AKT 和 PAX3-FKHR 合作抑制肺泡横纹肌肉瘤细胞中的成肌分化阻断。

AKT and PAX3-FKHR cooperation enforces myogenic differentiation blockade in alveolar rhabdomyosarcoma cell.

机构信息

Department of Cell Stress Biology, Roswell Park Cancer Institute, Buffalo, NY, USA.

出版信息

Cell Cycle. 2012 Mar 1;11(5):895-908. doi: 10.4161/cc.11.5.19346.

DOI:10.4161/cc.11.5.19346

PMID:22333587

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3323795/

Abstract

The chimeric PAX3-FKHR transcription factor is present in a majority of alveolar rhabdomyosarcoma (ARMS), an aggressive skeletal muscle cancer of childhood. PAX3-FKHR-mediated aberrant myogenic gene expression resulting in escape from terminal differentiation program is believed to contribute in ARMS development. In skeletal muscle differentiation, activation of AKT pathway leads to myogenic gene activation and terminal differentiation. Here, we report that AKT acts, in part, by modulating PAX3-FKHR transcriptional activity via phosphorylation in the maintenance of the myogenic differentiation blockade in established mouse models of ARMS cells. We observed that low levels of AKT activity are associated with elevated levels of PAX3-FKHR transcriptional activity, and AKT hyperactivation results in PAX3-FKHR phosphorylation coupled with decreased activity once cells are under differentiation-permissible conditions. Subsequent data shows that attenuated AKT activity-associated PAX3-FKHR activity is required to suppress the function of MyoD, a key myogenic regulator of muscle differentiation. Conversely, decreased PAX3-FKHR activity results in the eradication of MyoD expression and subsequent suppression of the myogenic differentiation. Thus, AKT regulation of the PAX3- FKHR suppresses myogenic gene expression in ARMS cells, causing a failure in differentiation. Evidence is presented that provides a novel molecular link between AKT and PAX3-FKHR in maintaining myogenic differentiation blockade in ARMS.

摘要

嵌合 PAX3-FKHR 转录因子存在于大多数肺泡横纹肌肉瘤 (ARMS) 中，这是一种侵袭性的儿童骨骼肌肉癌。PAX3-FKHR 介导的异常肌源性基因表达导致逃避终端分化程序，被认为是 ARMS 发展的原因。在骨骼肌分化中，AKT 途径的激活导致肌源性基因的激活和终端分化。在这里，我们报告 AKT 通过在 ARMS 细胞的建立小鼠模型中磷酸化来部分调节 PAX3-FKHR 转录活性，从而维持肌源性分化阻断。我们观察到 AKT 活性低与 PAX3-FKHR 转录活性升高相关，并且 AKT 过度激活导致 PAX3-FKHR 磷酸化，一旦细胞处于可分化条件下，活性就会降低。随后的数据表明，减弱的 AKT 活性相关的 PAX3-FKHR 活性是抑制肌分化的关键肌调节因子 MyoD 功能所必需的。相反，PAX3-FKHR 活性的降低导致 MyoD 表达的消除，并随后抑制肌分化。因此，AKT 调节 PAX3-FKHR 在 ARMS 细胞中抑制肌源性基因表达，导致分化失败。有证据表明，AKT 和 PAX3-FKHR 之间存在维持 ARMS 中肌源性分化阻断的新的分子联系。

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