Activatable Mn²⁺-armed nanoagonist augments antitumor immunity in colorectal cancer: a NIR-II photonic neoadjuvant paradigm

Activatable Mn²⁺-armed nanoagonist augments antitumor immunity in colorectal cancer: a NIR-II photonic neoadjuvant paradigm

Postoperative recurrence frequently occurs in patients with colorectal cancer (CRC) due to residual microtumors and host cellular immune dysfunction, leading to major setbacks in clinical outcomes and CRC staging. As an increasingly prevalent therapeutic option for CRC patients, neoadjuvant chemorad...

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Main Authors: Liang, Qing, Chen, Jiayuan, Hou, Shuai, Li, Di, Zhu, Ying, Li, Ruiqi, Chen, Lian, Li, Jiao, Fu, Wei, Lei, Shiqiong, Zhang, Biying, Zheng, Xin, Zhang, Tao, Duan, Hongwei, He, Wenshan, Ren, Jinghua
Other Authors: School of Chemistry, Chemical Engineering and Biotechnology
Format: Article
Language:English
Published: 2023
Subjects:
Engineering::Bioengineering
Nanoagonist
Neoadjuvant Therapy
Online Access:https://hdl.handle.net/10356/170067
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-1700672023-08-23T03:50:48Z Activatable Mn²⁺-armed nanoagonist augments antitumor immunity in colorectal cancer: a NIR-II photonic neoadjuvant paradigm Liang, Qing Chen, Jiayuan Hou, Shuai Li, Di Zhu, Ying Li, Ruiqi Chen, Lian Li, Jiao Fu, Wei Lei, Shiqiong Zhang, Biying Zheng, Xin Zhang, Tao Duan, Hongwei He, Wenshan Ren, Jinghua School of Chemistry, Chemical Engineering and Biotechnology Engineering::Bioengineering Nanoagonist Neoadjuvant Therapy Postoperative recurrence frequently occurs in patients with colorectal cancer (CRC) due to residual microtumors and host cellular immune dysfunction, leading to major setbacks in clinical outcomes and CRC staging. As an increasingly prevalent therapeutic option for CRC patients, neoadjuvant chemoradiotherapy bears unmet challenges of limited tumor targeting and common side effects of gastrointestinal reaction and radiodermatitis. It is highly desirable to develop neoadjuvant treatment paradigms that impart both tumor-targeting accuracy and protection against recurrence of resectable CRC. Here we report a versatile photo-regulated nanoagonist of plasmonic gold blackbody (AuPB) with a polydopamine (PDA) coating carrying manganese ion (Mn2+) payloads (AuPB@PDA/Mn). When armed with second near-infrared (NIR-II) light, AuPB@PDA/Mn with broad-band localized surface plasmon resonance generates local hyperthermia and discharges Mn2+ ions, which evidently amplify the effects of immunogenic cell death in tumor cells and activate the cyclic GMP-AMP synthase/stimulator of interferon genes pathway in dendritic cells (DCs), hence potentiating the maturation of DC and the secretion of type I interferon in a synergistic way. Matured DCs undertake the task of tumor antigen presentation as the crosstalk to adaptive immunity. As such, the administration of AuPB@PDA/Mn coupled with NIR-II laser irradiation has eminently augmented the infiltration of CD8+ T cells as well as the development of memory CD8+ T cells in colorectal tumor models, substantiating enhanced immunomodulatory efficacy against primary and recurrent CRC. Our strategy highlights the potency of an integrated NIR-II photothermal and immunoregulatory modality by photo-activate delivery of Mn2+ ions, as a neoadjuvant paradigm for presurgical tumor debulking and against postoperative tumor recurrence. Ministry of Education (MOE) This work was financially supported by National Natural Science Foundation of China (No. 82072944, No. 82072800 and No. 81874084), Natural Science Foundation of Hubei Province (No. 2020CFB786), and Ministry of Education-Singapore (RG113/20). 2023-08-23T03:50:48Z 2023-08-23T03:50:48Z 2023 Journal Article Liang, Q., Chen, J., Hou, S., Li, D., Zhu, Y., Li, R., Chen, L., Li, J., Fu, W., Lei, S., Zhang, B., Zheng, X., Zhang, T., Duan, H., He, W. & Ren, J. (2023). Activatable Mn²⁺-armed nanoagonist augments antitumor immunity in colorectal cancer: a NIR-II photonic neoadjuvant paradigm. Biomaterials, 300, 122206-. https://dx.doi.org/10.1016/j.biomaterials.2023.122206 0142-9612 https://hdl.handle.net/10356/170067 10.1016/j.biomaterials.2023.122206 37348325 2-s2.0-85162169089 300 122206 en RG113/20 Biomaterials © 2023 Elsevier Ltd. All rights reserved.
