BaseSpace
Correlation Engine 2.0
Import Your Data
Literature

FAQ

More FAQs

Back to top
Clear Search sequence regions
(e.g. Personalized medicine, Acetaminophen, rs7903146, EGFR, Metabolism of xenobiotics)
Bookmark Forward

Cholesterol impacts chemokine CCR5 receptor ligand-binding activity.

Pierre Calmet, Christophe Cullin, Sandra Cortès, Maylou Vang, Nada Caudy, Rim Baccouch, Jean Dessolin, Nada Taib Maamar, Sophie Lecomte, Bruno Tillier, Isabel D Alves

The FEBS journal 2020 Jun


filter terms:
  • CCR5 (5)
  • ccr5 receptor (2)
  • ccr5 receptor (3)
  • cellular (1)
  • cholesterol (10)
  • gp120 (3)
  • hiv protein (3)
  • humans (1)
  • ligand (4)
  • lipid (3)
  • maraviroc (6)
  • pichia (1)
  • protein human (1)
  • receptor (7)
  • receptors virus (2)
    • Sizes of these terms reflect their relevance to your search.

    The chemokine CCR5 receptor is target of maraviroc, a negative allosteric modulator of CCR5 that blocks the HIV protein gp120 from associating with the receptor, thereby inhibiting virus cellular entry. As noted with other G-protein-coupled receptor family members, the role of the lipid environment in CCR5 signaling remains obscure and very modestly investigated. Controversial literature on the impact of cholesterol (Chol) depletion in HIV infection and CCR5 signaling, including the hypothesis that Chol depletion could inhibit HIV infection, lead us to focus on the understanding of Chol impact in the first stages of receptor activation. To address this aim, the approach chosen was to employ reconstituted model lipid systems of controlled lipid composition containing CCR5 from two distinct expression systems: Pichia pastoris and cell-free expression. The characterization of receptor/ligand interaction in terms of total binding or competition binding assays was independently performed by plasmon waveguide resonance and fluorescence anisotropy, respectively. Maraviroc, a potent receptor antagonist, was the ligand investigated. Additionally, coarse-grained molecular dynamics simulation was employed to investigate Chol impact in the receptor-conformational flexibility and dynamics. Results obtained with receptor produced by different expression systems and using different biophysical approaches clearly demonstrate a considerable impact of Chol in the binding affinity of maraviroc to the receptor and receptor-conformational dynamics. Chol considerably decreases maraviroc binding affinity to the CCR5 receptor. The mechanisms by which this effect occurs seem to involve the adoption of distinct receptor-conformational states with restrained structural dynamics and helical motions in the presence of Chol. © 2019 Federation of European Biochemical Societies.

    Citation

    Pierre Calmet, Christophe Cullin, Sandra Cortès, Maylou Vang, Nada Caudy, Rim Baccouch, Jean Dessolin, Nada Taib Maamar, Sophie Lecomte, Bruno Tillier, Isabel D Alves. Cholesterol impacts chemokine CCR5 receptor ligand-binding activity. The FEBS journal. 2020 Jun;287(11):2367-2385

    Expand section icon Mesh Tags

    Expand section icon Substances


    PMID: 31738467

    View Full Text
    • Copyright © 2024 Illumina Inc. All rights reserved.