1. Academic Validation
  2. Reactive oxygen species-responsive dual-targeted nanosystem promoted immunogenic cell death against breast cancer

Reactive oxygen species-responsive dual-targeted nanosystem promoted immunogenic cell death against breast cancer

  • Bioeng Transl Med. 2022 Aug 3;8(5):e10379. doi: 10.1002/btm2.10379.
Asmita Banstola 1 2 Mahesh Pandit 3 Ramesh Duwa 1 Jae-Hoon Chang 3 Jee-Heon Jeong 4 Simmyung Yook 1
Affiliations

Affiliations

  • 1 College of Pharmacy Keimyung University Daegu South Korea.
  • 2 Department of Dermatology, Harvard Medical School Wellman Center for Photomedicine, Massachusetts General Hospital Boston Massachusetts USA.
  • 3 College of Pharmacy Yeungnam University Gyeongsan Gyeongbuk South Korea.
  • 4 Department of Precision Medicine, School of Medicine Sungkyunkwan University Suwon South Korea.
Abstract

The development of an optimal treatment modality to improve the therapeutic outcome of breast Cancer patients is still difficult. Poor antigen presentation to T cells is a major challenge in Cancer Immunotherapy. In this study, a synergistic immunotherapy strategy for breast Cancer incorporating immune cell infiltration, immunogenic cell death (ICD), and dendritic cell (DC) maturation through a Reactive Oxygen Species (ROS)-responsive dual-targeted smart nanosystem (anti-PD-L1-TKNP) for the simultaneous release of DOX, R848, and MIP-3α in the tumor microenvironment is reported. Following local injection, anti-PD-L1-DOX-R848-MIP-3α/thioketal nanoparticle (TKNP) converts tumor cells to a vaccine owing to the combinatorial effect of DOX-induced ICD, R848-mediated immunostimulatory properties, and MIP-3α-induced immune cell recruitment in the tumor microenvironment. Intratumoral injection of anti-PD-L1-DOX-R848-MIP-3α/TKNP caused significant regression of breast Cancer. Mechanistic studies reveal that anti-PD-L1-DOX-R848-MIP-3α/TKNP specifically targets tumor tissue, resulting in maximum exposure of calreticulin (CRT) and HMGB1 in tumors, and significantly enhances intratumoral infiltration of CD4+ and CD8+ T cells in tumors. Therefore, a combined strategy using dual-targeted ROS-responsive TKNP highlights the significant application of nanoparticles in modulating the tumor microenvironment and could be a clinical treatment strategy for effective breast Cancer management.

Keywords

calreticulin; immune cell infiltration; immune cells recruitment; immunogenic cell death; smart nanosystem.

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