Spatiotemporal Controllable Sono-Nanovaccines Driven by Free-Field Based Whole-Body Ultrasound for Personalized Cancer Therapy.
Yang WangGuangzhe LiJianlong SuYiming LiuXiaomai ZhangGuanyi ZhangZhihao WuJinrong LiYuxuan ZhangXu WangZejia YangRuimin WangChengdong WangLiu WangFangfang SunWeijie ZhaoXuejian WangXiaojun PengKun ShaoPublished in: Advanced science (Weinheim, Baden-Wurttemberg, Germany) (2024)
Therapeutic cancer vaccines fail to produce satisfactory outcomes against solid tumors since vaccine-induced anti-tumor immunity is significantly hampered by immunosuppression. Generating an in situ cancer vaccine targeting immunological cold tumor microenvironment (TME) appears attractive. Here, a type of free-field based whole-body ultrasound (US)-driven nanovaccines are constructed, named G5-CHC-R, by conjugating the sonosensitizer, Chenghai chlorin (CHC) and the immunomodulator, resiquimod (R848) on top of a super small-sized dendrimeric nanoscaffold. Once entering tumors, R848 can be cleaved from a hypoxia-sensitive linker, thus modifying the TME via converting macrophage phenotypes. The animals bearing orthotopic pancreatic cancer with intestinal metastasis and breast cancer with lung metastasis are treated with G5-CHC-R under a free-field based whole-body US system. Benefit from the deep penetration capacity and highly spatiotemporal selectiveness, G5-CHC-R triggered by US represented a superior alternative for noninvasive irradiation of deep-seated tumors and magnification of local immune responses via driving mass release of tumor antigens and "cold-warm-hot" three-state transformation of TME. In addition to irradiating primary tumors, a robust adaptive anti-tumor immunity is potentiated, leading to successful induction of systemic tumor suppression. The sono-nanovaccines with good biocompatibility posed wide applicability to a broad spectrum of tumors, revealing immeasurable potential for translational research in oncology.
Keyphrases
- cancer therapy
- papillary thyroid
- immune response
- magnetic resonance imaging
- squamous cell
- drug delivery
- computed tomography
- palliative care
- photodynamic therapy
- endothelial cells
- diabetic rats
- type diabetes
- toll like receptor
- climate change
- squamous cell carcinoma
- wastewater treatment
- metabolic syndrome
- radiation induced
- contrast enhanced ultrasound
- drug induced
- oxidative stress
- insulin resistance
- newly diagnosed