Abstract
Understanding the mechanisms underlying evasive resistance in cancer is an unmet medical need to improve the efficacy of current therapies. In hepatocellular carcinoma (HCC), aberrant expression of hypoxia-inducible factor 1 α (HIF1α) and increased aerobic glycolysis metabolism are drivers of resistance to therapy with the multi-kinase inhibitor Sorafenib. However, it has remained unknown how HIF1α is activated and how its activity and the subsequent induction of aerobic glycolysis promote Sorafenib resistance in HCC. Here, we report the ubiquitin-specific peptidase USP29 as a new regulator of HIF1α and of aerobic glycolysis during the development of Sorafenib resistance in HCC. In particular, we identified USP29 as a critical deubiquitylase (DUB) of HIF1α, which directly deubiquitylates and stabilizes HIF1α and, thus, promotes its transcriptional activity. Among the transcriptional targets of HIF1α is the gene encoding hexokinase 2 (HK2), a key enzyme of the glycolytic pathway. The absence of USP29, and thus of HIF1α transcriptional activity, reduces the levels of aerobic glycolysis and restores sensitivity to Sorafenib in Sorafenib-resistant HCC cells in vitro and in xenograft transplantation mouse models in vivo. Notably, the absence of USP29 and high HK2 expression levels correlate with the response of HCC patients to Sorafenib therapy. Together, the data demonstrate that, as a DUB of HIF1α, USP29 promotes Sorafenib resistance in HCC cells, in parts by upregulating glycolysis, thereby opening new avenues for therapeutically targeting Sorafenib-resistant HCC in patients.
Highlights
Liver cancer is the second leading cause of cancer-related death worldwide
In line with a previous a hypoxia response element (HRE)-driven luciferase reporter study showing a critical role of hypoxia-inducible factor 1 α (HIF1α) in Sorafenib-naive cells [5], assay (Fig. 2i). These findings suggest that Ubiquitin-specific peptidase 29 (USP29) is a the results demonstrated that HIF1α was critically required for the potent positive regulator of HIF1α protein stability and maintenance of Sorafenib resistance in patient-derived Hepatocellular carcinoma (HCC) cell transcriptional activity in Sorafenib-resistant HCC cells
We found that exogenous USP29 and HIF1α interact with each other when expressed in HEK-293T cells
Summary
Liver cancer is the second leading cause of cancer-related death worldwide. Hepatocellular carcinoma (HCC) represents the most common type of primary malignant liver tumor, accounting for 90% of all liver cancers [1]. To assess the functional role of HIF1α in driving Sorafenib Third, in line with the observed effects of USP29 on the resistance, we performed colony formation assays with Huh7-IR expression of HIF1α target genes, siRNA-mediated ablation of and Huh7-CR cells with and without siRNA-mediated depletion of USP29 reduced HIF1α transcriptional activity comparable to HIF1α expression and in the presence of different concentrations the siRNA-mediated depletion of HIF1α itself, as determined by of Sorafenib The expression of the major liver hexokinase HK4 moderately, yet not significantly correlated with Sorafenib response in patients (Fig. 5q) These findings suggest that USP29-mediated stabilization of HIF1α and its transcriptional output promote glycolysis and Sorafenib resistance in HCC cells. The USP29-HIF1α axis represents a potential therapeutic target to overcome Sorafenib resistance in HCC
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