Metabolic modulation via mTOR pathway and anti-angiogenesis remodels tumor microenvironment using PD-L1-targeting codelivery
Binfan Chen, Ang Gao, Bin Tu, Yonghui Wang, Xiaolu Yu, Yingshu Wang, Yanfeng Xiu, Bing Wang, Yakun Wan, Yongzhuo Huang
Journal:BIOMATERIALS
IF:10.32
DOI:10.1016/j.biomaterials.2020.120187
PMID:32590192
Published:2020-06-12
research field:肿瘤学生物医学工程光动力疗法药学纳米技术化疗
Abstract
Tumor microenvironment (TME) closely affects cancer progression by promoting cancer cell survival and proliferation, drug resistance, metastasis, and immunosuppression as well. Remodeling TME is a promising therapeutic strategy for anticancer. mTOR signaling is an essential regulator for cellular metabolism and tumor-associated macrophages (TAMs) repolarization . There is an integrated crosstalk among mTOR/metabolism/immunity. Angiogenesis can also regulate metabolism and immunity. Based on these, a potential therapeutic avenue was developed by targeting mTOR and angiogenesis to remodel tumor immune microenvironment (TIME). A dual-targeting delivery liposomal system was designed with dual-modification of PD-L1 nanobody and mannose ligands for co-delivering an mTOR inhibitor (rapamycin) and an anti-angiogenic drug (regorafenib). The liposomes were able to target both TAMs and cancer cells that overexpressed PD-L1 and mannose receptors . The liposomes efficiently reduced glycolysis, repolarized TAMs, inhibited angiogenesis, reprogrammed immune cells , and consequently arrested tumor growth.
本文使用的Yeasen产品


