Neutral Cyanine: Ultra-Stable NIR-II Merocyanines for Highly Efficient Bioimaging and Tumor-Targeted Phototheranostics.
Yingpeng WanWeilong ChenYing LiuKa-Wai LeeYijian GaoDi ZhangYuqing LiZhongming HuangJingdong LuoChun-Sing LeeShengliang LiPublished in: Advanced materials (Deerfield Beach, Fla.) (2024)
Fluorescence imaging-guided phototheranostics using emission from the second near-infrared (NIR-II) window show significant potential for cancer diagnosis and treatment. Clinical imaging-used polymethine ionic indocyanine green (ICG) dye is widely adopted for NIR fluorescence imaging-guided photothermal therapy research due to its exceptional photophysical properties. However, ICG has limitations such as poor photostability, low photothermal conversion efficiency (PCE), short-wavelength emission peak, and liver-targeting issues, which restrict its wider use. In this study, we transformed two ionic ICG derivatives into neutral merocyanines (mCy) to achieve much enhanced performance for NIR-II cancer phototheranostics. Initial designs of two ionic dyes showed similar drawbacks as ICG in terms of poor photostability and low photothermal performance. One of the modified neutral molecules, mCy890, shows significantly improved stability, an emission peak over 1000 nm, and a high photothermal PCE of 51%, all considerably outperform ICG. In vivo studies demonstrated that nanoparticles of the mCy890 can effectively accumulate at the tumor sites for cancer photothermal therapy guided by NIR-II fluorescence imaging. This research provides valuable insights into the development of neutral merocyanines for enhanced cancer phototheranostics. This article is protected by copyright. All rights reserved.