A multifunctional cross-validation high-throughput screening protocol enabling the discovery of new SHP2 inhibitors

Song, Yihui; Zhao, Min; Wu, Yahong; Liu, Hong‐Min

doi:10.1016/j.apsb.2020.10.021

Cited by 26 publications

(20 citation statements)

References 38 publications

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“…Overall, the emergence of a reversed allosteric communication strategy, combined with a comprehensive allosteric database (available online at ) and advanced structural prediction approaches, is expected to accelerate the end-to-end methodology trend of allosteric drug design. − The reversed allosteric communication strategy opens up a formidable methodology for allosteric drug design and drug resistance treatment and further implies the mystical regulation of multisite communication. In conclusion, the reversed allosteric communication theory provides a novel strategy for both academia and industry to identify potential allosteric sites for the discovery of allosteric modulators.…”

Section: Concluding Remarks and Future Perspectivesmentioning

confidence: 99%

Harnessing Reversed Allosteric Communication: A Novel Strategy for Allosteric Drug Discovery

et al. 2021

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Allostery is a fundamental and extensive mechanism of intramolecular signal transmission. Allosteric drugs possess several unique pharmacological advantages over traditional orthosteric drugs, including greater selectivity, better physicochemical properties, and lower off-target toxicity. However, owing to the complexity of allosteric regulation, experimental approaches for the development of allosteric modulators are traditionally serendipitous. Recently, the reversed allosteric communication theory has been proposed, providing a feasible tool for the unbiased detection of allosteric sites. Herein, we review the latest research on the reversed allosteric communication effect using the examples of sirtuin 6, epidermal growth factor receptor, 3-phosphoinositide-dependent protein kinase 1, and Related to A and C kinases (RAC) serine/threonine protein kinase B and recapitulate the methodologies of reversed allosteric communication strategy. The novel reversed allosteric communication strategy greatly expands the horizon of allosteric site identification and allosteric mechanism exploration and is expected to accelerate an end-to-end framework for drug discovery.

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Section: Concluding Remarks and Future Perspectivesmentioning

confidence: 99%

Harnessing Reversed Allosteric Communication: A Novel Strategy for Allosteric Drug Discovery

et al. 2021

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“…Since the first allosteric inhibitor SHP099 was reported in 2016, several effective SHP2 inhibitors have been identified ( Chen et al., 2016 ). The allosteric mechanism “molecular glue” targeting SHP2 inhibitors has aroused special interest in this long-sought goal ( LaMarche et al., 2020 ; Nichols et al., 2018 ; Song et al., 2021a ; Xie et al., 2017 ). (3) PROTAC degrader of SHP2 protein.…”

Section: Discussionmentioning

confidence: 99%

SHP2 allosteric inhibitor TK-453 alleviates psoriasis-like skin inflammation in mice via inhibition of IL-23/Th17 axis

Wang¹,

Li²,

Tang³

et al. 2022

iScience

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“…Src homology‐2‐containing protein tyrosine phosphatase 2 (SHP2), a member of protein tyrosine phosphatases (PTPs) family, is a dephosphorylase encoded by PTPN11 . Located at downstream of several receptor tyrosine kinases (RTKs) in the membrane, SHP2 acts as a convergent node to provide crosstalk for several signaling pathways, including PI3K‐AKT‐mTOR, Ras‐Raf‐MEK‐ERK, JAK‐STAT, and PD‐1/PD L‐1 pathways 1 . Under physiological or pathogenic conditions, SHP2 undergoes dynamic transition between closed and open conformations, causing structural reorganization and phosphatase activity alternation with different degrees 2 .…”

Section: Introductionmentioning

confidence: 99%

Crystallographic landscape of SHP2 provides molecular insights for SHP2 targeted drug discovery

Song

Yang

Wang

et al. 2022

Medicinal Research Reviews

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The protein tyrosine phosphatase SHP2 encoded by PTPN11 is a promising therapeutic target for cancer therapy. The dynamic change of SHP2 between closed and open conformations under either physiological or pathological conditions provides opportunities to design SHP2 inhibitors for treating SHP2-related diseases. To date, several SHP2 allosteric inhibitors have advanced into clinical trials as mono-or combined therapy of cancers. In this review, we provide an overview on the structural landscape of SHP2 under physiological and pathological conditions and also comprehensively analyze the binding models of SHP2/inhibitor complexes. Structural features of SHP2 under pathological conditions and co-crystal structures of SHP2/inhibitor complexes will definitely facilitate structure-guided design of SHP2 inhibitors. Finally, proteolysis targeting chimeric (PROTAC) based SHP2 degraders have shown therapeutic promise for cancer therapy and are also briefly discussed. We hope this review could provide

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A multifunctional cross-validation high-throughput screening protocol enabling the discovery of new SHP2 inhibitors

Cited by 26 publications

References 38 publications

Harnessing Reversed Allosteric Communication: A Novel Strategy for Allosteric Drug Discovery

Harnessing Reversed Allosteric Communication: A Novel Strategy for Allosteric Drug Discovery

SHP2 allosteric inhibitor TK-453 alleviates psoriasis-like skin inflammation in mice via inhibition of IL-23/Th17 axis

Crystallographic landscape of SHP2 provides molecular insights for SHP2 targeted drug discovery

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