Bolarum Tanvi S, Dobrovolskaia Marina A
Nanotechnology Characterization Lab., Cancer Research Technology Program, Frederick National Laboratory for Cancer Research sponsored by the National Cancer Institute. Frederick, MD 21702, USA.
University of Maryland, College Park, MD 20742, USA.
RNA Nanomed. 2025 Apr;2(1). doi: 10.59566/isrnn.2025.0201b.
Cancer is a systemic disorder resulting from altered molecular and cellular processes and dysfunctional body systems. One of the systems dysfunctional in cancer is the immune system. Tumors develop multiple mechanisms to escape immune surveillance and reprogram the immune cells to support cancer progression. The vicious circle of tumor-immune system interactions in cancer is often referred to as the cancer immunity cycle. Nucleic acid nanoparticles (NANPs) have recently emerged as a novel class of materials with a broad spectrum of therapeutic modalities and properties distinct from traditional therapeutic nucleic acids. Herein, we review the current literature regarding the recognition of NANPs by the immune system and explore how their intrinsic and controlled immunological properties can be leveraged to overcome the barriers to effective cancer immunotherapy created by the cancer immunity cycle.
癌症是一种系统性疾病,由分子和细胞过程改变以及身体系统功能失调引起。癌症中功能失调的系统之一是免疫系统。肿瘤发展出多种机制来逃避免疫监视,并对免疫细胞进行重编程以支持癌症进展。癌症中肿瘤 - 免疫系统相互作用的恶性循环通常被称为癌症免疫循环。核酸纳米颗粒(NANPs)最近作为一类新型材料出现,具有广泛的治疗方式和与传统治疗性核酸不同的特性。在此,我们综述了关于免疫系统对NANPs识别的当前文献,并探讨如何利用其内在和可控的免疫学特性来克服癌症免疫循环所造成的有效癌症免疫治疗障碍。