HDAC7 promotes ovarian cancer malignancy via AKT/mTOR signalling pathway

Qi Feng, Sheng Hao, Xiongxiu Liu, Zhong Yan, Kai Sheng, Yanping Li, Peng Zhang, Xiugui Sheng
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Abstract

Ovarian cancer is of the most lethal malignancy and causes serious threat to women health worldwide. A deep understanding of molecular mechanisms underlying ovarian cancer progression is critical for the development of promising therapeutic strategies. In this study, we aimed to employ immunohistochemistry to determine the protein level of HDAC7 in patient tissues, our data showed HDAC7 levels are upregulated in tumour tissues. In addition, we also performed Kaplan–Meier survival analysis to investigate the association between HDAC7 expression and clinical prognosis, and found that HDAC7 expression was associated with poor prognosis in ovarian cancer patients. Inhibition of HDAC7 cells resulted in lower cell proliferation, invasion and colony formation. Furthermore, we also found that HDAC7 inhibition suppressed PI3K/AKT/mTOR pathway. In contrast, exogenous HDAC7 expression activated the PI3K/AKT/mTOR pathway in HDAC7 knockout cells and rescued the cell proliferation, invasion and colony formation. However, inhibition of p-AKT induced lower cell proliferation, metastasis and colony formation abilities. In murine model, HDAC7 KO significantly decreased the tumour burden. These data indicate that HDAC7 is involved in regulation of PI3K/AKT/mTOR pathway and targeting of HDAC7 could be potential therapeutic strategy in the treatment of ovarian cancer.

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HDAC7 通过 AKT/mTOR 信号通路促进卵巢癌的恶性发展。
卵巢癌是最致命的恶性肿瘤之一,严重威胁着全世界妇女的健康。深入了解卵巢癌进展的分子机制对于制定有前景的治疗策略至关重要。在本研究中,我们采用免疫组化方法检测了患者组织中 HDAC7 的蛋白水平。此外,我们还进行了 Kaplan-Meier 生存分析,研究 HDAC7 表达与临床预后的关系,结果发现 HDAC7 的表达与卵巢癌患者的不良预后有关。抑制 HDAC7 细胞可降低细胞增殖、侵袭和集落形成。此外,我们还发现抑制 HDAC7 可抑制 PI3K/AKT/mTOR 通路。相反,在 HDAC7 基因敲除的细胞中,外源 HDAC7 表达激活了 PI3K/AKT/mTOR 通路,并挽救了细胞增殖、侵袭和集落形成。然而,抑制 p-AKT 会降低细胞的增殖、转移和集落形成能力。在小鼠模型中,HDAC7 KO 能显著减少肿瘤负荷。这些数据表明,HDAC7参与了PI3K/AKT/mTOR通路的调控,靶向HDAC7可能是治疗卵巢癌的潜在治疗策略。
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期刊介绍: The Journal of Cellular and Molecular Medicine serves as a bridge between physiology and cellular medicine, as well as molecular biology and molecular therapeutics. With a 20-year history, the journal adopts an interdisciplinary approach to showcase innovative discoveries. It publishes research aimed at advancing the collective understanding of the cellular and molecular mechanisms underlying diseases. The journal emphasizes translational studies that translate this knowledge into therapeutic strategies. Being fully open access, the journal is accessible to all readers.
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