Image-guided in situ cancer vaccination with combination of multi-functional nano-adjuvant and an irreversible electroporation technique

Jun Hyeok Han; Yun Young Lee; Ha Eun Shin; Jieun Han; Jeon Min Kang; Chi Pin James Wang; Jung Hoon Park; Se Na Kim; Jong Hwi Yoon; Ho Keun Kwon; Dae Hwan Park; Tae Eun Park; Young Bin Choy; Dong Hyun Kim; Tae Hyung Kim; Junhong Min; Ik Hwan Kim; Chun Gwon Park; Dong Keun Han; Wooram Park

doi:10.1016/j.biomaterials.2022.121762

Image-guided in situ cancer vaccination with combination of multi-functional nano-adjuvant and an irreversible electroporation technique

Jun Hyeok Han
, Yun Young Lee
, Ha Eun Shin
, Jieun Han
, Jeon Min Kang
, Chi Pin James Wang
, Jung Hoon Park
, Se Na Kim
, Jong Hwi Yoon
, Ho Keun Kwon
, Dae Hwan Park
, Tae Eun Park
, Young Bin Choy
, Dong Hyun Kim
, Tae Hyung Kim
, Junhong Min
, Ik Hwan Kim
, Chun Gwon Park^*
, Dong Keun Han^*
, Wooram Park^*

^*Corresponding author for this work

Department of Biotechnology

Research output: Contribution to journal › Article › peer-review

24 Citations (Scopus)

Abstract

Cancer immunotherapy is a next-generation treatment strategy; however, its side effects limit its clinical translation. Here, a novel combination of a multi-functional nano-adjuvant (M-NA) prepared with an iron oxide/gold core and a cationic polymer shell via multilayer synthesis with CpG oligodeoxynucleotide (CpG-ODN) electrostatically complexed on its surface, and irreversible electroporation (IRE) technique was developed for effective image-guided in situ cancer vaccination. The M-NA can be retained long-term in the dense tumoral extracellular matrix after intratumoral injection and internalized by antigen-presenting cells (APCs). The IRE can induce immunogenic cell death. Indeed, in a mouse tumor model, the M-NA showed longer tumor retention time than free CpG-ODN. Compared with other treatments, the combined treatment significantly inhibited tumor growth with 100% survival rate for ∼60 days. The therapy induced the activation of cytotoxic lymphocytes and the maturation of APCs in vivo. This treatment could be effective in image-guided local cancer immunotherapy.

Original language	English
Article number	121762
Journal	Biomaterials
Volume	289
DOIs	https://doi.org/10.1016/j.biomaterials.2022.121762
Publication status	Published - 2022 Oct

Bibliographical note

Publisher Copyright:
© 2022 Elsevier Ltd

Keywords

Cancer immunotherapy
Image-guided cancer therapy
Irreversible electroporation
Multi-functional nano-adjuvant

ASJC Scopus subject areas

Biophysics
Bioengineering
Ceramics and Composites
Biomaterials
Mechanics of Materials

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.biomaterials.2022.121762

Cite this

Han, J. H., Lee, Y. Y., Shin, H. E., Han, J., Kang, J. M., James Wang, C. P., Park, J. H., Kim, S. N., Yoon, J. H., Kwon, H. K., Park, D. H., Park, T. E., Choy, Y. B., Kim, D. H., Kim, T. H., Min, J., Kim, I. H., Park, C. G., Han, D. K., & Park, W. (2022). Image-guided in situ cancer vaccination with combination of multi-functional nano-adjuvant and an irreversible electroporation technique. Biomaterials, 289, Article 121762. https://doi.org/10.1016/j.biomaterials.2022.121762

Han, JH, Lee, YY, Shin, HE, Han, J, Kang, JM, James Wang, CP, Park, JH, Kim, SN, Yoon, JH, Kwon, HK, Park, DH, Park, TE, Choy, YB, Kim, DH, Kim, TH, Min, J, Kim, IH, Park, CG, Han, DK & Park, W 2022, 'Image-guided in situ cancer vaccination with combination of multi-functional nano-adjuvant and an irreversible electroporation technique', Biomaterials, vol. 289, 121762. https://doi.org/10.1016/j.biomaterials.2022.121762

