Modulation of Dendritic Cell Function via Nanoparticle-Induced Cytosolic Calcium Changes.
Zhengwei CaoXueyuan YangWei YangFanghui ChenWen JiangShuyue ZhanFangchao JiangJianwen LiChenming YeLiwei LangSirui ZhangZhizi FengXinning LaiYang LiuLeidong MaoHoujian CaiYong TengJin XiePublished in: ACS nano (2024)
Calcium nanoparticles have been investigated for applications, such as drug and gene delivery. Additionally, Ca 2+ serves as a crucial second messenger in the activation of immune cells. However, few studies have systematically studied the effects of calcium nanoparticles on the calcium levels and functions within immune cells. In this study, we explore the potential of calcium nanoparticles as a vehicle to deliver calcium into the cytosol of dendritic cells (DCs) and influence their functions. We synthesized calcium hydroxide nanoparticles, coated them with a layer of silica to prevent rapid degradation, and further conjugated them with anti-CD205 antibodies to achieve targeted delivery to DCs. Our results indicate that these nanoparticles can efficiently enter DCs and release calcium ions in a controlled manner. This elevation in cytosolic calcium activates both the NFAT and NF-κB pathways, in turn promoting the expression of costimulatory molecules, antigen-presenting molecules, and pro-inflammatory cytokines. In mouse tumor models, the calcium nanoparticles enhanced the antitumor immune response and augmented the efficacy of both radiotherapy and chemotherapy without introducing additional toxicity. Our study introduces a safe nanoparticle immunomodulator with potential widespread applications in cancer therapy.
Keyphrases