SGC-CLK-1: A chemical probe for the Cdc2-like kinases CLK1, CLK2, and CLK4

Current research in chemical biology Pub Date : 2023-01-01 DOI:10.1016/j.crchbi.2023.100045

Deanna Tiek , Carrow I. Wells , Martin Schröder , Xiao Song , Carla Alamillo-Ferrer , Anshika Goenka , Rebeca Iglesia , Minghui Lu , Bo Hu , Frank Kwarcinski , Parvathi Sintha , Chandi de Silva , Mohammad Anwar Hossain , Alfredo Picado , William Zuercher , Reena Zutshi , Stefan Knapp , Rebecca B. Riggins , Shi-Yuan Cheng , David H. Drewry

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Abstract

Small molecule modulators are important tools to study both basic biology and the complex signaling of protein kinases. The cdc2-like kinases (CLK) are a family of four kinases that have garnered recent interest for their involvement in a diverse set of diseases such as neurodegeneration, autoimmunity, and many cancers. Targeted medicinal chemistry around a CLK inhibitor hit identified through screening of a kinase inhibitor set against a large panel of kinases allowed us to identify a potent and selective inhibitor of CLK1, 2, and 4. Here, we present the synthesis, selectivity, and preliminary biological characterization of this compound – SGC-CLK-1 (CAF-170). We further show CLK2 has the highest binding affinity, and high CLK2 expression correlates with a lower IC₅₀ in a screen of multiple cancer cell lines. Finally, we show that SGC-CLK-1 not only reduces serine arginine-rich (SR) protein phosphorylation but also alters SR protein and CLK2 subcellular localization in a reversible way. Therefore, we anticipate that this compound will be a valuable tool for increasing our understanding of CLKs and their targets, SR proteins, at the level of phosphorylation and subcellular localization.

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SGC-CLK-1: cdc2样激酶CLK1, CLK2和CLK4的化学探针

小分子调节剂是研究蛋白激酶的基础生物学和复杂信号传导的重要工具。cdc2样激酶（CLK）是一个由四种激酶组成的家族，最近因其参与神经退行性变、自身免疫和许多癌症等多种疾病而引起人们的兴趣。通过筛选针对大量激酶的激酶抑制剂组，围绕CLK抑制剂命中进行靶向药物化学鉴定，使我们能够鉴定CLK1、2和4的强效和选择性抑制剂。在此，我们介绍了该化合物SGC-CLK-1（CAF-170）的合成、选择性和初步生物学特性。我们进一步显示CLK2具有最高的结合亲和力，并且在多种癌症细胞系的筛选中，高CLK2表达与较低的IC50相关。最后，我们发现SGC-CLK-1不仅降低了富含丝氨酸精氨酸（SR）蛋白的磷酸化，而且以可逆的方式改变了SR蛋白和CLK2的亚细胞定位。因此，我们预计该化合物将是一种有价值的工具，有助于我们在磷酸化和亚细胞定位水平上加深对CLK及其靶标SR蛋白的理解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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