Targeting ubiquitin-independent proteasome with small molecule increases susceptibility in pan-KRAS–mutant cancer models
Shihui Shen, … , Lei Li, Huaiyu Yang
Shihui Shen, … , Lei Li, Huaiyu Yang
Published March 17, 2025
Citation Information: J Clin Invest. 2025;135(6):e185278. https://doi.org/10.1172/JCI185278.
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Research Article Oncology

Targeting ubiquitin-independent proteasome with small molecule increases susceptibility in pan-KRAS–mutant cancer models

Abstract

Despite advances in the development of direct KRAS inhibitors, KRAS-mutant cancers continue to exhibit resistance to the currently available therapies. Here, we identified REGγ as a mutant KRAS–associated factor that enhanced REGγ transcription through the KRAS intermediate NRF2, suggesting that the REGγ-proteasome is a potential target for pan-KRAS inhibitor development. We elucidated a mechanism involving the KRAS/NRF2/REGγ regulatory axis, which links activated KRAS to the ATP- and ubiquitin-independent proteasome. We subsequently developed RLY01, a REGγ-proteasome inhibitor that effectively suppressed tumor growth in KRAS-mutant cancer models and lung cancer organoids. Notably, the combination of RLY01 and the KRASG12C inhibitor AMG510 exhibited enhanced antitumor efficacy in KRASG12C cancer cells. Collectively, our data support the hypothesis that KRAS mutations enhance the capacity of the REGγ-proteasome by increasing REGγ expression, highlighting the potential of ubiquitin-independent proteasome inhibition as a therapeutic approach for pan-KRAS–mutant cancers.

Authors

Shihui Shen, Qiansen Zhang, Yuhan Wang, Hui Chen, Shuangming Gong, Yun Liu, Conghao Gai, Hansen Chen, Enhao Zhu, Bo Yang, Lin Liu, Siyuan Cao, Mengting Zhao, Wenjie Ren, Mengjuan Li, Zhuoya Peng, Lu Zhang, Shaoying Zhang, Juwen Shen, Bianhong Zhang, Patrick K.H. Lee, Kun Li, Lei Li, Huaiyu Yang

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Figure 5

RLY01 blocks REGγ-20S proteasome degradation functions in a REGγ-dependent manner.

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RLY01 blocks REGγ-20S proteasome degradation functions in a REGγ-depende...
(A) Pathway enrichment in HCT8-KRASG13D cells after DMSO or RLY01 (10 μM) treatment in proteomic profiling. (B) RLY01 treatment for 12 hours promotes accumulation of the REGγ-proteasome substrates Lats1, IκBε, p21, and p16 in HCT15 and SW620 cells. MG132 (5 μM) is a positive control. β-Actin is a control for protein loading. Representative blots are shown from 3 independent experiments. (C) RLY01 promotes accumulation of the REGγ targets Lats1, IκBε, p21, and p16 in a REGγ-dependent manner in HCT116 cells rather than HCT116-KO cells. MG132 (5 μM) is a positive control. β-Actin is a control for protein loading. Representative blots are shown from 3 independent experiments. (D) HCT116 cells were treated with RLY01 (5 μM) for 8 hours, and then ubiquitination levels were detected. (E) HCT116 cells were treated with RLY01 (5 μM) for 8 hours, then lysed with IP lysis/wash buffer with protease inhibitor and phosphatase inhibitor. p21 was immunoprecipitated with an anti-p21 antibody, and the immune precipitates were probed with anti-ubiquitin, anti-p21, and anti–β-actin antibodies. (F) Inhibitory effects of RLY01 on HCT116 isogenic cell lines. (G) IC50 of RLY01 in various cancer cells is negatively correlated with REGγ expression.