TY - JOUR
T1 - Induction of N-Ras degradation by flunarizine-mediated autophagy
AU - Zheng, Ze Yi
AU - Li, Jing
AU - Li, Fuhai
AU - Zhu, Yanqiao
AU - Cui, Kemi
AU - Wong, Stephen T.
AU - Chang, Eric C.
AU - Liao, Yi Hua
N1 - Funding Information:
We thank Angela Chen at Houston Methodist Research Institute for technical assistance, and Gary Chamness for editing the manuscript. This project was assisted by a P30 Cancer Center Support Grant from NCI (P30CA125123). ECC was supported by The Susan G. Komen Foundation (SAC150059), DOD (W81XWH-16-1-0538), Nancy Owen Memorial Foundation, NIH (R21CA185516, R21CA226567, and P50CA186784), and Cancer Prevention and Research Institute of Texas (CPRIT, RP180844). We are particularly grateful for the support from the William and Ella Owens Foundation. YHL was supported by Ministry of Science and Technology (MOST) of the Republic of China under Grant No. MOST 103-2314-B-002-067-MY3 (Y-H. Liao).
Publisher Copyright:
© 2018, The Author(s).
PY - 2018/12/1
Y1 - 2018/12/1
N2 - Ras GTPases are powerful drivers for tumorigenesis, but directly targeting Ras for treating cancer remains challenging. The growth and transforming activity of the aggressive basal-like breast cancer (BLBC) are driven by N-Ras. To target N-Ras in BLBC, this study screened existing pharmacologically active compounds for the new ability to induce N-Ras degradation, which led to the identification of flunarizine (FLN), previously approved for treating migraine and epilepsy. The FLN-induced N-Ras degradation was not affected by a 26S-proteasome inhibitor. Rather, it was blocked by autophagy inhibitors. Furthermore, N-Ras can be seen co-localized with active autophagosomes upon FLN treatment, suggesting that FLN alters the autophagy pathway to degrade N-Ras. Importantly, FLN treatment recapitulated the effect of N-RAS silencing in vitro by selectively inhibiting the growth of BLBC cells, but not that of breast cancer cells of other subtypes. In addition, in vivo FLN inhibited tumor growth of a BLBC xenograft model. In conclusion, this proof-of-principle study presents evidence that the autophagy pathway can be coerced by small molecule inhibitors, such as FLN, to degrade Ras as a strategy to treat cancer. FLN has low toxicity and should be further investigated to enrich the toolbox of cancer therapeutics.
AB - Ras GTPases are powerful drivers for tumorigenesis, but directly targeting Ras for treating cancer remains challenging. The growth and transforming activity of the aggressive basal-like breast cancer (BLBC) are driven by N-Ras. To target N-Ras in BLBC, this study screened existing pharmacologically active compounds for the new ability to induce N-Ras degradation, which led to the identification of flunarizine (FLN), previously approved for treating migraine and epilepsy. The FLN-induced N-Ras degradation was not affected by a 26S-proteasome inhibitor. Rather, it was blocked by autophagy inhibitors. Furthermore, N-Ras can be seen co-localized with active autophagosomes upon FLN treatment, suggesting that FLN alters the autophagy pathway to degrade N-Ras. Importantly, FLN treatment recapitulated the effect of N-RAS silencing in vitro by selectively inhibiting the growth of BLBC cells, but not that of breast cancer cells of other subtypes. In addition, in vivo FLN inhibited tumor growth of a BLBC xenograft model. In conclusion, this proof-of-principle study presents evidence that the autophagy pathway can be coerced by small molecule inhibitors, such as FLN, to degrade Ras as a strategy to treat cancer. FLN has low toxicity and should be further investigated to enrich the toolbox of cancer therapeutics.
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U2 - 10.1038/s41598-018-35237-2
DO - 10.1038/s41598-018-35237-2
M3 - Article
C2 - 30446677
AN - SCOPUS:85056738551
SN - 2045-2322
VL - 8
JO - Scientific Reports
JF - Scientific Reports
IS - 1
M1 - 16932
ER -