Synthesis and structure-activity relationships of targeted protein degraders for the understudied kinase NEK9

Current research in chemical biology Pub Date : 2021-01-01 DOI:10.1016/j.crchbi.2021.100008

SeongShick Ryu , Gillian E. Gadbois , Andrew J. Tao , Benjamin J. Fram , Jie Jiang , Bridget Boyle , Katherine A. Donovan , Noah M. Krupnick , Bethany C. Berry , Debabrata Bhunia , Injae Shin , Eric S. Fischer , Nathanael S. Gray , Taebo Sim , Fleur M. Ferguson

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引用次数: 3

Abstract

Nek9 is a member of the understudied Nek family of dark kinases. Aberrant activation of Nek9 kinase signaling has been linked to poor keratinocyte differentiation phenotypes, and is a key driver of nevus comedonicus, a rare, localized form of acne. Nek9 also has essential scaffolding roles; during mitosis the non-catalytic C-terminal domain of Nek9 binds to Nek6 and Nek7, releasing them from an auto-inhibitory conformation, and enabling proper mitotic progression. Finally, Nek9 expression has been linked to cancer proliferation. SiRNA mediated Nek9 knock-down in a panel of cancer cell lines induces G1 cell cycle arrest and inhibits proliferation when p53 is also inactivated; cell lines with functional p53 are unaffected. Presently, no selective small molecule Nek9 chemical probes are available, though a subset of promiscuous kinase inhibitors have Nek9 activity. Recently described targeted protein degradation approaches have shown that degrader molecules based on multi-targeted kinase inhibitors may effect selective kinase degradation, despite binding to many targets. In this study we report the identification and SAR of potent degraders of the NEK9 kinase that represent attractive leads for further development. Future work is needed to optimize the selectivity of the compounds.

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NEK9激酶靶向蛋白降解物的合成及构效关系研究

Nek9是未被充分研究的Nek暗激酶家族的一员。Nek9激酶信号的异常激活与角质细胞分化不良表型有关，并且是粉刺痣(一种罕见的局部痤疮)的关键驱动因素。Nek9还具有基本的脚手架角色;在有丝分裂过程中，Nek9的非催化性c端结构域与Nek6和Nek7结合，将它们从自抑制构象中释放出来，并使有丝分裂正常进行。最后，Nek9的表达与癌症增殖有关。在一组癌细胞系中，SiRNA介导的Nek9敲低诱导G1细胞周期阻滞并抑制p53失活时的增殖;具有功能性p53的细胞系不受影响。目前，没有选择性的小分子Nek9化学探针可用，尽管混杂激酶抑制剂的一个子集具有Nek9活性。最近描述的靶向蛋白降解方法表明，基于多靶向激酶抑制剂的降解分子可能影响选择性激酶降解，尽管与许多靶标结合。在这项研究中，我们报告了NEK9激酶的有效降解物的鉴定和合成孔径(SAR)，这些降解物代表了进一步开发的有吸引力的线索。需要进一步优化化合物的选择性。

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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来源期刊

Current research in chemical biology Biochemistry, Genetics and Molecular Biology (General)

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56 days