1 Biological/Pharmacological Research Laboratories, Central Pharmaceutical Research Institute, Japan Tobacco, Takatsuki, Osaka, Japan.
SLAS Discov. 2019 Sep;24(8):854-862. doi: 10.1177/2472555219857542. Epub 2019 Jun 27.
Interleukin-2-inducible T-cell kinase (ITK) plays an important role in T-cell signaling and is considered a promising drug target. As the ATP binding sites of protein kinases are highly conserved, the design of selective kinase inhibitors remains a challenge. Targeting inactive kinase conformations can address the issue of kinase inhibitor selectivity. It is important for selectivity considerations to identify compounds that stabilize inactive conformations from the primary screen hits. Here we screened a library of 390,000 compounds with an ADP-Glo assay using dephosphorylated ITK. After a surface plasmon resonance (SPR) assay was used to filter out promiscuous inhibitors, 105 hits were confirmed. Next, we used a fluorescent biosensor to enable the detection of conformational changes to identify inactive conformation inhibitors. A single-cysteine-substituted ITK mutant was labeled with acrylodan, and fluorescence emission was monitored. Using a fluorescent biosensor assay, we identified 34 inactive conformation inhibitors from SPR hits. Among them, one compound was bound to a site other than the ATP pocket and exhibited excellent selectivity against a kinase panel. Overall, (1) biochemical screening using dephosphorylated kinase, (2) hit confirmation by SPR assay, and (3) fluorescent biosensor assay that can distinguish inactive compounds provide a useful platform and offer opportunities to identify selective kinase inhibitors.
白细胞介素 2 诱导的 T 细胞激酶(ITK)在 T 细胞信号转导中发挥重要作用,被认为是一个很有前途的药物靶点。由于蛋白激酶的 ATP 结合位点高度保守,因此设计选择性激酶抑制剂仍然是一个挑战。针对无活性激酶构象可以解决激酶抑制剂选择性的问题。从初步筛选命中化合物中确定稳定无活性构象的化合物对于选择性考虑很重要。在这里,我们使用 ADP-Glo 测定法对 39 万种化合物进行了文库筛选,该测定法使用去磷酸化的 ITK。在用表面等离子体共振(SPR)测定法筛选出混杂抑制剂后,确认了 105 个命中化合物。接下来,我们使用荧光生物传感器来检测构象变化,以鉴定无活性构象抑制剂。用丙烯酰胺标记单个半胱氨酸取代的 ITK 突变体,并监测荧光发射。使用荧光生物传感器测定法,我们从 SPR 命中化合物中鉴定出 34 种无活性构象抑制剂。其中,一种化合物与 ATP 结合口袋以外的其他部位结合,并对激酶谱表现出优异的选择性。总之,(1)使用去磷酸化激酶进行生化筛选,(2)通过 SPR 测定法确认命中化合物,以及(3)可以区分无活性化合物的荧光生物传感器测定法,为识别选择性激酶抑制剂提供了一个有用的平台,并提供了机会。
