Identification of fragments targeting SMYD3 using highly sensitive kinetic and multiplexed biosensor-based screening†

IF 3.597 Q2 Pharmacology, Toxicology and Pharmaceutics MedChemComm Pub Date : 2024-03-20 DOI:10.1039/D4MD00093E
Edward A. FitzGerald, Daniela Cederfelt, Bjarte Aarmo Lund, Nadine E. M. Myers, He Zhang, Doreen Dobritzsch and U. Helena Danielson
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Abstract

A 1056-membered fragment library has been screened against SMYD3 using a novel multiplexed experimental design implemented in a grating coupled interferometry (GCI)-based biosensor. SMYD3 is a prospective target for anticancer drugs and the focus has initially been on discovery of inhibitors of its lysine methyl transferase activity. However, it has multiple protein interaction partners and several potential roles in carcinogenesis. It therefore remains unclear what mode of action ligands targeting the protein should have. Our goal was therefore to identify new ligands and discriminate hits that interact with the active site and those that interact with other sites. In addition, we were interested in selecting hits based on kinetic features rather than affinity. Screening was done in parallel against SMYD3 alone or SMYD3 with the active site blocked by a tight binding inhibitor. Hit selection was primarily based on dissociation rates. In total, 20 fragments were selected as hits, of which half apparently targeted the active site and half targeted other sites. Twelve of the hits were selected for structural analysis using X-ray crystallography in order to identify binding sites and modes of binding. Four of the hits were successfully identified in crystal structures with SMYD3; the others did not show any electron densities for ligands in the crystals. Although it might be possible to optimize the crystallography approach for a better success rate, it was clear that the sensitivity and time resolution of the biosensor assay was exceptional and enabled kinetic rate constants to be estimated for fragments. Fragments are typically considered to interact too rapidly for such quantification to be possible. This approach consequently represents a paradigm shift. In addition, the multiplexed approach allows ligands targeting different sites to be rationally selected already in the fragment library screening stage.

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利用基于生物传感器的高灵敏度动力学和多路复用筛选鉴定靶向 SMYD3 的片段
利用基于光栅耦合干涉仪(GCI)的生物传感器,采用新颖的多路复用实验设计,筛选出了针对 SMYD3 的 1056 个分子片段库。SMYD3 是抗癌药物的潜在靶点,最初的研究重点是发现其赖氨酸甲基转移酶活性的抑制剂。然而,SMYD3 有多个蛋白质相互作用伙伴,在致癌过程中可能发挥多种作用。因此,针对该蛋白的配体应具有何种作用模式仍不清楚。因此,我们的目标是鉴定新配体,并区分与活性位点相互作用的配体和与其他位点相互作用的配体。此外,我们还希望根据动力学特征而不是亲和力来选择配体。筛选是针对单独的 SMYD3 或活性位点被紧密结合抑制剂阻断的 SMYD3 同时进行的。筛选结果主要基于解离率。总共有 20 个片段被选为命中物,其中一半明显针对活性位点,一半针对其他位点。其中 12 个片段被选中进行 X 射线晶体学结构分析,以确定结合位点和结合模式。其中四项在与 SMYD3 的晶体结构中被成功识别;其他的在晶体中没有显示配体的任何电子密度。尽管有可能优化晶体学方法以提高成功率,但生物传感器检测的灵敏度和时间分辨率显然非常出色,能够估算出片段的动力学速率常数。人们通常认为片段的相互作用太快,无法进行量化。因此,这种方法代表了一种范式的转变。此外,多路复用方法允许在片段库筛选阶段就合理选择针对不同位点的配体。
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来源期刊
MedChemComm
MedChemComm BIOCHEMISTRY & MOLECULAR BIOLOGY-CHEMISTRY, MEDICINAL
CiteScore
4.70
自引率
0.00%
发文量
0
审稿时长
2.2 months
期刊介绍: Research and review articles in medicinal chemistry and related drug discovery science; the official journal of the European Federation for Medicinal Chemistry. In 2020, MedChemComm will change its name to RSC Medicinal Chemistry. Issue 12, 2019 will be the last issue as MedChemComm.
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