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic Engineering::Bioengineering
Nanoagonist
Neoadjuvant Therapy
spellingShingle Engineering::Bioengineering
Nanoagonist
Neoadjuvant Therapy
Liang, Qing
Chen, Jiayuan
Hou, Shuai
Li, Di
Zhu, Ying
Li, Ruiqi
Chen, Lian
Li, Jiao
Fu, Wei
Lei, Shiqiong
Zhang, Biying
Zheng, Xin
Zhang, Tao
Duan, Hongwei
He, Wenshan
Ren, Jinghua
Activatable Mn²⁺-armed nanoagonist augments antitumor immunity in colorectal cancer: a NIR-II photonic neoadjuvant paradigm
description Postoperative recurrence frequently occurs in patients with colorectal cancer (CRC) due to residual microtumors and host cellular immune dysfunction, leading to major setbacks in clinical outcomes and CRC staging. As an increasingly prevalent therapeutic option for CRC patients, neoadjuvant chemoradiotherapy bears unmet challenges of limited tumor targeting and common side effects of gastrointestinal reaction and radiodermatitis. It is highly desirable to develop neoadjuvant treatment paradigms that impart both tumor-targeting accuracy and protection against recurrence of resectable CRC. Here we report a versatile photo-regulated nanoagonist of plasmonic gold blackbody (AuPB) with a polydopamine (PDA) coating carrying manganese ion (Mn2+) payloads (AuPB@PDA/Mn). When armed with second near-infrared (NIR-II) light, AuPB@PDA/Mn with broad-band localized surface plasmon resonance generates local hyperthermia and discharges Mn2+ ions, which evidently amplify the effects of immunogenic cell death in tumor cells and activate the cyclic GMP-AMP synthase/stimulator of interferon genes pathway in dendritic cells (DCs), hence potentiating the maturation of DC and the secretion of type I interferon in a synergistic way. Matured DCs undertake the task of tumor antigen presentation as the crosstalk to adaptive immunity. As such, the administration of AuPB@PDA/Mn coupled with NIR-II laser irradiation has eminently augmented the infiltration of CD8+ T cells as well as the development of memory CD8+ T cells in colorectal tumor models, substantiating enhanced immunomodulatory efficacy against primary and recurrent CRC. Our strategy highlights the potency of an integrated NIR-II photothermal and immunoregulatory modality by photo-activate delivery of Mn2+ ions, as a neoadjuvant paradigm for presurgical tumor debulking and against postoperative tumor recurrence.
author2 School of Chemistry, Chemical Engineering and Biotechnology
author_facet School of Chemistry, Chemical Engineering and Biotechnology
Liang, Qing
Chen, Jiayuan
Hou, Shuai
Li, Di
Zhu, Ying
Li, Ruiqi
Chen, Lian
Li, Jiao
Fu, Wei
Lei, Shiqiong
Zhang, Biying
Zheng, Xin
Zhang, Tao
Duan, Hongwei
He, Wenshan
Ren, Jinghua
format Article
author Liang, Qing
Chen, Jiayuan
Hou, Shuai
Li, Di
Zhu, Ying
Li, Ruiqi
Chen, Lian
Li, Jiao
Fu, Wei
Lei, Shiqiong
Zhang, Biying
Zheng, Xin
Zhang, Tao
Duan, Hongwei
He, Wenshan
Ren, Jinghua
author_sort Liang, Qing
title Activatable Mn²⁺-armed nanoagonist augments antitumor immunity in colorectal cancer: a NIR-II photonic neoadjuvant paradigm
title_short Activatable Mn²⁺-armed nanoagonist augments antitumor immunity in colorectal cancer: a NIR-II photonic neoadjuvant paradigm
title_full Activatable Mn²⁺-armed nanoagonist augments antitumor immunity in colorectal cancer: a NIR-II photonic neoadjuvant paradigm
title_fullStr Activatable Mn²⁺-armed nanoagonist augments antitumor immunity in colorectal cancer: a NIR-II photonic neoadjuvant paradigm
title_full_unstemmed Activatable Mn²⁺-armed nanoagonist augments antitumor immunity in colorectal cancer: a NIR-II photonic neoadjuvant paradigm
title_sort activatable mn²⁺-armed nanoagonist augments antitumor immunity in colorectal cancer: a nir-ii photonic neoadjuvant paradigm
publishDate 2023
url https://hdl.handle.net/10356/170067
_version_ 1779156608224329728

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