Changes of the membrane lipid organization characterized by means of a new cholesterol-pyrene probe

¹ IPBS
² LHFA
³ IMRCP

^* To whom correspondence should be addressed. E-mail: andre.lopez{at}ipbs.fr.

Submitted on May 15, 2007
Revised on June 25, 2007
Accepted on 14 August 2007

	Abstract

We synthesized 3-hydroxy-pregn-5-ene-21-(1-methylpyrenyl)-20-methylidene (Py-met-chol), consisting of the cholesterol steroid rings connected to a pyrene group via a linker without polar atoms. This compound has interesting spectroscopic properties when probing membranes: (i) The pyrene has hypochromic properties resulting from probe self-association processes in membranes. Using liposomes of various lipid compositions, we determined the association constants of the probe (K): K_DOPC >> K_POPC >> K_DMPC > K_DMPC / _{15 mol % Chol} > K_DMPC / _{30 mol % Chol.} This indicates a better probe solvation in saturated than in unsaturated lipids, and this effect is enhanced as the cholesterol concentration increases. (ii) The pyrene fluorophore is characterized by monomer (I₁ to I₅) and excimer (I_E) emission bands. In model membranes, I₁/I₃ and I_E/I₃ ratios revealed a correlation between the polarity of the lipid core of the membrane and the amount of cholesterol. (iii) Using this probe, we monitored the first steps of the signaling pathway of the mouse -opioid receptor (mDOR), a G-protein-coupled receptor (GPCR); the thickness of the membrane around this receptor is known to change following agonist binding. Fluorescence spectra of living Chinese Hamster Ovary (CHO) cells overexpressing mDOR specifically revealed the agonist binding. These results indicate that Py-met-chol may be useful for screening ligands of this family of receptors.

Key Words: GPCR, delta-opioid receptor, fluorescence spectroscopy, liquid-ordered domains, membrane polarity