Article

Kinetics of the Initial Steps of G Protein-Coupled Receptor-Mediated Cellular Signaling Revealed by Single-Molecule Imaging

  1. Yoriko Lill Dr.1,
  2. Karen L. Martinez Dr.3,
  3. Markus A. Lill Dr.2,
  4. Bruno H. Meyer Dr.3,
  5. Horst Vogel Prof. Dr.3,
  6. Bert Hecht Prof. Dr.1

Article first published online: 4 AUG 2005

DOI: 10.1002/cphc.200500111

Issue

ChemPhysChem

ChemPhysChem

Volume 6, Issue 8, pages 1633–1640, August 12, 2005

Additional Information

How to Cite

Lill, Y., Martinez, K. L., Lill, M. A., Meyer, B. H., Vogel, H. and Hecht, B. (2005), Kinetics of the Initial Steps of G Protein-Coupled Receptor-Mediated Cellular Signaling Revealed by Single-Molecule Imaging. ChemPhysChem, 6: 1633–1640. doi: 10.1002/cphc.200500111

Author Information

  1. 1

    Nano-Optics group, National Competence Center for Research in Nanoscale Science, Institute of Physics, University of Basel, 4056 Basel, Switzerland, Fax: (+41) 61-267-3795

  2. 2

    Biographics Laboratory 3R and Department of Molecular Pharmacy, University of Basel, 4056 Basel, Switzerland

  3. 3

    LCPPM (Laboratoire de Chimie Physique des Polymères et Membranes), Ecole Polytechnique Fédérale de Lausanne, 1015-Lausanne, Switzerland

Publication History

  1. Issue published online: 5 AUG 2005
  2. Article first published online: 4 AUG 2005
  3. Manuscript Revised: 19 MAY 2005
  4. Manuscript Received: 23 FEB 2005

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Keywords:

  • fluorescence;
  • ligand effects;
  • living cells;
  • signal transduction;
  • single-molecule studies

Abstract

We report on an in vivo single-molecule study of the signaling kinetics of G protein-coupled receptors (GPCR) performed using the neurokinin 1 receptor (NK1R) as a representative member. The NK1R signaling cascade is triggered by the specific binding of a fluorescently labeled agonist, substance P (SP). The diffusion of single receptor–ligand complexes in plasma membrane of living HEK 293 cells is imaged using fast single-molecule wide-field fluorescence microscopy at 100 ms time resolution. Diffusion trajectories are obtained which show intra- and intertrace heterogeneity in the diffusion mode. To investigate universal patterns in the diffusion trajectories we take the ligand-binding event as the common starting point. This synchronization allows us to observe changes in the character of the ligand–receptor-complex diffusion. Specifically, we find that the diffusion of ligand–receptor complexes is slowed down significantly and becomes more constrained as a function of time during the first 1000 ms. The decelerated and more constrained diffusion is attributed to an increasing interaction of the GPCR with cellular structures after the ligand–receptor complex is formed.

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