A Self‐Amplifying ROS‐Responsive Nanoplatform for Simultaneous Cuproptosis and Cancer Immunotherapy

Hangyi Wu; Zhenhai Zhang; Yanni Cao; Yuhan Hu; Yi Li; Lanyi Zhang; Xinyi Cao; Haitong Wen; Youwen Zhang; Huixia Lv; Xin Jin

doi:10.1002/advs.202401047

Advanced Science (Jun 2024)

A Self‐Amplifying ROS‐Responsive Nanoplatform for Simultaneous Cuproptosis and Cancer Immunotherapy

Hangyi Wu,
Zhenhai Zhang,
Yanni Cao,
Yuhan Hu,
Yi Li,
Lanyi Zhang,
Xinyi Cao,
Haitong Wen,
Youwen Zhang,
Huixia Lv,
Xin Jin

Affiliations

Hangyi Wu: Department of Pharmaceutics China Pharmaceutical University Nanjing 211198 China
Zhenhai Zhang: Jiangsu Province Academy of Traditional Chinese Medicine Nanjing 210023 China
Yanni Cao: Department of Pharmaceutics China Pharmaceutical University Nanjing 211198 China
Yuhan Hu: Department of Pharmaceutics China Pharmaceutical University Nanjing 211198 China
Yi Li: Department of Pharmaceutics The Affiliated Suqian First People's Hospital of Nanjing Medical University Suqian Jiangsu 223800 China
Lanyi Zhang: Department of Pharmaceutics China Pharmaceutical University Nanjing 211198 China
Xinyi Cao: Department of Pharmaceutics China Pharmaceutical University Nanjing 211198 China
Haitong Wen: Department of Pharmaceutics China Pharmaceutical University Nanjing 211198 China
Youwen Zhang: Department of Pharmaceutics The Affiliated Suqian First People's Hospital of Nanjing Medical University Suqian Jiangsu 223800 China
Huixia Lv: Department of Pharmaceutics China Pharmaceutical University Nanjing 211198 China
Xin Jin: Department of Pharmaceutics The Affiliated Suqian First People's Hospital of Nanjing Medical University Suqian Jiangsu 223800 China

DOI: https://doi.org/10.1002/advs.202401047
Journal volume & issue: Vol. 11, no. 23
pp. n/a – n/a

Abstract

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Abstract Cuproptosis is an emerging cell death pathway that depends on the intracellular Cu ions. Elesclomol (ES) as an efficient Cu ionophore can specifically transport Cu into mitochondria and trigger cuproptosis. However, ES can be rapidly removed and metabolized during intravenous administration, leading to a short half‐life and limited tumor accumulation, which hampers its clinical application. Here, the study develops a reactive oxygen species (ROS)‐responsive polymer (PCP) based on cinnamaldehyde (CA) and polyethylene glycol (PEG) to encapsulate ES‐Cu compound (EC), forming ECPCP. ECPCP significantly prolongs the systemic circulation of EC and enhances its tumor accumulation. After cellular internalization, the PCP coating stimulatingly dissociates exposing to the high‐level ROS, and releases ES and Cu, thereby triggering cell death via cuproptosis. Meanwhile, Cu2+‐stimulated Fenton‐like reaction together with CA‐stimulated ROS production simultaneously breaks the redox homeostasis, which compensates for the insufficient oxidative stress treated with ES alone, in turn inducing immunogenic cell death of tumor cells, achieving simultaneous cuproptosis and immunotherapy. Furthermore, the excessive ROS accelerates the stimuli‐dissociation of ECPCP, forming a positive feedback therapy loop against tumor self‐alleviation. Therefore, ECPCP as a nanoplatform for cuproptosis and immunotherapy improves the dual antitumor mechanism of ES and provides a potential optimization for ES clinical application.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

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Abstract

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