Development of small molecule NUDT22 inhibitors for uses in cancer.

Proceedings of The 1st International Electronic Conference on Cancers: Exploiting Cancer Vulnerability by Targeting the DNA Damage Response Pub Date : 2021-01-29 DOI:10.3390/iecc2021-09197

M. Walter, E. Homan, Tobias Koolmeister, I. Almlöf, T. Helleday, P. Herr

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Abstract

Here we present the characterisation of the so far unstudied NUDIX hydrolase family member NUDT22. We previously identified a unique hydrolase activity of NUDT22 towards UDP-glucose from a family-wide biochemical substrate screen. UDP-glucose hydrolysis results in the production of uridine monophosphate (UMP) and glucose 1-phosphate (G-1-P). We furthermore solved the first crystal structure of NUDT22 in complex with its substrate UDP-glucose [1]. Our mechanistic studies reveal increased replication stress in NUDT22 deficient cells which can be rescued by nucleoside supplementation. We therefore propose the discovery of a novel NUDT22-mediated pyrimidine salvage pathway.Increased replication rates resulting in replication stress is a hallmark of cancer cells and NUDT22 gene expression alterations are present in several cancer tissues, which makes it an interesting new target for the development of small molecule inhibitors for uses in cancer.We employed our NUDT22 crystal structure to perform an in silico docking screen on available small molecule libraries to identify starting points for the development of first-in-class NUDT22 inhibitors. Chemically optimised NUDT22 inhibitors are currently being validated in biochemical assays, cellular target engagement assays, and their cellular activity is being assessed in vitro. [1] M. Carter et al., "Human NUDT22 Is a UDP-Glucose/Galactose Hydrolase Exhibiting a Unique Structural Fold," Structure, vol. 26, no. 2, pp. 295-+, Feb 2018, doi: 10.1016/j.str.2018.01.004.

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用于癌症治疗的小分子NUDT22抑制剂的开发。

在这里，我们介绍了迄今为止尚未研究的NUDIX水解酶家族成员NUDT22的特征。我们之前从全家族生化底物筛选中鉴定出NUDT22对udp -葡萄糖的独特水解酶活性。udp -葡萄糖水解产生尿苷单磷酸(UMP)和葡萄糖1-磷酸(G-1-P)。我们进一步解决了NUDT22与底物udp -葡萄糖[1]配合物的第一个晶体结构。我们的机制研究表明，NUDT22缺陷细胞的复制应激增加，可以通过补充核苷来挽救。因此，我们提出发现一种新的nudt22介导的嘧啶回收途径。增加的复制速率导致复制应激是癌细胞的一个标志，NUDT22基因表达改变存在于几种癌症组织中，这使得它成为开发用于癌症的小分子抑制剂的一个有趣的新靶点。我们利用我们的NUDT22晶体结构对可用的小分子文库进行硅对接筛选，以确定开发一流NUDT22抑制剂的起点。化学优化的NUDT22抑制剂目前正在生化分析、细胞靶标接合分析中进行验证，并且正在体外评估其细胞活性。[10] M. Carter等人，“人类NUDT22是一种呈现独特结构折叠的udp -葡萄糖/半乳糖水解酶”，《结构》，第26卷，第2期。2, pp. 295-+， 2018年2月，doi: 10.1016/j.s r.2018.01.004。

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Proceedings of The 1st International Electronic Conference on Cancers: Exploiting Cancer Vulnerability by Targeting the DNA Damage Response

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