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Ping Hongyan,Wang Degang,Fu Maxian,Chen Kaihong,Zhang Jiuhong,Li Ke,Jiang Xuewu,Duan Shouxing,Zhang Xuan 대한독성 유전단백체 학회 2022 Molecular & cellular toxicology Vol.18 No.4
Background Diethylstilbestrol (DES) has been shown to disrupt the morphology and proliferation of gubernaculum testis cells. Objective This study aimed to elucidate the mechanism underlying DES induced damage to gubernaculum testis based on proteome analysis. Results Neonatal mice were exposed to DES or control vehicle and the gonads were collected for isobaric tags for relative and absolute quantitation based proteomics analysis. We found that at the early and late stages of gubernaculum development, treatment with different concentrations of DES upregulated the expression of proteins which were generally involved in several function categories including single-organism process, cellular process, binding, catalytic activity, cell part and organelle. KEGG pathway analysis showed that cardiac muscle contraction, oxidative phosphorylation, calcium signaling and cGMP-PKG signaling pathway were the most dysregulated pathways associated with DES in the late stage of gubernaculum development, while steroid biosynthesis was the only enriched pathway in the early stage of gubernaculum development. Conclusion Proteomics profi ling and functional analysis reveal new clues on how DES interferes with cellular processes and disrupts the development of gubernaculum. These findings have potential applications in the treatment of genitourinary diseases such as cryptorchidism.
Li Deng,Wenpeng Jia,Wen Zheng,Hao Liu,Degang Jiang,Zimeng Li,Yu Tian,Wenling Zhang,Jingquan Liu 한국공업화학회 2018 Journal of Industrial and Engineering Chemistry Vol.58 No.-
Ni–Al layered double hydroxides (Ni–Al LDHs) are adopted as an electrorheological (ER) materialascribed to their special layered structure, ample polarizable groups and good dispersibility. Themagnetite nanoparticles (Fe3O4 NPs) are utilized as classical magnetorheological (MR) materials onaccount of their excellent paramagnetic property. In this work, we report the rational design of highperformanceER/MR materials by integrating the structural merits of Fe3O4 NPs onto a binary layeredstructure system. The obtained Fe3O4/Ni–Al LDH NCs dispersed in silicone oil displayed appealing dualER/MR performances. The work opens a new path toward novel stimuli-responsive materials forindustrial applications.