Abstract

KIFC1 exerts an important function in centrosome aggregation in breast cancer (BC) cells and a variety of other cancer cells, but its potential mechanisms in BC pathogenesis are yet fully elucidated. The aim of this study was to investigate the effects of KIFC1 on BC progression and its underlying mechanisms. Expression of ELK1 and KIFC1 in BC was analyzed by The Cancer Genome Atlas database and quantitative real-time polymerase chain reaction. Cell proliferative capacity was examined by CCK-8 and colony formation assays, respectively. Glutathione (GSH)/glutathione disulfide (GSSG) ratio and GSH level were measured using the kit. Expression of GSH metabolism-related enzymes (G6PD, GCLM, and GCLC) was detected by western blot. Intracellular reactive oxygen species (ROS) levels were measured by the ROS Assay Kit. The transcription factor ELK1 upstream of KIFC1 was identified by hTFtarget, KnockTFv2 database and Pearson correlation. Their interaction was validated by dual-luciferase reporter assay and chromatin immunoprecipitation. This study demonstrated the upregulation of ELK1 and KIFC1 in BC and found that ELK1 could bind to the KIFC1 promoter to promote KIFC1 transcription. KIFC1 overexpression increased cell proliferation and intracellular GSH levels, while decreasing intracellular ROS levels. The addition of the GSH metabolism inhibitor BSO attenuated the promotion of BC cell proliferation induced by KIFC1 overexpression. In addition, KIFC1 overexpression reversed the inhibitory effect of knockdown of ELK1 on BC cell proliferation. ELK1 was a transcriptional factor of KIFC1. ELK1/KIFC1 axis reduced ROS level by increasing GSH synthesis, thus facilitating BC cell proliferation. Current observations suggest that ELK1/ KIFC1 may be a potential therapeutic target for BC treatment.

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