Institut de Biologie StructuraleGrenoble / France

Contacts relatifs à cet article / MOREAU Christophe

Presentation of the Moreau team

[gris]Team leader : Christophe Moreau[/gris]

The main research topic of the team is the development of the "Ion Channel-Coupled Receptor" (ICCR) technology created within the Channels team by attaching G Protein-Coupled Receptors (GPCRs) to an ion channel (Kir6.2). Binding of ligands (agonists or antagonists) onto the GPCR is translated into an electrical signal by the ion channel. This technology offers several advantages : real-time recordings, label-free, signal correlated with ligand concentrations, independent of intracellular signaling pathways, suites to integration in micro- and nano-electronic devices.

Two lines of research are conducted in parallel : 1) understanding the molecular mechanisms of ICCRs ; 2) developping applications of ICCRs as biosensors.

[marron]Keywords :[/marron]

Ion Channel-Coupled Receptor, ICCR, G Protein-Coupled Receptor, GPCR, ion channels, Kir6.2, electrophysiology, Two Electrode Voltage-Clamp (TEVC), patch-clamp, HiClamp(R), Xenopus oocytes.

[marron]Team members :[/marron]

Christophe Moreau - DR2 CNRS
Jean Revilloud - AI CNRS (50%)
Maria Dolores Gracia Fernandez - Post-doctoral fellow ERC
Laura Lemel - PhD student CEA
Simon Harris - PhD student ERC
Justine Magnat - Technician ERC

Open position for a PhD starting in Oct. 2018

[marron]Selected articles :[/marron]

(* corresponding author ; ° equal contribution)

  • Principalli MA, Lemel L, Rongier A, Godet A-C, Langer K, Revilloud J, Darré L, Domene C, Vivaudou M, Moreau CJ*. Functional Mapping of the N-terminal Arginine Cluster and C-terminal Acidic Residues of Kir6.2 channel Fused to a G Protein-Coupled Receptor. BBA Biomembranes 2017 ; 1859:2144.
  • Moreau CJ*, Revilloud J, Caro LN, Dupuis JP, Trouchet A, Estrada-Mondragón A, Nieścierowicz K, Vivaudou M. Tuning the allosteric regulation of artificial muscarinic and dopaminergic ligand-gated potassium channels by protein engineering of G protein-coupled receptors. Sci. Rep. 2017 ; 7:41154.
  • Moreau CJ*, Niescierowicz K, Caro L, Revilloud J, Vivaudou M*. Ion channel reporter for monitoring the activity of engineered GPCRs. Methods Enzymol. 2015 ; 556:425-54.
  • Hassaine G, Deluz C, Grasso L, Wyss R, Tol MB, Hovius R, Graff A, Stahlberg H, Tomizaki T, Desmyter A, Moreau C, Li X-D, Poitevin F, Vogel H, Nury H. X-ray structure of the mouse serotonin 5-HT3 receptor. Nature. 2014 ; 512:276-81.
  • Niescierowicz K, Caro L, Cherezov V, Vivaudou M, Moreau CJ*. Functional assay for T4 lysozyme-engineered G Protein-Coupled Receptors with an ion channel reporter. Structure. 2014 ; 22:149-55.
  • Picciocchi A, Siaučiūnaiteė-Gaubard L, Petit-Hartlein I, Sadir R, Revilloud J, Caro L, Vivaudou M, Fieschi F, Moreau C*, Vivès C*. C-Terminal Engineering of CXCL12 and CCL5 Chemokines : Functional Characterization by Electrophysiological Recordings. PLoS One. 2014 ; 9:e87394.
  • Caro LN, Moreau CJ, Estrada-Mondragón A, Ernst OP, Vivaudou M. Engineering of an artificial light-modulated potassium channel. PLoS One. 2012 ; 7:e43766.
  • Caro LN, Moreau CJ, Revilloud J, Vivaudou M. β(2)-Adrenergic Ion-Channel Coupled Receptors as Conformational Motion Detectors. PLoS One. 2011, 6:e18226.
  • Moreau C.J*., Dupuis JP., Revilloud J., Arumugam K. and Vivaudou M*. Electrical
    biosensors engineered by assembly of a potassium channel with G-protein-coupled receptors. Nature Nanotechnology 2008, 3 : 620-625.
  • Moreau C., Gally F., Jacquet H. and Vivaudou M. The size of a single residue of the sulfonylurea receptor dictates the effectiveness of KATP channel openers. Mol. Pharmacol., 2005, 67 : 1026-1033.
  • Moreau C.°, Jacquet H.°, Prost A-L, D’hahan N. and Vivaudou M. The molecular basis of the specificity of action of KATP channel openers. EMBO J, 2000, 19 : 6644-6651.
  • D’hahan N.°, Moreau C.°, Prost A-L, Jacquet H., Alekseev A.E., Terzic A. and Vivaudou M. Pharmacological plasticity of cardiac ATP-sensitive potassium channels toward diazoxide revealed by ADP. Proc. Natl. Acad. Sci. USA, 1999, 96 : 12162-12167.