椎间盘
背景(考古学)
细胞生物学
下调和上调
化学
旁分泌信号
炎症
体内
机械转化
促炎细胞因子
HEK 293细胞
趋化因子
TLR4型
基质金属蛋白酶
癌症研究
可药性
环空(植物学)
免疫染色
神经科学
脚手架
生物相容性
生物医学工程
阿格里坎
生物物理学
作者
Zimei Wu,Yan Xu,Qin Liu,Ling Zemin,Yingjie Mai,Xiong Tian Guo,Jiajia Chen,Leping Yan,Lin Wang,Liming Bian,Fuxin Wei
标识
DOI:10.1002/advs.202521709
摘要
ABSTRACT Intervertebral disc degeneration (IVDD) is driven by persistent inflammation–oxidative stress that disrupts annulus fibrosus (AF) homeostasis. Guided by network pharmacology and docking, we prioritized the NF‐κB–LCN2 axis as a druggable target of wedelolactone (WDL). To achieve targeted modulation, we engineered a dual‐network ROS‐responsive hydrogel (WPG) in which a phenylboronic‐ester/PVA redox‐cleavable network interpenetrates a covalently crosslinked GelMA–elastin matrix, enabling mechanically robust yet stimulus‐triggered WDL release. WDL suppressed NF‐κB activation and downregulated LCN2 in both macrophages and AF cells. Conditioned‐medium co‐culture demonstrated that WDL disrupts macrophage‐derived LCN2‐mediated paracrine amplification, breaking the self‐sustaining inflammatory loop. Bulk RNA‐seq across both cell types revealed coordinated downregulation of NF‐κB – driven chemokine cascades and restoration of adhesion and ECM gene programs following WPG treatment. In a rat AF‐defect model, intradiscal WPG administration preserved disc height and T 2 ‐weighted MRI signal, reduced MMP13 while increasing Collagen I and Aggrecan expression, suppressed nuclear P‐p65 and LCN2, and improved segment biomechanics—without eliciting adverse hematological or organ responses. Collectively, these findings establish that aligning molecular targeting (NF‐κB–LCN2 modulation) with the pathophysiological context via ROS‐gated delivery provides a synergistic strategy for AF repair and attenuation of IVDD progression.
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