Targeting SHP2 Cryptic Allosteric Sites for Effective Cancer Therapy

International Journal of Molecular Sciences Pub Date : 2024-06-04 DOI:10.3390/ijms25116201

A. Rehman, Cizhang Zhao, Yongxian Wu, Qiang Zhu, Ray Luo

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Abstract

SHP2, a pivotal component downstream of both receptor and non-receptor tyrosine kinases, has been underscored in the progression of various human cancers and neurodevelopmental disorders. Allosteric inhibitors have been proposed to regulate its autoinhibition. However, oncogenic mutations, such as E76K, convert SHP2 into its open state, wherein the catalytic cleft becomes fully exposed to its ligands. This study elucidates the dynamic properties of SHP2 structures across different states, with a focus on the effects of oncogenic mutation on two known binding sites of allosteric inhibitors. Through extensive modeling and simulations, we further identified an alternative allosteric binding pocket in solution structures. Additional analysis provides insights into the dynamics and stability of the potential site. In addition, multi-tier screening was deployed to identify potential binders targeting the potential site. Our efforts to identify a new allosteric site contribute to community-wide initiatives developing therapies using multiple allosteric inhibitors to target distinct pockets on SHP2, in the hope of potentially inhibiting or slowing tumor growth associated with SHP2.

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靶向 SHP2 隐性异构位点，实现有效的癌症疗法

SHP2是受体和非受体酪氨酸激酶下游的一个关键组成部分，在各种人类癌症和神经发育障碍的进展过程中发挥着重要作用。有人提出用异位抑制剂来调节其自身抑制作用。然而，致癌突变（如 E76K）会使 SHP2 转变为开放状态，催化裂隙完全暴露于配体。本研究阐明了 SHP2 结构在不同状态下的动态特性，重点研究了致癌突变对异位抑制剂两个已知结合位点的影响。通过广泛的建模和模拟，我们进一步确定了溶液结构中的另一个异生抑制剂结合口袋。通过进一步分析，我们深入了解了潜在结合位点的动态和稳定性。此外，我们还进行了多层筛选，以确定针对潜在位点的潜在结合剂。我们为确定新的异生作用位点所做的努力有助于全社会利用多种异生作用抑制剂开发针对 SHP2 上不同口袋的疗法，从而有望抑制或减缓与 SHP2 相关的肿瘤生长。

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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International Journal of Molecular Sciences

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