IL-12-Overexpressed Nanoparticles Suppress the Proliferation of Melanoma Through Inducing ICD and Activating DC, CD8 <sup>+</sup> T, and CD4 <sup>+</sup> T Cells

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Abstract

Purpose

The drug resistance and low response rates of immunotherapy limit its application. This study aimed to construct a new nanoparticle (CaCO ₃-polydopamine-polyethylenimine, CPP) to effectively deliver interleukin-12 (IL-12) and suppress cancer progress through immunotherapy.

Methods

The size distribution of CPP and its zeta potential were measured using a Malvern Zetasizer Nano-ZS90. The morphology and electrophoresis tentative delay of CPP were analyzed using a JEM-1400 transmission electron microscope and an ultraviolet spectrophotometer, respectively. Cell proliferation was analyzed by MTT assay. Proteins were analyzed by Western blot. IL-12 and HMGB1 levels were estimated by ELISA kits. Live/dead staining assay was performed using a Calcein-AM/PI kit. ATP production was detected using an ATP assay kit. The xenografts in vivo were estimated in C57BL/6 mice. The levels of CD80 ⁺/CD86 ⁺, CD3 ⁺/CD4 ⁺ and CD3 ⁺/CD8 ⁺ were analyzed by flow cytometry.

Results

CPP could effectively express EGFP or IL-12 and increase ROS levels. Laser treatment promoted CPP-IL-12 induced the number of dead or apoptotic cell. CPP-IL-12 and laser could further enhance CALR levels and extracellular HMGB1 levels and decrease intracellular HMGB1 and ATP levels, indicating that it may induce immunogenic cell death (ICD). The tumors and weights of xenografts in CPP-IL-12 or laser-treated mice were significantly reduced than in controls. The IL-12 expression, the CD80 ⁺/CD86 ⁺ expression of DC from lymph glands, and the number of CD3 ⁺/CD8 ⁺T or CD3 ⁺/CD4 ⁺T cells from the spleen increased in CPP-IL-12-treated or laser-treated xenografts compared with controls. The levels of granzyme B, IFN-γ, and TNF-α in the serum of CPP-IL-12-treated mice increased. Interestingly, CPP-IL-12 treatment in local xenografts in the back of mice could effectively inhibit the growth of the distant untreated tumor.

Conclusion

The novel CPP-IL-12 could overexpress IL-12 in melanoma cells and achieve immunotherapy to melanoma through inducing ICD, activating CD4 ⁺ T cell, and enhancing the function of tumor-reactive CD8 ⁺ T cells.

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Most cited references 46

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Photothermal therapy and photoacoustic imaging via nanotheranostics in fighting cancer

Yijing Liu, Pravin Bhattarai, Zhifei Dai … (2019)

The development, perspectives, and challenges of photothermal therapy (PTT) and photoacoustic imaging (PAI) via nanotheranostics for combating cancer. The nonradiative conversion of light energy into heat (photothermal therapy, PTT) or sound energy (photoacoustic imaging, PAI) has been intensively investigated for the treatment and diagnosis of cancer, respectively. By taking advantage of nanocarriers, both imaging and therapeutic functions together with enhanced tumour accumulation have been thoroughly studied to improve the pre-clinical efficiency of PAI and PTT. In this review, we first summarize the development of inorganic and organic nano photothermal transduction agents (PTAs) and strategies for improving the PTT outcomes, including applying appropriate laser dosage, guiding the treatment via imaging techniques, developing PTAs with absorption in the second NIR window, increasing photothermal conversion efficiency (PCE), and also increasing the accumulation of PTAs in tumours. Second, we introduce the advantages of combining PTT with other therapies in cancer treatment. Third, the emerging applications of PAI in cancer-related research are exemplified. Finally, the perspectives and challenges of PTT and PAI for combating cancer, especially regarding their clinical translation, are discussed. We believe that PTT and PAI having noteworthy features would become promising next-generation non-invasive cancer theranostic techniques and improve our ability to combat cancers.

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Dopamine-melanin colloidal nanospheres: an efficient near-infrared photothermal therapeutic agent for in vivo cancer therapy.

