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Laser-responsive erastin-loaded chondroitin sulfate nanomedicine targeting CD44 and system xc− in liver cancer: A non-ferroptotic approach

Cited 1 time in Web of Science Cited 1 time in Scopus
Authors

Yoo, So-Yeol; Kim, Hyun Young; Kim, Dong Hyun; Shim, Wan Seob; Lee, Sang Min; Lee, Dong Hwan; Koo, Jang Mo; Yoo, Ji Hoon; Koh, Seokjin; Park, Jong Chan; Yu, Jieun; Jeon, Jang Su; Baek, Min-Jun; Kim, Dae-Duk; Lee, Ji-Yoon; Oh, Soo Jin; Kim, Sang Kyum; Lee, Jae-Young; Kang, Keon Wook

Issue Date
2024-11
Publisher
Elsevier BV
Citation
Journal of Controlled Release, Vol.375, pp.574-588
Abstract
Erastin, a ferroptosis-inducing system xc− inhibitor, faces clinical challenges due to suboptimal physicochemical and pharmacokinetic properties, as well as relatively low potency and off-target toxicity. Addressing these, we developed ECINs, a novel laser-responsive erastin-loaded nanomedicine utilizing indocyanine green (ICG)-grafted chondroitin sulfate A (CSA) derivatives. Our aim was to improve erastin's tumor targeting via CSA–CD44 interactions and enhance its antitumor efficacy through ICG's photothermal and photodynamic effects in the laser-on state while minimizing off-target effects in the laser-off state. ECINs, with their nanoscale size of 186.7 ± 1.1 nm and high erastin encapsulation efficiency of 93.0 ± 0.8%, showed excellent colloidal stability and sustained drug release up to 120 h. In vitro, ECINs demonstrated a mechanism of cancer cell inhibition via G1-phase cell cycle arrest, indicating a non-ferroptotic action. In vivo biodistribution studies in SK-HEP-1 xenograft mice revealed that ECINs significantly enhanced tumor distribution of erastin (1.9-fold greater than free erastin) while substantially reducing off-target accumulation in the lungs and spleen by 203-fold and 19.1-fold, respectively. Combined with laser irradiation, ECINs significantly decreased tumor size (2.6-fold, compared to free erastin; 2.4-fold, compared to ECINs without laser irradiation) with minimal systemic toxicity. This study highlights ECINs as a dual-modality approach for liver cancer treatment, demonstrating significant efficacy against tumors overexpressing CD44 and system xc−.
ISSN
0168-3659
URI
https://hdl.handle.net/10371/211207
DOI
https://doi.org/10.1016/j.jconrel.2024.09.029
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  • College of Pharmacy
  • Department of Pharmacy
Research Area Biomaterial-based nano-platforms for cancer drug delivery and imaging, Formulation design and development, Functional protein expression and evaluation for drug delivery and therapy applications

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