Litcius/Paper detail

Unsymmetrical cyanine dye via in vivo hitchhiking endogenous albumin affords high-performance NIR-II/photoacoustic imaging and photothermal therapy

Peng‐Fei Xu, Linan Hu, Yu Cheng, Weidong Yang, Fei Kang, Mingru Zhang, Pei Jiang, Jing Wang

2021Journal of Nanobiotechnology25 citationsDOIOpen Access PDF

Abstract

Herein, an unprecedented synergistic strategy for the development of high-performance NIR-II fluorophore is proposed and validated. Based on an unsymmetrical cyanine dye design strategy, the NIR-II emissive dye NIC was successfully developed by replacing only one of the indoline donors of symmetrical cyanine dye ICG with a fully conjugated benz[c,d]indole donor. This minor structural change maximally maintains the high extinction coefficient advantage of cyanine dyes. NIC-ER with endogenous albumin-hitchhiking capability was constructed to further enhance its in vivo fluorescence brightness. In the presence of HSA (Human serum albumin), NIC-ER spontaneously resides in the albumin pocket, and a brilliant ~89-fold increase in fluorescence was observed. Due to its high molar absorptivity and moderate quantum yield, NIC-ER in HSA exhibits bright NIR-II emission with high photostability and significant Stokes shift (>110 nm). Moreover, NIC-ER was successfully employed for tumor-targeted NIR-II/PA imaging and efficient photothermal tumor elimination. Overall, our strategy may open up a new avenue for designing and constructing high-performance NIR-II fluorophores.

Topics & Concepts

CyanineChemistryFluorescenceFluorophorePhotothermal therapyQuantum yieldHuman serum albuminIndolineMolar absorptivityIn vivoDendrimerConjugated systemPhotochemistryBiophysicsNanotechnologyMaterials scienceChromatographyStereochemistryOrganic chemistryOpticsPolymerPhysicsBiologyBiotechnologyNanoplatforms for cancer theranosticsPhotoacoustic and Ultrasonic ImagingLuminescence and Fluorescent Materials