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Selective ORgan Targeting (SORT) nanoparticles for tissue specific mRNA delivery and CRISPR/Cas gene editing

Qiang Cheng, Tuo Wei, Lukas Farbiak … (2020)

CRISPR/Cas gene editing and messenger RNA (mRNA)-based protein replacement therapy hold tremendous potential to effectively treat disease-causing mutations with diverse cellular origin. However, it is currently impossible to rationally design nanoparticles that selectively target specific tissues. Here, we report a strategy termed Selective ORgan Targeting (SORT) wherein multiple classes of lipid nanoparticles (LNPs) are systematically engineered to exclusively edit extrahepatic tissues via addition of a supplemental SORT molecule. Lung-, spleen-, and liver-targeted SORT LNPs were designed to selectively edit therapeutically relevant cell types including epithelial cells, endothelial cells, B cells, T cells, and hepatocytes. SORT is compatible with multiple gene editing techniques, including mRNA, Cas9 mRNA / sgRNA, and Cas9 ribonucleoprotein (RNP) complexes, and is envisioned to aid development of protein replacement and gene correction therapeutics in targeted tissues.

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Author and article information

Journal

Journal ID (nlm-ta): Int J Nanomedicine

Journal ID (iso-abbrev): Int J Nanomedicine

Journal ID (publisher-id): ijn

Title: International Journal of Nanomedicine

Publisher: Dove

ISSN (Print): 1176-9114

ISSN (Electronic): 1178-2013

Publication date (Electronic): 18 March 2024

Publication date Collection: 2024

Volume: 19

Pages: 2755-2772

Affiliations

[1 ]Department of Biochemistry and Molecular Biology, Binzhou Medical University , YanTai, Shandong, 264003, People’s Republic of China

[2 ]Shandong Laboratory of Advanced Materials and Green Manufacturing , Yantai, Shandong, 264000, People’s Republic of China

[3 ]Department of Clinical Laboratory, the Affiliated Taian City Central Hospital of Qingdao University , Taian, 271000, People’s Republic of China

[4 ]Institute of Rehabilitation Medicine, School of Rehabilitation Medicine, Binzhou Medical University , Yantai, Shandong, 264003, People’s Republic of China

[5 ]Department of Epidemiology, Binzhou Medical University , YanTai, ShanDong, 264003, People’s Republic of China

[6 ]Department of Immune Rheumatism, Yantaishan Hospital , Yantai, Shandong, 264000, People’s Republic of China

[7 ]Department of Immunology, Binzhou Medical University , Yantai, Shandong, 264003, People’s Republic of China

Author notes

Correspondence: Shu-Yang Xie; Guang-Bin Sun, Department of Biochemistry and Molecular Biology, Binzhou Medical University , YanTai, Shandong, 264003, People’s Republic of China, Tel +86 535 6913010; +86 535 6913335, Fax +86 535 6913163, Email xieshuyang@bzmc.edu.cn; bingo@bzmc.edu.cn

[*]

These authors contributed equally to this work

Author information

Ping-Yu Wang http://orcid.org/0000-0003-0980-4294

Shu-Yang Xie http://orcid.org/0000-0002-8090-2180

Article

Publisher ID: 442446

DOI: 10.2147/IJN.S442446

PMC ID: 10959451

PubMed ID: 38525008

SO-VID: 9e6d9b42-58b2-45fd-b6b0-1ffda8812bec

License:

This work is published and licensed by Dove Medical Press Limited. The full terms of this license are available at https://www.dovepress.com/terms.php and incorporate the Creative Commons Attribution – Non Commercial (unported, v3.0) License ( http://creativecommons.org/licenses/by-nc/3.0/). By accessing the work you hereby accept the Terms. Non-commercial uses of the work are permitted without any further permission from Dove Medical Press Limited, provided the work is properly attributed. For permission for commercial use of this work, please see paragraphs 4.2 and 5 of our Terms ( https://www.dovepress.com/terms.php).

History

Date received : 28 September 2023

Date accepted : 05 March 2024

Page count

Figures: 7, References: 46, Pages: 18

Funding

Funded by: the National Natural Science Foundation of China;

Funded by: the Shandong Science and Technology Committee;

Funded by: the Education Department of Shandong Province;

Funded by: the Science Fund of Shandong Laboratory of Advanced Materials and Green Manufacturing (Yantai);

The present study was supported by the National Natural Science Foundation of China (No.81772281, 31371321), the Shandong Science and Technology Committee (No. ZR2022LSW002, ZR2020KH015), the Education Department of Shandong Province (2019KJK014, 2021KJ101), and the Science Fund of Shandong Laboratory of Advanced Materials and Green Manufacturing (Yantai) (AMGM2023F16).