醛缩酶A
癌症研究
肺癌
生物
转移
组织微阵列
HIF1A型
瓦博格效应
MMP9公司
果糖二磷酸醛缩酶
癌细胞
血管生成
医学
癌症
下调和上调
病理
酶
基因
生物化学
遗传学
作者
Yu‐Chan Chang,Yung-Chieh Chan,Wei‐Min Chang,Yuan‐Feng Lin,Chih‐Jen Yang,Chia‐Yi Su,Ming-Shyan Huang,Alexander T.H. Wu,Michael Hsiao
出处
期刊:Cancer Letters
[Elsevier BV]
日期:2017-06-11
卷期号:403: 28-36
被引量:126
标识
DOI:10.1016/j.canlet.2017.06.001
摘要
Distant metastasis and recurrence are the greatest challenges in the clinical management of lung cancer. Despite advances in targeted therapies, high mortality rates persist. Therefore, alternative therapeutic interventions are urgently required. Accumulating evidence indicates that normalizing tumor metabolism may be a way to increase therapeutic efficacy and to reduce tumor malignancy. Here, we analyzed integrated transcriptomics data and an shRNA library against glycolytic enzymes and found that elevated Aldolase A expression is highly correlated with metastatic potential and a poor prognosis in patients with non-small cell lung cancer (NSCLC). We validated our in silico findings with an immunohistochemical analysis of clinical samples. Aldolase A silencing significantly suppressed metastatic potential both in vitro and in vivo, whereas the ectopic overexpression of Aldolase A resulted in the opposite phenotype. Furthermore, our microarray and Ingenuity Pathway Analyses (IPA) revealed that Aldolase A-driven lung cancer metastasis was closely linked to hypoxia inducible factor 1 alpha (HIF-1α)-downstream signaling. Importantly, Aldolase A overexpression may promote the release of lactate to block PHD activities and further induce HIF-1α stabilization. Aldolase A and nuclear HIF-1α overexpression levels were positively correlated and were significantly associated with a poorer survival rate in lung cancer patients (P = 0.008 for Overall Survival, P = 0.021 for Disease-free Survival). Furthermore, MMP9, a downstream target of HIF-1α, was significantly upregulated after ALDOA overexpression. A MMP9 inhibitor significantly inhibited cell invasion and migration in ALDOA-HIF-1α axis-induced lung cancer. In summary, our results reveal the molecular mechanism of Aldolase A in promoting lung cancer metastasis via PHD-mediated stabilization of HIF-1α and the subsequent activation of MMP9. The ALDOA-HIF-1α axis may provide a new therapeutic target for metastatic lung cancer treatment.
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