The antitumor effects of WNT5A against hematological malignancies.

IF 3.6 3区 生物学 Q3 CELL BIOLOGY
Maura Lima Pereira Bueno, Sara Teresinha Olalla Saad, Fernanda Marconi Roversi
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引用次数: 0

Abstract

The bone marrow (BM) microenvironment (niche) is abnormally altered in acute myeloid leukemia (AML), leading to deficient secretion of proteins, soluble factors, and cytokines by mesenchymal stromal cells (MSC) that modifies the crosstalk between MSC and hematopoietic cells. We focused on a WNT gene/protein family member, WNT5A, which is downregulated in leukemia and correlated with disease progression and poor prognosis. We demonstrated that WNT5A protein upregulated the WNT non-canonical pathway only in leukemic cells, without modulating normal cell behavior. We also introduced a novel WNT5A-mimicking compound, Foxy-5. Our results showed reduction of crucial biological functions that are upregulated in leukemia cells, including ROS generation, cell proliferation, and autophagy, as well as G0/G1 cell cycle arrest. Additionally, Foxy-5 induced early-stage macrophage cell differentiation, a crucial process during leukemia development. At a molecular level, Foxy-5 led to the downregulation of two overexpressed leukemia pathways, PI3K and MAPK, which resulted in a disarrangement of actin polymerization with consequent impairment of CXCL12-induced chemotaxis. Notably, in a novel tri-dimensional bone marrow-mimicking model, Foxy-5 led to reduced leukemia cell growth and similar results were observed in a xenograft in vivo model. Overall, our findings highlight the pivotal role of WNT5A in leukemia and demonstrate that Foxy-5 acts as a specific antineoplastic agent in leukemia, counterbalancing several leukemic oncogenic processes related to the crosstalk in the bone marrow niche, and represents a promising therapeutic option for AML. WNT5A, a WNT gene/protein family member, is naturally secreted by mesenchymal stromal cells and contributes to the maintenance of the bone marrow microenvironment. WNT5A downregulation is correlated with disease progression and poor prognosis. The treatment with Foxy-5, a WNT5A mimetizing compound, counterbalanced several leukemogenic processes that are upregulated in leukemia cells, including ROS generation, cell proliferation, and autophagy and disruption of PI3K and MAPK signaling pathways.

Abstract Image

WNT5A 对血液恶性肿瘤的抗肿瘤作用。
急性髓性白血病(AML)的骨髓(BM)微环境(niche)发生了异常改变,导致间充质基质细胞(MSC)分泌的蛋白质、可溶性因子和细胞因子不足,从而改变了间充质基质细胞和造血细胞之间的串联。我们重点研究了 WNT 基因/蛋白家族成员 WNT5A,它在白血病中被下调,并与疾病进展和不良预后相关。我们证实,WNT5A 蛋白只在白血病细胞中上调 WNT 非经典通路,而不调节正常细胞的行为。我们还引入了一种新型 WNT5A 模拟化合物 Foxy-5。我们的研究结果表明,白血病细胞中上调的关键生物功能(包括 ROS 生成、细胞增殖和自噬)以及 G0/G1 细胞周期停滞均有所降低。此外,Foxy-5 还能诱导早期巨噬细胞分化,这是白血病发展过程中的一个关键过程。在分子水平上,Foxy-5 导致两种过度表达的白血病通路(PI3K 和 MAPK)下调,从而导致肌动蛋白聚合紊乱,进而损害 CXCL12 诱导的趋化作用。值得注意的是,在新型三维骨髓模拟模型中,Foxy-5 可减少白血病细胞的生长,在异种移植体内模型中也观察到了类似的结果。总之,我们的研究结果突显了 WNT5A 在白血病中的关键作用,并证明 Foxy-5 可作为白血病中的特异性抗肿瘤药物,抵消与骨髓生态位中的串扰有关的几个白血病致癌过程,是治疗急性髓细胞白血病的一种很有前景的选择。WNT5A是一种WNT基因/蛋白家族成员,由间质基质细胞天然分泌,有助于维持骨髓微环境。WNT5A 下调与疾病进展和预后不良有关。Foxy-5是一种WNT5A模拟化合物,它能抵消白血病细胞中上调的几种致白血病过程,包括ROS生成、细胞增殖、自噬以及PI3K和MAPK信号通路的破坏。
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来源期刊
CiteScore
6.40
自引率
4.90%
发文量
40
期刊介绍: The Journal of Cell Communication and Signaling provides a forum for fundamental and translational research. In particular, it publishes papers discussing intercellular and intracellular signaling pathways that are particularly important to understand how cells interact with each other and with the surrounding environment, and how cellular behavior contributes to pathological states. JCCS encourages the submission of research manuscripts, timely reviews and short commentaries discussing recent publications, key developments and controversies. Research manuscripts can be published under two different sections : In the Pathology and Translational Research Section (Section Editor Andrew Leask) , manuscripts report original research dealing with celllular aspects of normal and pathological signaling and communication, with a particular interest in translational research. In the Molecular Signaling Section (Section Editor Satoshi Kubota) manuscripts report original signaling research performed at molecular levels with a particular interest in the functions of intracellular and membrane components involved in cell signaling.
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