Beyond FOXO1: AS1842856 inhibits GSK3 to enhance cytotoxic effects in B-ALL.

IF 7.1 1区医学 Q1 HEMATOLOGY

Blood advances Pub Date : 2025-07-22 DOI:10.1182/bloodadvances.2024015560

Franz Ketzer, Ulrike Büttner, Daniel Geist, Anita Kick, Thomas Wirth, Alexey Ushmorov

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引用次数: 0

Abstract

Abstract: Activation of the transcription factor forkhead box O1 (FOXO1) contributes to multiple pathological processes. The FOXO1 inhibitor AS1842856 demonstrated strong therapeutic effects in preclinical models of common diseases such as diabetes and anthracycline-induced heart failure. We have previously identified FOXO1 as a B-cell acute lymphoblastic leukemia (B-ALL) dependency and demonstrated in in vivo B-ALL models that AS1842856 increased the survival of animals and decreased B-ALL tumor load in all critical organ compartments, but most efficiently in the central nervous system. Here, we interrogated the underlying molecular mechanisms by comparison of the transcriptomic effects of AS1842856 and Foxo1 knockout (Foxo1-KO) in a B-ALL mouse model. Despite the significant similarity in sets of regulated genes, we identified glycogen synthase kinase (GSK) 3B inhibition as a signature enriched only in AS1842856-treated cells. Using an in vitro kinase assay and an unbiased kinome screen, we identified AS1842856 as a direct GSK3 inhibitor that ultimately stabilizes CTNNB1. CTNNB1-KO partially protected B-ALL cell lines from the cytotoxic effect of AS1842856. At the same time, using a chemical protein degradation model, we found that FOXO1 indeed contributes to the cytotoxic effect of AS1842856. We conclude that AS1842856 targets 2 B-lymphoid vulnerabilities: GSK3 and FOXO1. The unique mode of action, low toxicity, and ability to penetrate the blood-brain barrier warrant further investigation of the therapeutic potential of AS1842856 in B-ALL.

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Beyond FOXO1: AS1842856抑制GSK3增强B-ALL细胞毒作用。

摘要转录因子叉头盒O1 （FOXO1）的激活参与多种病理过程。FOXO1抑制剂AS1842856在糖尿病和蒽环类药物引起的心力衰竭等常见疾病的临床前模型中显示出强大的治疗效果。我们之前已经确定FOXO1是b细胞急性淋巴细胞白血病（B-ALL）依赖性，并在体内B-ALL模型中证明AS1842856增加了动物的存活率，减少了所有关键器官室的B-ALL肿瘤负荷，但在中枢神经系统中最有效。在这里，我们通过比较AS1842856和Foxo1敲除（Foxo1- ko）在B-ALL小鼠模型中的转录组效应来探究潜在的分子机制。尽管在调控基因组中存在显著的相似性，但我们发现糖原合成酶激酶（GSK） 3B抑制仅在as1842856处理的细胞中富集。通过体外激酶测定和无偏倚kinome筛选，我们确定AS1842856是一种直接的GSK3抑制剂，最终稳定CTNNB1。CTNNB1-KO部分保护B-ALL细胞株免受AS1842856的细胞毒性作用。同时，通过化学蛋白降解模型，我们发现FOXO1确实参与了AS1842856的细胞毒作用。我们得出结论，AS1842856靶向2个b淋巴细胞脆弱性：GSK3和fox01。AS1842856独特的作用方式、低毒性和穿透血脑屏障的能力值得进一步研究其治疗B-ALL的潜力。

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来源期刊

Blood advances Medicine-Hematology

CiteScore

12.70

自引率

2.70%

发文量

840

期刊介绍： Blood Advances, a semimonthly medical journal published by the American Society of Hematology, marks the first addition to the Blood family in 70 years. This peer-reviewed, online-only, open-access journal was launched under the leadership of founding editor-in-chief Robert Negrin, MD, from Stanford University Medical Center in Stanford, CA, with its inaugural issue released on November 29, 2016. Blood Advances serves as an international platform for original articles detailing basic laboratory, translational, and clinical investigations in hematology. The journal comprehensively covers all aspects of hematology, including disorders of leukocytes (both benign and malignant), erythrocytes, platelets, hemostatic mechanisms, vascular biology, immunology, and hematologic oncology. Each article undergoes a rigorous peer-review process, with selection based on the originality of the findings, the high quality of the work presented, and the clarity of the presentation.