1. UBE2O reduces the effectiveness of interferon-α via degradation of IFIT3 in hepatocellular carcinoma
- Author
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Heng Li, Yao Liu, Can Cheng, Yang Wu, Shu-Hang Liang, Liang Wu, Hong Wang, Cong-yin Tu, Han-Hui Yao, Fan-Zheng Meng, Bo Zhang, Wei Wang, Jia-Bei Wang, and Lian-Xin Liu
- Subjects
Cytology ,QH573-671 - Abstract
Abstract Interferon (IFN) exerts its effects through interferon-stimulated genes (ISGs), but its efficacy is limited by interferon resistance, which can be caused by the ubiquitination of key proteins. UBE2O was initially identified as a promising therapeutic target based on data from the TCGA and iUUCD 2.0 databases. Through the inhibition of UBE2O, interferon α/β signaling and overall interferon signaling were activated. Integrating data from proteomic, mass spectrometry, and survival analyses led to the identification of IFIT3, a mediator of interferon signaling, as a ubiquitination substrate of UBE2O. The results of in vitro and in vivo experiments demonstrated that the knockdown of UBE2O can enhance the efficacy of interferon-α by upregulating IFIT3 expression. K236 was identified as a ubiquitination site in IFIT3, and the results of rescue experiments confirmed that the effect of UBE2O on interferon-α sensitivity is dependent on IFIT3 activity. ATO treatment inhibited UBE2O and increased IFIT3 expression, thereby increasing the effectiveness of interferon-α. In conclusion, these findings suggest that UBE2O worsens the therapeutic effect of interferon-α by targeting IFIT3 for ubiquitination and degradation.
- Published
- 2023
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