Jinlei Wang , Ying Lin , Xiaoyu Xu , Yonghui Wang , Qiong Xie
{"title":"从激酶抑制剂文库中通过基于微流控技术的迁移率测定法鉴定牛头-管突蛋白激酶1抑制剂","authors":"Jinlei Wang , Ying Lin , Xiaoyu Xu , Yonghui Wang , Qiong Xie","doi":"10.1016/j.slasd.2023.06.003","DOIUrl":null,"url":null,"abstract":"<div><p>Tau tubulin kinase 1 (TTBK1) is a serine/threonine/tyrosine kinase that phosphorylates multiple residues in tau protein. Hyperphosphorylated tau is the main cause of tauopathy, such as Alzheimer's disease (AD). Therefore, preventing tau phosphorylation by inhibiting TTBK1 has been proposed as a therapeutic strategy for AD. However, few substrates of TTBK1 are reported for a biochemical assay and few inhibitors targeting TTBK1 have been reported so far. In this study, we identified a fluorescein amidite (FAM)-labeled peptide 15 from a small peptide library as the optimal peptide substrate for human TTBK1 (hTTBK1). We then developed and validated a microfluidics-based mobility shift assay (MMSA) with peptide 15. We further confirmed that peptide 15 could also be used in the ADP-Glo kinase assay. The established MMSA was applied for screening of a 427-compound kinase inhibitor library, yielding five compounds with IC<sub>50</sub>s of several micro molars against hTTBK1. Among them, three compounds, AZD5363, A-674,563 and GSK690693 inhibited hTTBK1 in an ATP competitive manner and molecular docking simulations revealed that they enter the ATP pocket and form one or two hydrogen bonds to the hinge region with hTTBK1. Another hit compound, piceatannol, showed non-ATP competitive inhibitory effect on hTTBK1 and may serve as a starting point to develop highly selective hTTBK1 inhibitors. Altogether, this study provided a new <em>in vitro</em> platform for the development of novel hTTBK1 inhibitors that might have potential applications in AD prevention.</p></div>","PeriodicalId":2,"journal":{"name":"ACS Applied Bio Materials","volume":null,"pages":null},"PeriodicalIF":4.6000,"publicationDate":"2023-12-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.sciencedirect.com/science/article/pii/S2472555223000497/pdfft?md5=8fe6e5c960b9b98dccf62d6d9abccb47&pid=1-s2.0-S2472555223000497-main.pdf","citationCount":"0","resultStr":"{\"title\":\"Identification of tau-tubulin kinase 1 inhibitors by microfluidics-based mobility shift assay from a kinase inhibitor library\",\"authors\":\"Jinlei Wang , Ying Lin , Xiaoyu Xu , Yonghui Wang , Qiong Xie\",\"doi\":\"10.1016/j.slasd.2023.06.003\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><p>Tau tubulin kinase 1 (TTBK1) is a serine/threonine/tyrosine kinase that phosphorylates multiple residues in tau protein. Hyperphosphorylated tau is the main cause of tauopathy, such as Alzheimer's disease (AD). Therefore, preventing tau phosphorylation by inhibiting TTBK1 has been proposed as a therapeutic strategy for AD. However, few substrates of TTBK1 are reported for a biochemical assay and few inhibitors targeting TTBK1 have been reported so far. In this study, we identified a fluorescein amidite (FAM)-labeled peptide 15 from a small peptide library as the optimal peptide substrate for human TTBK1 (hTTBK1). We then developed and validated a microfluidics-based mobility shift assay (MMSA) with peptide 15. We further confirmed that peptide 15 could also be used in the ADP-Glo kinase assay. The established MMSA was applied for screening of a 427-compound kinase inhibitor library, yielding five compounds with IC<sub>50</sub>s of several micro molars against hTTBK1. Among them, three compounds, AZD5363, A-674,563 and GSK690693 inhibited hTTBK1 in an ATP competitive manner and molecular docking simulations revealed that they enter the ATP pocket and form one or two hydrogen bonds to the hinge region with hTTBK1. Another hit compound, piceatannol, showed non-ATP competitive inhibitory effect on hTTBK1 and may serve as a starting point to develop highly selective hTTBK1 inhibitors. 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引用次数: 0
摘要
Tau 管蛋白激酶 1(TTBK1)是一种丝氨酸/苏氨酸/酪氨酸激酶,能使 tau 蛋白中的多个残基磷酸化。过度磷酸化的 tau 蛋白是导致阿尔茨海默病(AD)等 tau 蛋白病的主要原因。因此,通过抑制 TTBK1 来防止 tau 蛋白磷酸化已被提出作为 AD 的一种治疗策略。然而,目前用于生化检测的 TTBK1 底物报道很少,针对 TTBK1 的抑制剂报道也很少。在这项研究中,我们从一个小型肽库中鉴定出了荧光素脒(FAM)标记的肽 15,作为人 TTBK1(hTTBK1)的最佳肽底物。然后,我们利用多肽 15 开发并验证了基于微流控技术的迁移率测定(MMSA)。我们进一步证实肽 15 也可用于 ADP-Glo 激酶测定。建立的 MMSA 被用于筛选 427 种化合物的激酶抑制剂文库,筛选出 5 种对 hTTBK1 的 IC50 值为几微摩尔的化合物。其中,AZD5363、A-674,563 和 GSK690693 这三个化合物以 ATP 竞争方式抑制 hTTBK1,分子对接模拟显示它们进入 ATP 口袋并与 hTTBK1 的铰链区形成一个或两个氢键。分子对接模拟显示,这些化合物进入 ATP 口袋并与 hTTBK1 的铰链区形成一个或两个氢键。另一个命中化合物皮萨单宁醇对 hTTBK1 具有非 ATP 竞争性抑制作用,可作为开发高选择性 hTTBK1 抑制剂的起点。总之,这项研究为开发新型 hTTBK1 抑制剂提供了一个新的体外平台,这些抑制剂可能在预防老年痴呆症方面具有潜在的应用价值。
Identification of tau-tubulin kinase 1 inhibitors by microfluidics-based mobility shift assay from a kinase inhibitor library
Tau tubulin kinase 1 (TTBK1) is a serine/threonine/tyrosine kinase that phosphorylates multiple residues in tau protein. Hyperphosphorylated tau is the main cause of tauopathy, such as Alzheimer's disease (AD). Therefore, preventing tau phosphorylation by inhibiting TTBK1 has been proposed as a therapeutic strategy for AD. However, few substrates of TTBK1 are reported for a biochemical assay and few inhibitors targeting TTBK1 have been reported so far. In this study, we identified a fluorescein amidite (FAM)-labeled peptide 15 from a small peptide library as the optimal peptide substrate for human TTBK1 (hTTBK1). We then developed and validated a microfluidics-based mobility shift assay (MMSA) with peptide 15. We further confirmed that peptide 15 could also be used in the ADP-Glo kinase assay. The established MMSA was applied for screening of a 427-compound kinase inhibitor library, yielding five compounds with IC50s of several micro molars against hTTBK1. Among them, three compounds, AZD5363, A-674,563 and GSK690693 inhibited hTTBK1 in an ATP competitive manner and molecular docking simulations revealed that they enter the ATP pocket and form one or two hydrogen bonds to the hinge region with hTTBK1. Another hit compound, piceatannol, showed non-ATP competitive inhibitory effect on hTTBK1 and may serve as a starting point to develop highly selective hTTBK1 inhibitors. Altogether, this study provided a new in vitro platform for the development of novel hTTBK1 inhibitors that might have potential applications in AD prevention.
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