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抑制骨髓微环境中的WNT信号传导可预防MDS小鼠模型中骨髓增生异常综合征的发展。

Inhibition of WNT signaling in the bone marrow niche prevents the development of MDS in the MDS mouse model.

作者信息

Stoddart Angela, Wang Jianghong, Hu Chunmei, Fernald Anthony A, Davis Elizabeth M, Cheng Jason X, Le Beau Michelle M

机构信息

Department of Medicine and.

Department of Pathology, University of Chicago, Chicago, IL; and.

出版信息

Blood. 2017 Jun 1;129(22):2959-2970. doi: 10.1182/blood-2016-08-736454. Epub 2017 Mar 27.

DOI:10.1182/blood-2016-08-736454
PMID:28348148
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5454335/
Abstract

There is accumulating evidence that functional alteration(s) of the bone marrow (BM) microenvironment contribute to the development of some myeloid disorders, such as myelodysplastic syndrome (MDS) and acute myeloid leukemia (AML). In addition to a cell-intrinsic role of WNT activation in leukemia stem cells, WNT activation in the BM niche is also thought to contribute to the pathogenesis of MDS and AML. We previously showed that the -haploinsufficient mice ( ) model MDS induced by an aberrant BM microenvironment. We sought to determine whether Apc, a multifunctional protein and key negative regulator of the canonical β-catenin (Ctnnb1)/WNT-signaling pathway, mediates this disease through modulating WNT signaling, and whether inhibition of WNT signaling prevents the development of MDS in mice. Here, we demonstrate that loss of 1 copy of is sufficient to prevent the development of MDS in mice and that altered canonical WNT signaling in the microenvironment is responsible for the disease. Furthermore, the US Food and Drug Administration (FDA)-approved drug pyrvinium delays and/or inhibits disease in mice, even when it is administered after the presentation of anemia. Other groups have observed increased nuclear CTNNB1 in stromal cells from a high frequency of MDS/AML patients, a finding that together with our results highlights a potential new strategy for treating some myeloid disorders.

摘要

越来越多的证据表明,骨髓(BM)微环境的功能改变会导致一些髓系疾病的发生,如骨髓增生异常综合征(MDS)和急性髓系白血病(AML)。除了WNT激活在白血病干细胞中的细胞内在作用外,BM生态位中的WNT激活也被认为与MDS和AML的发病机制有关。我们之前表明,-单倍体不足小鼠()模型由异常的BM微环境诱导产生MDS。我们试图确定Apc,一种多功能蛋白和经典β-连环蛋白(Ctnnb1)/WNT信号通路的关键负调节因子,是否通过调节WNT信号介导这种疾病,以及抑制WNT信号是否能预防小鼠MDS的发展。在这里,我们证明缺失1个拷贝的足以预防小鼠MDS的发展,并且微环境中改变的经典WNT信号是导致该疾病的原因。此外,美国食品药品监督管理局(FDA)批准的药物吡维铵即使在贫血出现后给药,也能延缓和/或抑制小鼠的疾病。其他研究小组观察到,在高频率的MDS/AML患者的基质细胞中,核CTNNB1增加,这一发现与我们的结果共同凸显了一种治疗某些髓系疾病的潜在新策略。

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