- [Front cover picture] Cancer Treatment: Enhanced Photodynamic Cancer Treatment by Mitochondria‐Targeting and Brominated Near‐Inf
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- 2018-03-29 10:18:42|
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Title: Cancer Treatment: Enhanced Photodynamic Cancer Treatment by Mitochondria‐Targeting and Brominated Near‐Infrared Fluorophores
Author: Ilkoo Noh, DaeYong Lee, Heegon Kim, Chan-Uk Jeong, Yunsoo Lee, Jung-Oh Ahn, Hoon Hyun, Ji-Ho Park, and Yeu-Chun Kim
Journal: Advanced
science (IF:9.034)
Abstract: A noninvasive and selective therapy, photodynamic therapy (PDT) is
widely researched in clinical fields; however, the lower
efficiency of PDT can induce unexpected side
effects. Mitochondria are extensively researched as target sites to maximize PDT effects because they play crucial roles in
metabolismand can be used as cancer markers due to their high transmembrane
potential. Here, a mitochondria targeting
photodynamic therapeutic agent (MitDt) is developed. This
photosensitizer is synthesized from heptamethine cyanine dyes, which are
conjugated or modified as follows. The heptamethine mesoposition is conjugated with a triphenylphosphonium derivative for
mitochondrial targeting, the N-alkyl side
chain is modified for regulation of charge balance and
solubility, and the indolenine groups are brominated to enhance reactive oxygen species generation (ROS) after laser irradiation.
The synthesized MitDt increases the cancer
uptake efficiency due to the lipo-cationic properties of the
triphenylphosphonium, and the PDT effects of MitDt are amplified after
laser irradiation because mitochondria are susceptible to ROS, the response to which triggers an apoptotic anticancer effect.
Consequently, these hypotheses are
demonstrated by in vitro and in vivo studies, and the results indicate
strong potential for use of MitDts as efficient single-moleculebased PDT agents for cancer treatment.
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