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Diverse Ecdysterones Show Different Effects on Amyloid-β42 Aggregation but All Uniformly Inhibit Amyloid-β42-Induced Cytotoxicity

Shigao YangTsinghua University School of Medicine, Haidian District, Beijing, ChinaXi ZhangTsinghua University School of Medicine, Haidian District, Beijing, ChinaXiao-Sia SunTsinghua University School of Medicine, Haidian District, Beijing, ChinaTie-Jun LingKey Laboratory of Tea Biochemistry and Biotechnology of Ministry of Education and Ministry of Agriculture, Anhui Agricultural University, Hefei, ChinaYing FengTsinghua University School of Medicine, Haidian District, Beijing, ChinaXueying DuTsinghua University School of Medicine, Haidian District, Beijing, ChinaMin ZhaoTsinghua University School of Medicine, Haidian District, Beijing, ChinaYang YangTsinghua University School of Medicine, Haidian District, Beijing, ChinaDi XueTsinghua University School of Medicine, Haidian District, Beijing, ChinaLi WangTsinghua University School of Medicine, Haidian District, Beijing, ChinaRui‐tian LiuTsinghua University School of Medicine, Haidian District, Beijing, China
2010en
ABI

Annotatsiya

Amyloid-β (Aβ) plays a pivotal role in Alzheimer's disease (AD) pathogenesis and in toxic mechanisms such as oxidative stress, mitochondrial dysfunction, calcium turbulence, and apoptosis induction. Therefore, interfering with Aβ aggregation has long been one of the most promising strategies for AD treatment. Ecdysterones (ECRs) are steroidal hormones in insects and terrestrial plants that have high structural diversity and multiple beneficial pharmacological activities. Here, we studied the effects of six ECRs on Aβ aggregation and cytotoxicity. Two ECRs with an acetoxyl group at the 2 or 3 position and saturated chains as side groups showed apparent promotion of Aβ42 fibrilization, resulting in less Aβ42 oligomers in the samples. Another three with unsaturated side chains clearly inhibited Aβ aggregation and disaggregated preformed fibrils, but increased the Aβ42 oligomer levels. Nevertheless, our MTT results showed that all ECRs tested inhibited Aβ42-induced cytotoxicity. This protective activity may be partly attributable to ECR-mediated amelioration of A&beta42-induced release of reactive oxygen species. Taken together, our findings suggest that ECRs, a series of natural compounds in many plants and insects, have therapeutic potential in AD and that the deduced structure-activity relationships may be beneficial in drug design for the treatment of AD and other amyloidoses.

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