Inhibition of Acute Leukemia By a Small Molecule KYA1797K Which Destabilize RAS and β-Catenin

Hahn, Seung Min; Lee, Mi Ra; Han, Jungwoo; Kim, Moon Kyu; Oh, Seung-Hwan; Lyu, Chuhl Joo

doi:10.1182/blood-2019-126374

Cited by 3 publications

(2 citation statements)

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“…KYA1797K enhances β-catenin (and RAS) degradation through binding the RGS domain of axin and enhancing DC activity. It supressed the growth of multiple AML (and ALL) cell lines whilst preventing WNT3A-mediated activation of Wnt signalling through suppression of β-catenin and its target proteins [ 129 ].…”

Section: Targeting β-Catenin In Amlmentioning

confidence: 99%

Targeting β-catenin in acute myeloid leukaemia: past, present, and future perspectives

et al. 2022

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Acute myeloid leukaemia (AML) is an aggressive disease of the bone marrow with a poor prognosis. Evidence suggests long established chemotherapeutic regimens used to treat AML are reaching the limits of their efficacy, necessitating the urgent development of novel targeted therapies. Canonical Wnt signalling is an evolutionary conserved cascade heavily implicated in normal developmental and disease processes in humans. For over 15 years it’s been known that the central mediator of this pathway, β-catenin, is dysregulated in AML promoting the emergence, maintenance, and drug resistance of leukaemia stem cells (LSC). Yet, despite this knowledge, and subsequent studies demonstrating the therapeutic potential of targeting Wnt activity in haematological cancers, β-catenin inhibitors have not yet reached the clinic. The aim of this review is to summarise the current understanding regarding the role and mechanistic dysregulation of β-catenin in AML and assess the therapeutic merit of pharmacologically targeting this molecule, drawing on lessons from other disease contexts.

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Section: Targeting β-Catenin In Amlmentioning

confidence: 99%

Targeting β-catenin in acute myeloid leukaemia: past, present, and future perspectives

et al. 2022

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“…This mechanism is useful to reduce or to avoid drug resistance (notably resistance to anti-EGFR therapeutics like cetuximab and gefitinib) in KRAS-mutated colorectal cancer and in non-small cell lung cancer [39,40]. The process has been evidenced in leukemia also [41,42], and the same mechanism can operate in gastric cancer, triple-negative breast cancer, and pancreatic cancer, reducing resistance to standard chemotherapy (FOLFOX, gemcitabine) [43][44][45]. The compound has been used as a pharmacological tool to block the Wnt/βcatenin pathway in different studies [46][47][48][49].…”

Section: Discussionmentioning

confidence: 99%

A Potential Off-Target Effect of the Wnt/β-Catenin Inhibitor KYA1797K: PD-L1 Binding and Checkpoint Inhibition

et al. 2023

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Introduction: The quest for small molecule inhibitors of the PD-1/PD-L1 checkpoint continues in parallel to the extensive development of monoclonal antibodies directed against this immune checkpoint. Drug screening strategies are being set up to identify novel PD-L1 inhibitors. Methods: A virtual screening based on molecular docking with the PD-L1 protein dimer has been performed to identify a new binder. Binding of the identified ligand to PD-L1 has been validated experimentally using a microscale thermophoresis (MST) assay. The cellular effect of the compound was evidenced using a fluorescence resonance energy transfer (FRET) assay based on activation of tyrosine phosphatase SHP-2. Results: We have identified the potent Wnt/β-catenin inhibitor KYA1797K as a weak PD-L1 binder. Molecular docking suggested that the compound can bind to the interface of a PD-L1 dimer, with a geometry superimposable to that of the reference PD-L1 inhibitor BMS-202. The atypical 2-thioxo-4-thiazolidinone motif of KYA1797K, derived from the natural product rhodanine, plays a major role in the interaction with PD-L1. Binding of KYA1797K to recombinant hPD-L1 was validated experimentally, using MST. The drug was found to bind modestly but effectively to hPD-L1. The FRET assay confirmed the weak capacity of KYA1797K to interfere with the activation of SHP-2 upon its interaction with human PD-1. Discussion: Collectively, the data show that KYA1797K could function as a weak modulator of the PD-1/PD-L1 checkpoint. This effect may contribute, at least partially, to the reported capacity of the β-catenin inhibitor to downregulate PD-L1 in cancer cells. The work also underlines the interest to further consider the rhodanine moiety as a chemical motif for the design of new PD-L1 binders.

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Mediating kinase activity in Ras-mutant cancer: potential for an individualised approach?

Healy,

Turner,

Marensi

et al. 2024

Front. Pharmacol.

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It is widely acknowledged that there is a considerable number of oncogenic mutations within the Ras superfamily of small GTPases which are the driving force behind a multitude of cancers. Ras proteins mediate a plethora of kinase pathways, including the MAPK, PI3K, and Ral pathways. Since Ras was considered undruggable until recently, pharmacological targeting of pathways downstream of Ras has been attempted to varying success, though drug resistance has often proven an issue. Nuances between kinase pathway activation in the presence of various Ras mutants are thought to contribute to the resistance, however, the reasoning behind activation of different pathways in different Ras mutational contexts is yet to be fully elucidated. Indeed, such disparities often depend on cancer type and disease progression. However, we are in a revolutionary age of Ras mutant targeted therapy, with direct-targeting KRAS-G12C inhibitors revolutionising the field and achieving FDA-approval in recent years. However, these are only beneficial in a subset of patients. Approximately 90% of Ras-mutant cancers are not KRAS-G12C mutant, and therefore raises the question as to whether other distinct amino acid substitutions within Ras may one day be targetable in a similar manner, and indeed whether better understanding of the downstream pathways these various mutants activate could further improve therapy. Here, we discuss the favouring of kinase pathways across an array of Ras-mutant oncogenic contexts and assess recent advances in pharmacological targeting of various Ras mutants. Ultimately, we will examine the utility of individualised pharmacological approaches to Ras-mediated cancer.

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Inhibition of Acute Leukemia By a Small Molecule KYA1797K Which Destabilize RAS and β-Catenin

Cited by 3 publications

References 0 publications

Targeting β-catenin in acute myeloid leukaemia: past, present, and future perspectives

Targeting β-catenin in acute myeloid leukaemia: past, present, and future perspectives

A Potential Off-Target Effect of the Wnt/β-Catenin Inhibitor KYA1797K: PD-L1 Binding and Checkpoint Inhibition

Mediating kinase activity in Ras-mutant cancer: potential for an individualised approach?

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