FoxO 转录因子促进 AKT Ser473 磷酸化，并响应 PI3K-AKT 通路的药理学抑制促进肾肿瘤生长。

FoxO transcription factors promote AKT Ser473 phosphorylation and renal tumor growth in response to pharmacologic inhibition of the PI3K-AKT pathway.

机构信息

Authors' Affiliations: Departments of Experimental Radiation Oncology and Molecular and Cellular Oncology, the University of Texas MD Anderson Cancer Center; and Program of Cancer Biology, the University of Texas Graduate School of Biomedical Sciences, Houston, Texas.

出版信息

Cancer Res. 2014 Mar 15;74(6):1682-93. doi: 10.1158/0008-5472.CAN-13-1729. Epub 2014 Jan 21.

DOI:10.1158/0008-5472.CAN-13-1729

PMID:24448243

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4087030/

Abstract

The PI3K-AKT pathway is hyperactivated in many human cancers, and several drugs to inhibit this pathway, including the PI3K/mTOR dual inhibitor NVP-BEZ235, are currently being tested in various preclinical and clinical trials. It has been shown that pharmacologic inhibition of the PI3K-AKT pathway results in feedback activation of other oncogenic signaling pathways, which likely will limit the clinical utilization of these inhibitors in cancer treatment. However, the underlying mechanisms of such feedback regulation remain incompletely understood. The PI3K-AKT pathway is a validated therapeutic target in renal cell carcinoma (RCC). Here, we show that FoxO transcription factors serve to promote AKT phosphorylation at Ser473 in response to NVP-BEZ235 treatment in renal cancer cells. Inactivation of FoxO attenuated NVP-BEZ235-induced AKT Ser473 phosphorylation and rendered renal cancer cells more susceptible to NVP-BEZ235-mediated cell growth suppression in vitro and tumor shrinkage in vivo. Mechanistically, we showed that FoxOs upregulated the expression of Rictor, an essential component of MTOR complex 2, in response to NVP-BEZ235 treatment and revealed that Rictor is a key downstream target of FoxOs in NVP-BEZ235-mediated feedback regulation. Finally, we show that FoxOs similarly modulate the feedback response on AKT Ser473 phosphorylation and renal tumor growth by other phosphoinositide 3-kinase (PI3K) or AKT inhibitor treatment. Together, our study reveals a novel mechanism of PI3K-AKT inhibition-mediated feedback regulation and may identify FoxO as a novel biomarker to stratify patients with RCC for PI3K or AKT inhibitor treatment, or a novel therapeutic target to synergize with PI3K-AKT inhibition in RCC treatment.

摘要

PI3K-AKT 通路在许多人类癌症中被过度激活，目前正在各种临床前和临床试验中测试几种抑制该通路的药物，包括 PI3K/mTOR 双重抑制剂 NVP-BEZ235。已经表明，PI3K-AKT 通路的药理学抑制会导致其他致癌信号通路的反馈激活，这可能会限制这些抑制剂在癌症治疗中的临床应用。然而，这种反馈调节的潜在机制仍不完全清楚。PI3K-AKT 通路是肾细胞癌 (RCC) 的一个经过验证的治疗靶点。在这里，我们表明 FoxO 转录因子在肾癌细胞中对 NVP-BEZ235 治疗的 AKT 丝氨酸 473 磷酸化起促进作用。FoxO 的失活减弱了 NVP-BEZ235 诱导的 AKT 丝氨酸 473 磷酸化，并使肾癌细胞对 NVP-BEZ235 介导的体外细胞生长抑制和体内肿瘤缩小更为敏感。从机制上讲，我们表明 FoxO 响应 NVP-BEZ235 处理而上调 Rictor 的表达，Rictor 是 MTOR 复合物 2 的一个重要组成部分，并且揭示了 Rictor 是 FoxO 在 NVP-BEZ235 介导的反馈调节中 AKT 丝氨酸 473 磷酸化的关键下游靶点。最后，我们表明 FoxO 同样调节 AKT 丝氨酸 473 磷酸化和其他磷酸肌醇 3-激酶 (PI3K) 或 AKT 抑制剂治疗的肾肿瘤生长的反馈反应。总之，我们的研究揭示了 PI3K-AKT 抑制介导的反馈调节的新机制，并可能将 FoxO 鉴定为 RCC 患者进行 PI3K 或 AKT 抑制剂治疗的新型生物标志物，或者是与 RCC 治疗中的 PI3K-AKT 抑制协同作用的新型治疗靶点。

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