- Browse by Author
Browsing by Author "Yang, Jingjing"
Now showing 1 - 2 of 2
Results Per Page
Sort Options
Item 5-hydroxymethylcytosine is dynamically regulated during forebrain organoid development and aberrantly altered in Alzheimer’s disease(Cell Press, 2021-04-27) Kuehner, Janise N.; Chen, Junyu; Bruggeman, Emily C.; Wang, Feng; Li, Yangping; Xu, Chongchong; McEachin, Zachary T.; Li, Ziyi; Chen, Li; Hales, Chadwick M.; Wen, Zhexing; Yang, Jingjing; Yao, Bing; Medicine, School of Medicine5-hydroxymethylcytosine (5hmC) undergoes dynamic changes during mammalian brain development, and its dysregulation is associated with Alzheimer's disease (AD). The dynamics of 5hmC during early human brain development and how they contribute to AD pathologies remain largely unexplored. We generate 5hmC and transcriptome profiles encompassing several developmental time points of healthy forebrain organoids and organoids derived from several familial AD patients. Stage-specific differentially hydroxymethylated regions demonstrate an acquisition or depletion of 5hmC modifications across developmental stages. Additionally, genes concomitantly increasing or decreasing in 5hmC and gene expression are enriched in neurobiological or early developmental processes, respectively. Importantly, our AD organoids corroborate cellular and molecular phenotypes previously observed in human AD brains. 5hmC is significantly altered in developmentally programmed 5hmC intragenic regions in defined fetal histone marks and enhancers in AD organoids. These data suggest a highly coordinated molecular system that may be dysregulated in these early developing AD organoids.Item Design, synthesis and in vitro anti-Zika virus evaluation of novel Sinefungin derivatives(Elsevier, 2018-09) Tao, Zeyu; Cao, Ruiyuan; Yan, Yunzheng; Huang, Guocheng; Lv, Kai; Li, Wei; Geng, Yunhe; Zhao, Lei; Wang, Apeng; He, Qinhao; Yang, Jingjing; Fan, Shiyong; Huang, Menghao; Guo, Huiyuan; Zhong, Wu; Lu, Mingliang; Medicine, School of MedicineWe report herein the design and synthesis of a series of novel Sinefungin (SIN) derivatives, based on the structures of SIN and its analogue EPZ004777. Our results reveal that target compounds 1ad-af, 1ba-bb and 1bf-bh show better activity (IC50 = 4.56–20.16 μM) than EPZ004777 (IC50 = 35.19 μM). Surprisingly, SIN was founded to be not as active (IC50 > 50 μM) as we and other research groups predicted. Interestingly, the intermediates 9a-b and 11b display potent anti-ZIKV potency (IC50 = 6.33–29.98 μM), and compound 9a also exhibits acceptable cytotoxicity (CC50 > 200 μM), suggesting their promising potential to be leads for further development.