通过支架跳跃发现选择性 LATS 抑制剂：增强药物相似性和激酶选择性，从而在再生医学中实现潜在应用。

IF 4.1 4区医学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY RSC medicinal chemistry Pub Date : 2024-09-14 DOI:10.1039/d4md00492b

Guldana Issabayeva, On-Yu Kang, Seong Yun Choi, Ji Young Hyun, Seong Jun Park, Hei-Cheul Jeung, Hwan Jung Lim

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引用次数: 0

摘要

由于 LATS 在细胞增殖和凋亡中的重要作用，通过 LATS 对 Hippo 通路进行精确调控为开发治疗癌症和再生性疾病的新药提供了一个可行的生物靶点。然而，目前可用于选择性和高度类药物抑制 LATS 的探针在活性、选择性和类药物特性方面都需要进一步改进。在对接研究和人工智能辅助预测代谢稳定性的帮助下，我们通过支架跳转成功鉴定出了一种先进的 LATS 抑制剂，它具有强效激酶活性、对其他激酶的特殊选择性以及优异的口服药物动力学特征。

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Discovery of selective LATS inhibitors via scaffold hopping: enhancing drug-likeness and kinase selectivity for potential applications in regenerative medicine.

Due to its essential roles in cell proliferation and apoptosis, the precise regulation of the Hippo pathway through LATS presents a viable biological target for developing new drugs for cancer and regenerative diseases. However, currently available probes for selective and highly drug-like inhibition of LATS require further improvement in terms of both activity, selectivity and drug-like properties. Through scaffold hopping aided by docking studies and AI-assisted prediction of metabolic stabilities, we successfully identified an advanced LATS inhibitor demonstrating potent kinase activity, exceptional selectivity against other kinases, and superior oral pharmacokinetic profiles.

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