High Intensity Focused Ultrasound‐Driven Nanomotor for Effective Ferroptosis‐Immunotherapy of TNBC-Reference-Cited by-同舟云学术

High Intensity Focused Ultrasound‐Driven Nanomotor for Effective Ferroptosis‐Immunotherapy of TNBC

Published:2024-02-11 Issue:15 Volume:11 Page:
ISSN:2198-3844
Container-title:Advanced Science
language:en
Short-container-title:Advanced Science

Author:

Yu Xiangrong¹,Li Xuejing²,Chen Qingwang³,Wang Siyu²,Xu Ruizhe²,He Ying²,Qin Xifeng²,Zhang Jun⁴,Yang Wuli⁵,Shi Leming³,Lu Ligong¹,Zheng Yuanting³,Pang Zhiqing²^ORCID,Peng Shaojun¹

Affiliation:

1. Guangdong Provincial Key Laboratory of Tumor Interventional Diagnosis and Treatment Zhuhai People's Hospital (Zhuhai Hospital Affiliated with Jinan University) Zhuhai Guangdong 519000 P. R. China

2. Key Laboratory of Smart Drug Delivery, School of Pharmacy Fudan University Shanghai 201203 P.R. China

3. State Key Laboratory of Genetic Engineering, School of Life Sciences and Human Phenome Institute Fudan University 2005 Songhu Road Shanghai 200438 P.R. China

4. Department of Radiology, Huashan Hospital, State Key Laboratory of Medical Neurobiology Fudan University 12 Wulumuqi Middle Road Shanghai 200040 China

5. State Key Laboratory of Molecular Engineering of Polymers & Department of Macromolecular Science Fudan University Shanghai 200433 China

Abstract

AbstractThe heterogeneity of triple‐negative breast cancers (TNBC) remains challenging for various treatments. Ferroptosis, a recently identified form of cell death resulting from the unrestrained peroxidation of phospholipids, represents a potential vulnerability in TNBC. In this study, a high intensity focused ultrasound (HIFU)‐driven nanomotor is developed for effective therapy of TNBC through induction of ferroptosis. Through bioinformatics analysis of typical ferroptosis‐associated genes in the FUSCCTNBC dataset, gambogic acid is identified as a promising ferroptosis drug and loaded it into the nanomotor. It is found that the rapid motion of nanomotors propelled by HIFU significantly enhanced tumor accumulation and penetration. More importantly, HIFU not only actuated nanomotors to trigger effective ferroptosis of TNBC cells, but also drove nanomotors to activate ferroptosis‐mediated antitumor immunity in primary and metastatic TNBC models, resulting in effective tumor regression and prevention of metastases. Overall, HIFU‐driven nanomotors show great potential for ferroptosis‐immunotherapy of TNBC.

Funder

National Natural Science Foundation of China

Publisher

Wiley

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1002/advs.202305546

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