Bright fluorogenic squaraines with tuned cell entry for selective imaging of plasma membrane vs. endoplasmic reticulum.

A rational design of squaraine dyes with lipophilic and zwitterionic groups tunes cell entry, allowing for selective far-red/near-infrared imaging of plasma membrane vs. endoplasmic reticulum. They exhibit up to 110-fold fluorescence enhancement in biomembranes and enable cellular imaging at 1 nM concentration, which make them the brightest membrane probes to date.

Solvatochromic Nile Red probes with FRET quencher reveal lipid order heterogeneity in living and apoptotic cells.

Detecting and imaging lipid microdomains (rafts) in cell membranes remain a challenge despite intensive research in the field. Two types of fluorescent probes are used for this purpose: one specifically labels a given phase (liquid ordered, Lo, or liquid disordered, Ld), while the other, being environment-sensitive (solvatochromic), stains the two phases in different emission colors. Here, we combined the two approaches by designing a phase-sensitive probe of the Ld phase and a quencher of the Ld phase.

Squaraine as a bright, stable and environment-sensitive far-red label for receptor-specific cellular imaging.

Herein, we show that a far-red arylidene-squaraine dye is stable against nucleophiles, in contrast to arene-squaraines. Owing to the fluorescence enhancement in apolar media together with high brightness and photostability, this dye was successfully applied to detect the oxytocin G protein-coupled receptor and monitor its internalization in living cells.

Red fluorescent turn-on ligands for imaging and quantifying G protein-coupled receptors in living cells.

Classical fluorescence-based approaches to monitor ligand-protein interactions are generally hampered by the background signal of unbound ligand, which must be removed by tedious washing steps. To overcome this major limitation, we report here the first red fluorescent turn-on probes for a G protein-coupled receptor (oxytocin receptor) at the surface of living cells. The peptide ligand carbetocin was conjugated to one of the best solvatochromic (fluorogenic) dyes, Nile Red, which turns on emission when reaching the hydrophobic environment of the receptor.

Fluorescent probes for lipid rafts: from model membranes to living cells.

Membrane microdomains (rafts) remain one of the controversial issues in biophysics. Fluorescent molecular probes, which make these lipid nanostructures visible through optical techniques, are one of the tools currently used to study lipid rafts. The most common are lipophilic fluorescent probes that partition specifically into liquid ordered or liquid disordered phase.

Rational design of fluorescent membrane probes for apoptosis based on 3-hydroxyflavone.

Environment-sensitive probes constitute powerful tools for monitoring changes in the physico-chemical properties of cell plasma membranes. Among these probes, 3-hydroxyflavone probes are of great interest due to their dual emission and ratiometric response. Here, three probes derived from the parent F2N12S were designed, characterized and applied to monitor the membrane changes occurring during apoptosis.