Involvement of cardiac glycosides targeting Na/K-ATPase in their inhibitory effects on c-Myc expression via its transcription, translation and proteasomal degradation

癌细胞 癌基因 癌症研究 细胞培养 转录组 生物 细胞 分子生物学 细胞周期 化学 细胞生物学 癌症 基因表达 生物化学 基因 遗传学
作者
Muneshige Tokugawa,Yasumichi Inoue,Hiromasa Aoki,Chiharu Miyajima,Kan’ichiro Ishiuchi,Kento Tsurumi,Chisane Kujirai,Daisuke Morishita,Michiyo Matsuno,Hajime Mizukami,Masaki Ri,Shinsuke Iida,Toshiaki Makino,Mineyoshi Aoyama,Hidetoshi Hayashi
出处
期刊:Journal of Biochemistry [Oxford University Press]
卷期号:175 (3): 253-263 被引量:1
标识
DOI:10.1093/jb/mvad085
摘要

Abstract Cardiac glycosides (CGs) have been used for decades to treat heart failure and arrhythmic diseases. Recent non-clinical and epidemiological findings have suggested that CGs exhibit anti-tumor activities. Therefore, CGs may be repositioned as drugs for the treatment of cancer. A detailed understanding of the anti-cancer mechanisms of CGs is essential for their application to the treatment of targetable cancer types. To elucidate the factors associated with the anti-tumor effects of CGs, we performed transcriptome profiling on human multiple myeloma AMO1 cells treated with periplocin, one of the CGs. Periplocin significantly down-regulated the transcription of MYC (c-Myc), a well-established oncogene. Periplocin also suppressed c-Myc expression at the protein levels. This repression of c-Myc was also observed in several cell lines. To identify target proteins for the inhibition of c-Myc, we generated CG-resistant (C9) cells using a sustained treatment with digoxin. We confirmed that C9 cells acquired resistance to the inhibition of c-Myc expression and cell proliferation by CGs. Moreover, the sequencing of genomic DNA in C9 cells revealed the mutation of D128N in α1-Na/K-ATPase, indicating the target protein. These results suggest that CGs suppress c-Myc expression in cancer cells via α1-Na/K-ATPase, which provides further support for the anti-tumor activities of CGs.
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