Probing lipid- and drug-binding domains with fluorescent dyes

A series of 2- and 3-OH Nile red dyes was prepared in order to generate water-soluble probes that could be used to probe lipid binding to proteins. Various substitutions in positions 2-/3-, 6-, and 7-shifted wavelengths while maintaining the environmental sensitivity of Nile red. In order to increas...

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Bibliographic Details
Published in:Bioorganic & medicinal chemistry 2008-02, Vol.16 (3), p.1162-1173
Main Authors: Black, Shannon L., Stanley, Will A., Filipp, Fabian V., Bhairo, Michelle, Verma, Ashwani, Wichmann, Oliver, Sattler, Michael, Wilmanns, Matthias, Schultz, Carsten
Format: Article
Language:English
Subjects:
Alkylation
Animals
Binding
Biological and medical sciences
Bovine serum albumin
Butyric Acid - chemistry
Calorimetry
Carrier Proteins - chemistry
Cattle
Environmentally sensitive dyes
Fluorescent Dyes - chemical synthesis
Fluorescent Dyes - chemistry
Fundamental and applied biological sciences. Psychology
Humans
Intermolecular phenomena
Isothermal calorimetry
Lipids - chemistry
Miscellaneous
Models, Molecular
Molecular biophysics
Molecular Structure
Nile red
Pharmaceutical Preparations - chemistry
SCP2
Serum Albumin, Bovine - chemistry
Titrimetry
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Summary:A series of 2- and 3-OH Nile red dyes was prepared in order to generate water-soluble probes that could be used to probe lipid binding to proteins. Various substitutions in positions 2-/3-, 6-, and 7-shifted wavelengths while maintaining the environmental sensitivity of Nile red. In order to increase the solubility of the dyes in aqueous solutions, we attached butyric acid groups to the 2- or 3-OH position. In addition, phenothiazine dyes, which exhibited particularly long excitation properties, were synthesized and tested for the first time. All dyes showed Stoke’s shifts of 70–100 nm and changes in excitation and emission of over 100 nm, depending on the hydrophobicity of the environment. Binding studies with bovine serum albumin and the non-specific lipid transfer protein SCP2 revealed emission changes of more than 30 nm upon binding to the protein and a five-fold increase in emission intensity. Titration of the dye-loaded proteins with various lipids or drugs replaced the dye and thereby reversed the shift in wavelength intensity. This allowed us to estimate the lipid binding affinity of the investigated proteins. For SCP2, isothermal calorimetry (ITC) data verified the titration experiments. NMR titration experiments of SCP2 with Nile red 2- O-butyric acid ( 1a) revealed that the dye is bound within the lipid binding pocket and competes with lipid ligands for this binding site. These results give valuable insight into lipid and drug transport by proteins outside and inside cells.
ISSN:0968-0896
1464-3391
DOI:10.1016/j.bmc.2007.10.080