Stafia-1：一种通过基于对接的计算磷酸化片段筛选开发的 STAT5a 选择性抑制剂。

Stafia-1: a STAT5a-Selective Inhibitor Developed via Docking-Based Screening of in Silico O-Phosphorylated Fragments.

机构信息

Institute of Organic Chemistry, Leipzig University, Johannisallee 29, 04103, Leipzig, Germany.

出版信息

Chemistry. 2020 Jan 2;26(1):148-154. doi: 10.1002/chem.201904147. Epub 2019 Nov 27.

DOI:10.1002/chem.201904147

PMID:31503360

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6973011/

Abstract

We present a new approach for the identification of inhibitors of phosphorylation-dependent protein-protein interaction domains, in which phenolic fragments are adapted by in silico O-phosphorylation before docking-based screening. From a database of 10 369 180 compounds, we identified 85 021 natural product-derived phenolic fragments, which were virtually O-phosphorylated and screened for in silico binding to the STAT3 SH2 domain. Nine screening hits were then synthesized, eight of which showed a degree of in vitro inhibition of STAT3. After analysis of its selectivity profile, the most potent inhibitor was then developed to Stafia-1, the first small molecule shown to preferentially inhibit the STAT family member STAT5a over the close homologue STAT5b. A phosphonate prodrug based on Stafia-1 inhibited STAT5a with selectivity over STAT5b in human leukemia cells, providing the first demonstration of selective in vitro and intracellular inhibition of STAT5a by a small-molecule inhibitor.

摘要

我们提出了一种新的方法来鉴定磷酸化依赖性蛋白-蛋白相互作用结构域的抑制剂，该方法通过基于对接的筛选，在将酚片段进行计算机模拟 O-磷酸化后进行适配。从一个包含 10369180 种化合物的数据库中，我们鉴定了 85021 种天然产物衍生的酚片段，这些片段经过计算机模拟 O-磷酸化处理，并进行了与 STAT3 SH2 结构域的虚拟结合筛选。然后合成了 9 个筛选命中物，其中 8 个显示出对 STAT3 的体外抑制程度。在分析其选择性特征后，然后对最有效的抑制剂进行了进一步研究，发现它是第一个小分子抑制剂，能够优先抑制 STAT 家族成员 STAT5a，而不是与其密切同源的 STAT5b。基于 Stafia-1 的膦酸酯前药在人白血病细胞中对 STAT5a 的选择性抑制作用优于 STAT5b，首次证明了小分子抑制剂对 STAT5a 的体外和细胞内选择性抑制作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/31d3/6973011/5f16210aeb1a/CHEM-26-148-g001.jpg

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Stafia-1：一种通过基于对接的计算磷酸化片段筛选开发的 STAT5a 选择性抑制剂。

Stafia-1: a STAT5a-Selective Inhibitor Developed via Docking-Based Screening of in Silico O-Phosphorylated Fragments.

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