安定素通过哺乳动物雷帕霉素途径调控卵巢透明细胞腺癌中缺氧诱导因子-1α的表达。

ISRN Pharmacology Pub Date : 2013-05-30 Print Date: 2013-01-01 DOI:10.1155/2013/279593
Kazuhiro Tamura, Mikihiro Yoshie, Eri Miyajima, Mika Kano, Eiichi Tachikawa
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引用次数: 15

摘要

Stathmin是一种微管不稳定磷蛋白,在卵巢癌中高度表达,但该蛋白在卵巢癌细胞中的病理生理意义尚不清楚。本研究报道了静息素参与卵巢透明细胞腺癌(CCA)缺氧时mTOR/HIF-1 α /VEGF通路。缺氧培养的CCA细胞系RMG-1细胞HIF-1 α蛋白和VEGF mRNA水平显著升高。mTOR复合物1的抑制剂雷帕霉素降低了HIF-1 α的水平,阻断了mTOR转录调节因子核糖体蛋白S6激酶1 (S6K)的磷酸化,表明缺氧激活了CCA中mTOR/S6K/HIF-1 α信号传导。此外,安定素下调抑制缺氧诱导的HIF-1 α和VEGF表达以及S6K磷酸化。静息素表达的沉默也降低了Akt磷酸化,这是mTOR/HIF-1 α /VEGF信号通路中的一个关键事件。相比之下,安定素过表达上调缺氧诱导的另一种CCA细胞系OVCAR-3细胞中HIF-1 α和VEGF的表达。此外,phosphoinositide 3-kinase (PI3K)抑制剂wortmannin抑制Akt活化可降低HIF-1 α和VEGF的表达。这些结果表明,在CCA中,HIF-1 α通过PI3K/Akt/mTOR通路的调控是由安定素控制的。我们的研究结果指出了一种在卵巢癌期间调节镇静素的新机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Stathmin Regulates Hypoxia-Inducible Factor-1α Expression through the Mammalian Target of Rapamycin Pathway in Ovarian Clear Cell Adenocarcinoma.

Stathmin Regulates Hypoxia-Inducible Factor-1α Expression through the Mammalian Target of Rapamycin Pathway in Ovarian Clear Cell Adenocarcinoma.

Stathmin Regulates Hypoxia-Inducible Factor-1α Expression through the Mammalian Target of Rapamycin Pathway in Ovarian Clear Cell Adenocarcinoma.

Stathmin Regulates Hypoxia-Inducible Factor-1α Expression through the Mammalian Target of Rapamycin Pathway in Ovarian Clear Cell Adenocarcinoma.

Stathmin, a microtubule-destabilizing phosphoprotein, is highly expressed in ovarian cancer, but the pathophysiological significance of this protein in ovarian carcinoma cells remains poorly understood. This study reports the involvement of stathmin in the mTOR/HIF-1 α /VEGF pathway in ovarian clear cell adenocarcinoma (CCA) during hypoxia. HIF-1 α protein and VEGF mRNA levels were markedly elevated in RMG-1 cells, a CCA cell line, cultured under hypoxic conditions. Rapamycin, an inhibitor of mTOR complex 1, reduced the level of HIF-1 α and blocked phosphorylation of ribosomal protein S6 kinase 1 (S6K), a transcriptional regulator of mTOR, demonstrating that hypoxia activates mTOR/S6K/HIF-1 α signaling in CCA. Furthermore, stathmin knockdown inhibited hypoxia-induced HIF-1 α and VEGF expression and S6K phosphorylation. The silencing of stathmin expression also reduced Akt phosphorylation, a critical event in the mTOR/HIF-1 α /VEGF signaling pathway. By contrast, stathmin overexpression upregulated hypoxia-induced HIF-1 α and VEGF expression in OVCAR-3 cells, another CCA cell line. In addition, suppression of Akt activation by wortmannin, a phosphoinositide 3-kinase (PI3K) inhibitor, decreased HIF-1 α and VEGF expression. These results illustrate that regulation of HIF-1 α through the PI3K/Akt/mTOR pathway is controlled by stathmin in CCA. Our findings point to a new mechanism of stathmin regulation during ovarian cancer.

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