A Hybrid Nanoadjuvant Simultaneously Depresses PD‐L1/TGF‐β1 and Activates cGAS‐STING Pathway to Overcome Radio‐Immunotherapy Resistance-Reference-Cited by-同舟云学术

A Hybrid Nanoadjuvant Simultaneously Depresses PD‐L1/TGF‐β1 and Activates cGAS‐STING Pathway to Overcome Radio‐Immunotherapy Resistance

Published:2024-01-22 Issue:15 Volume:36 Page:
ISSN:0935-9648
Container-title:Advanced Materials
language:en
Short-container-title:Advanced Materials

Author:

Yi Lei¹²,Jiang Xin³,Zhou Zaigang²,Xiong Wei⁴,Xue Fei⁵,Liu Yu²,Xu Haozhe¹,Fan Bo³,Li Yuan¹,Shen Jianliang²⁶^ORCID

Affiliation:

1. Department of Urology, The Second Xiangya Hospital Central South University Changsha Hunan 410011 China

2. National Engineering Research Center of Ophthalmology and Optometry, Eye Hospital Wenzhou Medical University Wenzhou 325027 China

3. Department of Urology, Xiangya Hospital Central South University Changsha 410008 China

4. Department of Urology, The Third Xiangya Hospital Central South University Changsha 410013 China

5. Department of Radiotherapy The Second Affiliated Hospital of Wenzhou Medical University Wenzhou 325000 China

6. Zhejiang Engineering Research Center for Tissue Repair Materials Wenzhou Institute University of Chinese Academy of Sciences Wenzhou Zhejiang 325001 China

Abstract

AbstractCurrently, certain cancer patients exhibit resistance to radiotherapy due to reduced DNA damage under hypoxic conditions and acquired immune tolerance triggered by transforming growth factor‐β1 (TGF‐β1) and membrane‐localized programmed death ligand‐1 (PD‐L1). Meanwhile, cytoplasm‐distributed PD‐L1 induces radiotherapy resistance through accelerating DNA damage repair (DDR). However, the disability of clinically used PD‐L1 antibodies in inhibiting cytoplasm‐distributed PD‐L1 limits their effectiveness. Therefore, a nanoadjuvant is developed to sensitize cancer to radiotherapy via multi‐level immunity activation through depressing PD‐L1 and TGF‐β1 by triphenylphosphine‐derived metformin, and activating the cGAS‐STING pathway by generating Mn2+ from MnO2 and producing more dsDNA via reversing tumor hypoxia and impairing DDR. Thus, Tpp‐Met@MnO2@Alb effectively enhances the efficiency of radiotherapy to inhibit the progression of irradiated local and abscopal tumors and tumor lung metastases, offering a long‐term memory of antitumor immunity without discernible side effects. Overall, Tpp‐Met@MnO2@Alb has the potential to be clinically applied for overcoming radio‐immunotherapy resistance.

Funder

National Natural Science Foundation of China

Publisher

Wiley

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1002/adma.202304328

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