期刊
BRITISH JOURNAL OF CANCER
卷 119, 期 1, 页码 52-64出版社
NATURE PUBLISHING GROUP
DOI: 10.1038/s41416-018-0137-3
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资金
- NIH [NCI 1R03CA202427-01]
- NATIONAL CANCER INSTITUTE [R03CA202427, R03CA198630] Funding Source: NIH RePORTER
BACKGROUND: Redox deregulations are ubiquitous in cancer cells. However, the role of mitochondrial redox deregulation in metastasis remains unclear. In breast cancer, upregulation of mitochondrial antiapoptotic protein G1P3 (IFI6) was associated with poor distance metastasis-free survival (DMFS). Therefore, we tested the hypothesis that G1P3-induced mitochondrial redox deregulation confers metastatic potentials in breast cancer cells. METHODS: Cell migration and invasion assays; confocal and immunofluorescence microscopy; and Illumina HumanHT-12 BeadChip to assess gene expression. RESULTS: Consequent to its localisation on inner-mitochondrial membrane, mtROS were higher in G1P3-expressing cells (MCF-7(G1P3)). G1P3-overexpressing cells migrated and invaded faster than the vector controls with increased number of filopodia and F-actin bundles (p <= 0.05). mtROS suppression with H2O2 scavengers and mitochondrial-specific antioxidants significantly decreased migratory structures and reversed G1P3-induced migration and invasion (p <= 0.05). Knocking down G1P3 decreased both migration and migratory structures in MCF-(7G1P3) cells. Moreover, gene networks involved in redox regulation, metastasis and actin remodelling were upregulated in MCF-7(G1P3) cells. CONCLUSIONS: G1P3-induced mtROS have a direct role in migratory structure formation and nuclear gene expression to promote breast cancer cell metastasis. Therefore, interrupting mitochondrial functions of G1P3 may improve clinical outcomes in breast cancer patients.
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