Rong A, Zhaoguo Han, Meifang Zhou, Chaoqun Nie, Mengyuan Zhu, Sijie Cheng, Tianyi Wang, Jing Wang, Zhen Quan, Kaiqi Wang, Shanshan Liu, Xinxin Hu, Haoyu Wang, Jiannan Wang, Yongyi Wu, Xilin Sun
Science advances 2024 Nov 29The currently available immune checkpoint inhibitors (ICIs) often fail to achieve the desired clinical outcomes due to inadequate immune activation, particularly in patients with lung cancer. To reverse this situation, we synthesized inhalable PFCE-C25 nanoemulsions (NEs), which target lymphocyte activation genes (LAG-3) on immune cells within tumor microenvironment and tumor-draining lymph nodes (TDLNs). By combining in vivo 19F-MR molecular imaging, we investigate the immunological effects of a single low-dose PFCE-C25 NEs in multiple murine lung cancer models, including human immune system (HIS) mouse models, and validated its immunological effects in human TDLNs. The nebulization therapy with PFCE-C25 NEs demonstrated a notable and enduring maturation of dendritic cells (DCs) in TDLNs, leading to systemic immune responses, prolonged survival, the establishment of immune memory, and resistance to tumor rechallenge. Thus, PFCE-C25 NEs successfully demonstrate a promising and efficient approach for enhancing lymphatic transport and sustained activation of antitumor immune responses in lung cancer.
Rong A, Zhaoguo Han, Meifang Zhou, Chaoqun Nie, Mengyuan Zhu, Sijie Cheng, Tianyi Wang, Jing Wang, Zhen Quan, Kaiqi Wang, Shanshan Liu, Xinxin Hu, Haoyu Wang, Jiannan Wang, Yongyi Wu, Xilin Sun. Respiratory delivery of single low-dose nebulized PFCE-C25 NEs for lymphatic transport and durable stimulation of antitumor immunity in lung cancer. Science advances. 2024 Nov 29;10(48):eadp7561
PMID: 39612330
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