化学
缺血性中风
神经保护
药物发现
激活剂(遗传学)
药品
药理学
天然化合物
冲程(发动机)
药物靶点
STAT蛋白
转录因子
神经科学
抄写(语言学)
信号转导
癌症研究
区域选择性
残留物(化学)
脑缺血
候选药物
天然产物
生物活性
缺血
作者
Jiping Liao,Xinnan Li,Cheng Fan,Xiang Yuan,Pei‐Cheng Zhang,Dongmei Wang,Ying Peng,Ya‐Nan Yang
标识
DOI:10.1021/acs.jmedchem.5c01752
摘要
Signal transducer and activator of transcription 5A (STAT5A) is known to regulate the processes of various cancers but remains unexplored in neuroprotective effects, especially in ischemic stroke (IS). Based on an HPLC-DAD-HRESIMS-oriented strategy, 16 stilbenoid dimers [(+)- 1 /(−)- 1 – (+)- 9 /(−)- 9 ] were isolated from Heterosmilax yunnanensis (Liliaceae). Pharmacological evaluations showed that (±)- 2 could remarkably alleviate neuronal ischemic damage in MCAO models. A four-step synthesis of (±)- 2 was achieved in a stereo- and regioselective manner by a protecting-group-free strategy. The SAR analysis indicated the necessity of two hydroxy groups at C-3/C-4 or C-3/C-5 in the A ring. Using a chemoproteomics technology, STAT5A was identified as the direct cellular target of (±)- 2 . Mechanistically, (±)- 2 conjugates with STAT5A by the key Lys644 residue to inhibit its phosphorylation, thus exerting anti-IS effects. Our findings demonstrate that STAT5A might be a novel target for IS therapy, and (±)- 2 was the first natural anti-IS drug candidate targeting STAT5A.
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