Enhancing tumor immunotherapy with smart nanoparticles for reprogramming macrophages and blocking the CD47/Sirpα pathway
Zubair Hussain, Shanshan Gou, Xu Liu, Mengyu Li, H H Zhang, Sumei Ren, Ruxia Han, Fangfang Liu, Xiaowen Zhou, Lu Qiu, Hongfei Wang, Zhenzhen Chen, Kangdong Liu
Abstract
Immunotherapy has significantly advanced cancer treatment, but the tumor immune microenvironment (TIME) often remains immunosuppressive, limiting therapeutic efficacy. Tumor-associated macrophages (TAMs), particularly M2-like macrophages, play a crucial role in promoting tumor growth and immune evasion. Our study introduces a novel approach using dual-targeted ZrMOF/C@P nanoparticles, smartly engineered with cell membrane coating and enzyme responsiveness, to effectively modulate TAMs. These nanoparticles are synthesized and loaded with 2’, 3’-cGAMP, a STING agonist, and encapsulated in a peptide-expressed macrophage membrane (PMM) featuring Pep20, MMP2, and M2pep. In vitro , they activate the STING pathway in M2-like macrophages and reprogram them into M1-like macrophages. Smart ZrMOF/C@P is found to accumulate at the tumor even 72 hours post-injection. In CT26 and 4T1 tumor models show that smart ZrMOF/C@P not only suppresses tumor growth but also stimulates systemic immune responses. This is evidenced by a reduction in M2-like and an increase in M1-like macrophages, enhanced dendritic cell (DC) maturation, and increased tumor infiltration of CD4 + and CD8 + T cells, accompanied by elevated IFN-γ secretion. This innovative use of ZrMOF/C@P offers a promising strategy to transform the immunosuppressive TIME, presenting a versatile and effective treatment option for solid tumors, and novel avenue for non-CDN-STING agonists, facilitating systemic administration.