyclic ureas was developed. This protocol, suitable for all carbon isotopes ( 11 C, 13 C, 14 C), is based on the direct functionalization of carbon dioxide: the universal building block for carbon radiolabeling. The strategy is operationally simple and reproducible in different radiochemistry centers, exhibits remarkably wide substrate scope with short reaction times, and demonstrates superior reactivity as compared to previously reported systems. With this procedure, a variety of pharmaceuticals and an unprotected peptide were labeled with high radiochemical efficiency., (© 2018 The Authors. Published by Wiley-VCH Verlag GmbH & Co. KGaA.)

Published

2018

46. Design and Synthesis of Iminosydnones for Fast Click and Release Reactions with Cycloalkynes.

Author

Riomet M, Decuypere E, Porte K, Bernard S, Plougastel L, Kolodych S, Audisio D, and Taran F

Abstract

Emerging applications in the field of chemical biology are currently limited by the lack of bioorthogonal reactions allowing both removal and linkage of chemical entities on complex biomolecules. We recently discovered a novel reaction between iminosydnones and strained alkynes leading to two products resulting from ligation and fragmentation of iminosydnones under physiological conditions. We now report the synthesis of a panel of substituted iminosydnones and the structure reactivity relationship between these compounds and strained alkyne partners. This study identified the most relevant substituents, which allow to increase the rate of the transformation and to develop a bifunctional cleavable linker with improved kinetics., (© 2018 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2018

47. Bioorthogonal Click and Release Reaction of Iminosydnones with Cycloalkynes.

Author

Bernard S, Audisio D, Riomet M, Bregant S, Sallustrau A, Plougastel L, Decuypere E, Gabillet S, Kumar RA, Elyian J, Trinh MN, Koniev O, Wagner A, Kolodych S, and Taran F

Abstract

We report the discovery of a new bioorthogonal click-and-release reaction involving iminosydnones and strained alkynes. This transformation leads to two products resulting from the ligation and fragmentation of iminosydnones under physiological conditions. Optimized iminosydnones were successfully used to design innovative cleavable linkers for protein modification, thus opening up new areas in the fields of drug release and target-fishing applications. This click-and-release technology offers the possibility of exchanging tags on proteins for functionalized cyclooctynes under mild and bioorthogonal conditions., (© 2017 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2017

48. Sydnone-alkyne cycloaddition: applications in synthesis and bioconjugation.

Author

Decuypère E, Plougastel L, Audisio D, and Taran F

Subjects

Click Chemistry, Cycloaddition Reaction, Alkynes chemistry, Sydnones chemistry

Abstract

Sydnones are among the most popular mesoionic compounds studied so far for cycloaddition reactions. However, despite their good chemical stability and versatility, only a limited number of research groups have worked on their chemistry and use in organic synthesis. This feature article aims at providing an overview of the most recent developments in sydnone-alkyne cycloadditions, with particular attention on the strategies that allow us to achieving high regiocontrol and milder reaction conditions. The recent discovery that this dipole is able to undergo click and biorthogonal reactions with cycloalkynes may stimulate renewed interest from the scientific community. Given the high potential and flexibility of this family of mesoionics, we believe that major developments are to be expected both in terms of organic synthetic methodologies and biorthogonal chemistry applications in the field of chemical biology.

Published

2017

49. Ultrafast Click Chemistry with Fluorosydnones.

Author

Liu H, Audisio D, Plougastel L, Decuypere E, Buisson DA, Koniev O, Kolodych S, Wagner A, Elhabiri M, Krzyczmonik A, Forsback S, Solin O, Gouverneur V, and Taran F

Abstract

We report the synthesis and reactivity of 4-fluorosydnones, a unique class of mesoionic dipoles displaying exquisite reactivity towards both copper-catalyzed and strain-promoted cycloaddition reactions with alkynes. Synthetic access to these new mesoionic compounds was granted by electrophilic fluorination of σ-sydnone Pd(II) precursors in the presence of Selectfluor. Their reactions with terminal and cyclic alkynes were found to proceed very rapidly and selectively, affording 5-fluoro-1,4-pyrazoles with bimolecular rate constants up to 10(4)  m(-1)  s(-1) , surpassing those documented in the literature with cycloalkynes. Kinetic studies were carried out to unravel the mechanism of the reaction, and the value of 4-fluorosydnones was further highlighted by successful radiolabeling with [(18) F]Selectfluor., (© 2016 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2016

50. Dynamic behaviour of monohaptoallylpalladium species: internal coordination as a driving force in allylic alkylation chemistry.

Author

Xie LG, Bagutski V, Audisio D, Wolf LM, Schmidts V, Hofmann K, Wirtz C, Thiel W, Thiele CM, and Maulide N

Abstract

Contemporary catalytic procedures involving alkylpalladium(ii) have enriched the arsenal of synthetic organic chemistry. Those transformations usually rely on internal coordination through "directing groups", carefully designed to maximize catalytic efficiency and regioselectivity. Herein, we report structural and reactivity studies of a series of internally coordinated monohaptoallylpalladium complexes. These species enable the direct spectroscopic observation and theoretical study of π-σ-π interconversion processes. They further display unusual dynamic behavior which should be of direct relevance to chemistries beyond catalytic allylic alkylation.

Published

2015