IRF2BP2 drives lymphatic metastasis in OSCC cells by elevating mitochondrial fission‐dependent fatty acid oxidation

生物 线粒体分裂 癌症研究 裂变 淋巴系统 线粒体 脂肪酸 转移 β氧化 细胞生物学 遗传学 癌症 免疫学 生物化学 物理 量子力学 中子
作者
Xin Pang,Tianjiao Li,Rong-jia Shi,Zixin Wan,Yue‐Yang Tang,Yue‐Yang Tang,Ya‐ling Tang,Ya‐ling Tang,Xin‐hua Liang
出处
期刊:Molecular Carcinogenesis [Wiley]
卷期号:63 (1): 45-60 被引量:6
标识
DOI:10.1002/mc.23635
摘要

Abstract Lymph node metastasis (LNM) is a major determinant for the poor outcome of oral squamous cell carcinoma (OSCC). Interferon regulatory factor 2 binding protein 2 (IRF2BP2) has been reported to modulate the development and progression of several types of cancers, while its role in OSCC with LNM has not been reported yet. The expression of IRF2BP2 and its association with LNM were evaluated by immunohistochemistry and qualitative reverse transcription polymerase chain reaction in clinically collected OSCC tissues. Then, loss‐of‐function and rescue assays were conducted to identify the role of IRF2BP2‐mediated fatty acid oxidation (FAO) in the invasion, lymphoinvasion, and epithelial–mesenchymal transition (EMT) in OSCC cells. Importantly, confocal microscope, transmission electron microscope, immunofluorescence, and Western blot were applied to identify the involvement of mitochondrial fission in IRF2BP2‐regulated FAO. Lastly, the in vivo models were established to evaluate the role of IRF2BP2 in OSCC. IRF2BP2 overexpression has been associated with LNM in OSCC, whose knockdown inhibited invasion, lymphoinvasion, and EMT of OSCC cells, as well as retarded FAO rate with CPT1A downregulation. And CPT1A overexpression rescued invasion, lymphoinvasion, and induced EMT in IRF2BP2‐silenced OSCC cells. Mechanically, IRF2BP2 accelerated mitochondrial fission by contributing to Drp1 S616 phosphorylation and mitochondrial localization, resulting in the upregulation of CPT1A. In addition, IRF2BP2 knockdown significantly inhibited tumor growth and LNM in vivo. The highly expressed IRF2BP2 may induce the phosphorylation and mitochondrial translocation of Drp1 to activate mitochondrial fission, which upregulated CPT1A expression and FAO rate, resulting in LNM in OSCC. This highlighted a potential therapeutic vulnerability for the treatment of LNM + OSCC via targeting IRF2BP2‐FAO.
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