Bovine Serum Albumin Nanoparticles with Fluorogenic
Near-IR-Emitting Squaraine Dyes
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Abstract
Two squaraine (SQ) dyes, N-propanesulfonate-benzothiazolium
squaraine
(<b>SQ-1</b>) and N-propanesulfonate-benzoindolium squaraine
(<b>SQ-2</b>), were synthesized with sulfonate groups to increase
water solubility. Both dyes are almost nonfluorescent in aqueous solution
with fluorescent quantum yields of 0.03, but exhibited fluorescence
enhancement after noncovalently binding with bovine serum albumin
(BSA). Upon addition of BSA, the fluorescence intensity increased
by ca. a factor of 10, along with a 10-fold extension in the fluorescence
lifetime. <b>SQ-1</b> and <b>SQ-2</b> interacted with
BSA efficiently and appeared to show a preference for binding at site
II, which involves combinational effects of electrostatic and hydrophobic
interactions. The fluorogenic squaraine dyes were then used to label
BSA, forming BSA-based nanoparticles (NPs) through noncovalent binding.
The resulting BSA-SQ NPs exhibited enhanced near-IR fluorescence and
reduced aggregation of the squaraine moiety. The BSA-SQ NPs were used
for cell incubation and bioimaging studies. Confocal fluorescent images
were obtained for HCT 116 cells incubated with the BSA-SQ NPs and
LysoSensor Green, demonstrating the utility of the NP probes for intracellular
imaging. This strategy ovecomes the generally low fluorescence emission
of SQ dyes in water and aggregation-reduced fluorescence, providing
a versatile strategy for sensing and imaging in biological environments