Articles dans des revues avec comité de lecture (260)
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Laurent, C., Van Der Jeugd, A., Faivre, E., Flaten, V., Ledent, C., D'Hooge, R., Sergeant, N., Hamdane, M., Humez, S., Müller, C., Lopes, L. V., Burnouf, S., Buée, L., Blum, D., Ferry, B., Batalha, V. V., Coelho, J., Baqi, Y., Malik, E., Mariciniak, E., & Parrot, S. (2016). A2A adenosine receptor deletion is protective in a mouse model of Tauopathy. Molecular psychiatry, 21(1), 97-107. doi:10.1038/mp.2014.15123.
Golovko, T., Belelli, D., Lambert, J., Rozov, A., Burnashev, N., Min, R., Lozovaya, N., Falconer, C., Yatsenko, N., Tsintsadze, T., Tsintsadze, V., Ledent, C., & Harvey, R. R. (2015). Control of inhibition by the direct action of cannabinoids on GABAA receptors. Cerebral cortex, 25(9), 2440-2455. doi:10.1093/cercor/bhu04524.
Lecru, L., Desterke, C., Grassin-Delyle, S., Chatziantoniou, C., Vandermeersch, S., Devocelle, A., Vernochet, A., Ivanovski, N., Ledent, C., Ferlicot, S., Dalia, M., Saïd, M., Beaudreuil, S., Charpentier, B., Vazquez, A., Giron-Michel, J., Azzarone, B., Durrbach, A., & François, H. (2015). Cannabinoid receptor 1 is a major mediator of renal fibrosis. Kidney international, 88(1), 72-84. doi:10.1038/ki.2015.6325.
Zhou, Z., Rajamani, U., Labazi, H., Tilley, S. S., Ledent, C., Teng, B., & Mustafa, J. S. (2015). Involvement of NADPH oxidase in A2A adenosine receptor-mediated increase in coronary flow in isolated mouse hearts. Purinergic Signalling, 11(2), 263-273. doi:10.1007/s11302-015-9451-x26.
Ring, S., Mahnke, K., Pushkarevskaya, A., Schild, H., Probst, H. C., Jendrossek, V., Wirsdörfer, F., Ledent, C., Robson, S. C. H. S., & Enk, A. H. (2015). Regulatory T cell-derived adenosine induces dendritic cell migration through the Epac-Rap1 pathway. The Journal of immunology, 194(8), 3735-3744. doi:10.4049/jimmunol.140143427.
Pradhan, I., Ledent, C., Mustafa, J. S., Morisseau, C., & Nayeem, M. M. (2015). High salt diet modulates vascular response in A2AAR+/+ and A2AAR−/− mice: role of sEH, PPARγ, and KATP channels. Molecular and cellular biochemistry, 404(1-2), 87-96. doi:10.1007/s11010-015-2368-428.
Ferreira, S. S., Gonc¸alves, F. F., Marques, J. J., Tomé, Â. R., Rodrigues, R. R., Cunha, R. A., Köfalvi, A., Nunes-Correia, I., Ledent, C., Harkany, T., & Venance, L. (2015). Presynaptic adenosine a2A receptors dampen cannabinoid CB1 receptor-mediated inhibition of corticostriatal glutamatergic transmission. British Journal of Pharmacology, 172(4), 1074-1086. doi:10.1111/bph.1297029.
Fernández-Dueñas, V., Taura, J. J., Gómez-Soler, M., López-Cano, M., Ciruela, F., Cottet, M., Pin, J.-P., Durroux, T., Ledent, C., Watanabe, M., Trinquet, E., & Luján, R. (2015). Untangling dopamine-adenosine receptor-receptor assembly in experimental parkinsonism in rats. Disease Models and Mechanisms, 8(1), 57-63. doi:10.1242/dmm.01814330.
Fernández-Dueñas, V., Gómez-Soler, M., López-Cano, M., Taura, J. J., Ciruela, F., Ledent, C., Watanabe, M., Jacobson, K. A., & Vilardaga, J.-P. (2014). Uncovering caffeine's adenosine a2A receptor inverse agonism in experimental parkinsonism. A C S Chemical Biology, 9(11), 2496-2501. doi:10.1021/cb500538331.
Zhou, X., Teng, B., Mustafa, J. S., Tilley, S. S., & Ledent, C. (2014). Metabolic hyperemia requires ATP-sensitive K+ channels and H2O2 but not adenosine in isolated mouse hearts. American journal of physiology. Heart and circulatory physiology, 307(7), H1046-H1055. doi:10.1152/ajpheart.00421.201432.
Bitencourt, R. R., Lubec, G., Cunha, R. A., Harkany, T., Köfalvi, A., Alpár, A., Cinquina, V., Ferreira, S. S., Pinheiro, B. B., Lemos, C., Ledent, C., Takahashi, R. R., & Sialana, F. J. A. F. (2014). Lack of presynaptic interaction between glucocorticoid and CB1 cannabinoid receptors in GABA- and glutamatergic terminals in the frontal cortex of laboratory rodents. Neurochemistry international, 90, 72-84. doi:10.1016/j.neuint.2015.07.01433.
Pradhan, I., Zeldin, D. D., Ledent, C., Mustafa, J. S., Falck, J. J., & Nayeem, M. M. (2014). High salt diet exacerbates vascular contraction in the absence of adenosine A2A receptor. Journal of cardiovascular pharmacology, 63(5), 385-394. doi:10.1097/FJC.0000000000000058