神经保护
串扰
重编程
神经营养素
炎症
医学
睫状神经营养因子
神经营养因子
免疫系统
癌症研究
细胞因子
败血症
调解人
谷氨酸受体
小胶质细胞
免疫疗法
脂质信号
免疫学
神经生长因子
肺
M2巨噬细胞
巨噬细胞
髓鞘
多发性硬化
基因敲除
神经科学
脂质代谢
肿瘤坏死因子α
脑源性神经营养因子
下调和上调
生物
药理学
生长因子
肿瘤微环境
巨噬细胞极化
趋化因子
作者
Wenhui Wang,Yongrui Hai,Xintong Lu,Chen Yong-lu,Bingjie Zhang,Renming Fan,Jiarui Dou,Jiaxin Yan,Shuo Fu,Wen Zhang,J Song,Gaofei Wei
标识
DOI:10.1002/advs.202520665
摘要
Sepsis remains a leading cause of mortality in intensive care units, with its associated organ dysfunction primarily driven by uncontrolled inflammation and neuroimmune dysregulation. Among affected organs, the lung is particularly vulnerable, with injury involving both immune-mediated tissue damage and inflammation-induced neuronal impairment. Yet, whether coordinated targeting of immune and neural compartments can achieve synergistic and durable therapeutic benefits remains unknown. Here, we report a rationally engineered, dual-functional, enzyme-responsive nanoplatform (SJNPs) that co-delivers the glutamate production inhibitor JHU083 and the neuroprotective spermine (Spm) to reprogram macrophage-neuron immunometabolic interactions. SJNPs suppressed pro-inflammatory, M1-associated macrophage activation while promoting M2 polarization, which in turn drove robust secretion of the neurotrophic factor nerve growth factor (NGF) and preserved pulmonary neuronal integrity. Mechanistically, inhibition of glutamate metabolism reprogrammed macrophage polarization and activated NGF-mediated neurotrophic signaling, establishing NGF as a key mediator linking immune modulation to neural protection. In murine sepsis models, SJNPs attenuated systemic cytokine storms, mitigated alveolar damage, alleviated neurological injury, and improved survival. This study identifies macrophage-neuron immunometabolic crosstalk as a previously underexplored therapeutic target for septic lung injury characterized by neuronal damage, and establishes metabolic reprogramming of macrophages as a promising strategy for integrated immunomodulatory and neuroprotective therapy in sepsis.
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