TY - JOUR
T1 - Cap-dependent translation initiation factor, eIF4E, is the target for Ouabain-mediated inhibition of HIF-1α
AU - Cao, Ji
AU - He, Lingjuan
AU - Lin, Guanyu
AU - Hu, Chunqi
AU - Dong, Rong
AU - Zhang, Jun
AU - Zhu, Hong
AU - Hu, Yongzhou
AU - Wagner, Carston R.
AU - He, Qiaojun
AU - Yang, Bo
N1 - Funding Information:
This work was supported by National Natural Science Foundation (No. 81072657 , No. 81273535 and No. 91029745 ); Zhejiang provincial program for the cultivation of high-level innovative health talents.
PY - 2014/5/1
Y1 - 2014/5/1
N2 - Hypoxia-inducible factor 1 (HIF-1), a heterodimeric transcription factor that mediates the adaptation of tumor cells and tissues to the hypoxic microenvironment, has attracted considerable interest as a potential therapeutic target. Recently, HIF-1α has been recognized as the critical target of cardiac glycosides for cancer therapy, but the molecular mechanism of cardiac glycosides' inhibition of HIF-1α is still poorly understood. In the present study, we observed that neither HIF-1α mRNA levels nor HIF-1α protein degradation are affected by Ouabain. However, Ouabain was found to be associated with the regulation of HIF-1α translation. Basing on in silico, in vitro and ex vivo models of translation processing, further studies revealed that eIF4E plays a critical role in the inhibitory effect of Ouabain on HIF-1α protein synthesis, rather than mTORC1, eIF2α signaling or Na+/K+-ATPase inhibition. Mechanistically, Ouabain directly binds eIF4E, disrupts eIF4E/eIF4G association (200 μM, Inhibit rate = 61 ± 3%) but not the eIF4E/mRNA complex formation (200 μM, Inhibit rate = 18 ± 5%) both in vitro and in cells, thereby inhibiting the intracellular cap-dependent translation. The association between Ouabain and eIF4E not only raises the hope of using cardiac glycosides for cancer therapeutics more rational, but also offers a pharmacologic means for developing novel anti-cancer HIF-1α antagonists.
AB - Hypoxia-inducible factor 1 (HIF-1), a heterodimeric transcription factor that mediates the adaptation of tumor cells and tissues to the hypoxic microenvironment, has attracted considerable interest as a potential therapeutic target. Recently, HIF-1α has been recognized as the critical target of cardiac glycosides for cancer therapy, but the molecular mechanism of cardiac glycosides' inhibition of HIF-1α is still poorly understood. In the present study, we observed that neither HIF-1α mRNA levels nor HIF-1α protein degradation are affected by Ouabain. However, Ouabain was found to be associated with the regulation of HIF-1α translation. Basing on in silico, in vitro and ex vivo models of translation processing, further studies revealed that eIF4E plays a critical role in the inhibitory effect of Ouabain on HIF-1α protein synthesis, rather than mTORC1, eIF2α signaling or Na+/K+-ATPase inhibition. Mechanistically, Ouabain directly binds eIF4E, disrupts eIF4E/eIF4G association (200 μM, Inhibit rate = 61 ± 3%) but not the eIF4E/mRNA complex formation (200 μM, Inhibit rate = 18 ± 5%) both in vitro and in cells, thereby inhibiting the intracellular cap-dependent translation. The association between Ouabain and eIF4E not only raises the hope of using cardiac glycosides for cancer therapeutics more rational, but also offers a pharmacologic means for developing novel anti-cancer HIF-1α antagonists.
KW - Cancer therapy
KW - Hypoxia
KW - Hypoxia inducible factor
KW - Translation
KW - eIF4E
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U2 - 10.1016/j.bcp.2013.12.002
DO - 10.1016/j.bcp.2013.12.002
M3 - Article
C2 - 24345331
AN - SCOPUS:84898009372
SN - 0006-2952
VL - 89
SP - 20
EP - 30
JO - Biochemical Pharmacology
JF - Biochemical Pharmacology
IS - 1
ER -
