失巢
细胞生物学
粒体自噬
重编程
基因敲除
炎症
线粒体
间质细胞
基因沉默
癌症研究
生物
膜联蛋白A2
线粒体内膜
化学
跨膜蛋白
膜联蛋白
品脱1
下调和上调
转运蛋白
自噬
纤维连接蛋白
细胞外基质
作者
Honglin Wang,Yanling Gou,Huiyan Zhang,Hongli Wang,Beidi Wang,Jinming Liu,Yingying Cao,Rui Bai,Yu Zhao,Xu Han,Chao Feng,Xin Huang,Zongfeng Zhang
摘要
Endometriosis (EMs) features ectopic implantation of endometrial stromal cells (EESCs) and strong anoikis resistance, yet how inflammatory signals reprogram mitochondrial function remains unclear. Here, neutrophil extracellular traps (NETs), particularly their DNA scaffold (NET-DNA), are identified as enriched in early lesions and associated with enhanced mitophagy and EESCs survival. In primary human EESCs, NET-DNA suppresses anoikis, increases mitochondrial membrane potential, decreases reactive oxygen species, and enhances ER-mitochondria contacts. NET-DNA directly binds Annexin A2 (ANXA2), promotes its redistribution from the plasma membrane to the cytoplasm, and independently upregulates the ER-resident transmembrane protein TMEM215. TMEM215 facilitates formation of a Ca2+-dependent ANXA2-TMEM215 complex, enhancing ER-mitochondria contacts and PINK1/Parkin-mediated mitophagy. Silencing ANXA2 or TMEM215 disrupts mitophagy, impairs mitochondrial Ca2+ handling, reduces ER-mitochondria contacts, and restores anoikis sensitivity. Proteomic analysis identifies Binding Immunoglobulin Protein (BiP/GRP78) as a TMEM215-interacting partner, and NET-DNA promotes assembly of a TMEM215-ANXA2-BiP complex that reinforces mitochondrial quality control. In mouse EMs models, knockdown of TMEM215 or ANXA2 reduces lesion growth and partially reverses LPS-associated progression. These findings reveal a mechanism linking inflammation to mitochondrial reprogramming in EMs and suggest a potential therapeutic target.
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