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abstract = "Cancer immunotherapy is a next-generation treatment strategy; however, its side effects limit its clinical translation. Here, a novel combination of a multi-functional nano-adjuvant (M-NA) prepared with an iron oxide/gold core and a cationic polymer shell via multilayer synthesis with CpG oligodeoxynucleotide (CpG-ODN) electrostatically complexed on its surface, and irreversible electroporation (IRE) technique was developed for effective image-guided in situ cancer vaccination. The M-NA can be retained long-term in the dense tumoral extracellular matrix after intratumoral injection and internalized by antigen-presenting cells (APCs). The IRE can induce immunogenic cell death. Indeed, in a mouse tumor model, the M-NA showed longer tumor retention time than free CpG-ODN. Compared with other treatments, the combined treatment significantly inhibited tumor growth with 100\% survival rate for ∼60 days. The therapy induced the activation of cytotoxic lymphocytes and the maturation of APCs in vivo. This treatment could be effective in image-guided local cancer immunotherapy.",

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doi = "10.1016/j.biomaterials.2022.121762",

language = "English",

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AU - Han, Jun Hyeok

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AU - Kang, Jeon Min

AU - James Wang, Chi Pin

AU - Park, Jung Hoon

AU - Kim, Se Na

AU - Yoon, Jong Hwi

AU - Kwon, Ho Keun

AU - Park, Dae Hwan

AU - Park, Tae Eun

AU - Choy, Young Bin

AU - Kim, Dong Hyun

AU - Kim, Tae Hyung

AU - Min, Junhong

AU - Kim, Ik Hwan

AU - Park, Chun Gwon

AU - Han, Dong Keun

AU - Park, Wooram

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N2 - Cancer immunotherapy is a next-generation treatment strategy; however, its side effects limit its clinical translation. Here, a novel combination of a multi-functional nano-adjuvant (M-NA) prepared with an iron oxide/gold core and a cationic polymer shell via multilayer synthesis with CpG oligodeoxynucleotide (CpG-ODN) electrostatically complexed on its surface, and irreversible electroporation (IRE) technique was developed for effective image-guided in situ cancer vaccination. The M-NA can be retained long-term in the dense tumoral extracellular matrix after intratumoral injection and internalized by antigen-presenting cells (APCs). The IRE can induce immunogenic cell death. Indeed, in a mouse tumor model, the M-NA showed longer tumor retention time than free CpG-ODN. Compared with other treatments, the combined treatment significantly inhibited tumor growth with 100% survival rate for ∼60 days. The therapy induced the activation of cytotoxic lymphocytes and the maturation of APCs in vivo. This treatment could be effective in image-guided local cancer immunotherapy.

AB - Cancer immunotherapy is a next-generation treatment strategy; however, its side effects limit its clinical translation. Here, a novel combination of a multi-functional nano-adjuvant (M-NA) prepared with an iron oxide/gold core and a cationic polymer shell via multilayer synthesis with CpG oligodeoxynucleotide (CpG-ODN) electrostatically complexed on its surface, and irreversible electroporation (IRE) technique was developed for effective image-guided in situ cancer vaccination. The M-NA can be retained long-term in the dense tumoral extracellular matrix after intratumoral injection and internalized by antigen-presenting cells (APCs). The IRE can induce immunogenic cell death. Indeed, in a mouse tumor model, the M-NA showed longer tumor retention time than free CpG-ODN. Compared with other treatments, the combined treatment significantly inhibited tumor growth with 100% survival rate for ∼60 days. The therapy induced the activation of cytotoxic lymphocytes and the maturation of APCs in vivo. This treatment could be effective in image-guided local cancer immunotherapy.

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KW - Image-guided cancer therapy

KW - Irreversible electroporation

KW - Multi-functional nano-adjuvant

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Image-guided in situ cancer vaccination with combination of multi-functional nano-adjuvant and an irreversible electroporation technique

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

UN SDGs

Access to Document

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