卵巢早衰
中性粒细胞胞外陷阱
细胞生物学
催化作用
化学
活性氧
功能(生物学)
纳米技术
不育
体内
材料科学
卵泡
卵巢
内分泌系统
生物物理学
发病机制
毛囊
微流控
生物
细胞内
细胞外
阳离子聚合
氧气
作者
Ya Wen,Shiwen Ni,Yuxing Liu,Li Li,Nengjie Yang,Rui Zhao,Cong Xu,Yujuan Zhu
标识
DOI:10.1002/adfm.202522326
摘要
Abstract Premature ovarian insufficiency (POI) is a causeof infertility and endocrine dysfunction in women, defined by loss of ovarianfunction before the age of 40 years. Neutrophil extracellular traps (NETs) havebeen implicated in the pathogenesis of POI, as they can promote the release ofcytokines that contribute to oxidative stress, inflammation, and fibrosis, leading to ovary dysfunction. Therefore, NETs represent a promising therapeutictarget for POI. However, research focused specifically on NETs degradationremains limited. In this study, a novel bioinspired catalytic nanosponge basedon microfluidics (DENase@Ce) is proposed as a potential anti‐NETs therapeuticfor POI treatment. Nanosponge coated with cationic polymer enables the captureof NETs via charge‐trapping effects, which can be degraded by outer conjugatedDNase I. To fundamentally alleviate inflammatory microenvironment that recruitsand activates neutrophils, the nanosponge exhibiting intrinsic multienzyme activitiescan effectively reduce the overproduced reactive oxygen species, therebysuppressing NETs further formation. In vivo studies demonstrate that injectionof catalytic nanosponge can rescue ovarian function in mice withcyclophosphamide‐induced ovarian insufficiency, as evidenced by increasedovarian weight, improved follicle counts, and restored fertility. Our workestablishes a novel synergistic anti‐NETs paradigm and presents a promisingtherapeutic platform for addressing chemotherapy‐induced fertility impairment.
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