Abstract
Hepatocellular carcinoma (HCC) is one of the most common malignancy-related deaths. p53 mutation in HCC associates with worse clinicopathologic features including therapeutic limitation. A combination of targeted therapy may have some advantages. Akt/mTOR signaling contributes to the regulation of cell proliferation and cell death. Akt inhibitor (AZD5363) and mTORC1/2 dual inhibitor (AZD8055) are in a clinical trial for HCC and other cancers. In this study, we examined whether these inhibitors successfully induce antiproliferative activity in p53 mutant HCC cells, and the underlying mechanisms. We observed that a combination of AZD5363 and AZD8055 treatment synergizes antiproliferative activity on p53 mutated or wild-type HCC cell lines and induces apoptotic cell death. Mechanistic insights indicate that a combination of AZD5363 and AZD8055 activated FOXO3a to induce Bim-associated apoptosis in p53 mutated HCC cells, whereas cells retaining functional p53 enhanced Bax. siRNA-mediated knock-down of Bim or Bax prevented apoptosis in inhibitor-treated cells. We further observed a combination of treatment inhibits phosphorylation of FOXO3a and protects FOXO3a from MDM2 mediated degradation by preventing the phosphorylation of Akt and SGK1. FOXO3a accumulates in the nucleus under these conditions and induces Bim transcription in p53 mutant HCC cells. Combination treatment in the HCC cells expressing wild-type p53 causes interference of FOXO3a function for direct interaction with functional p53 and unable to induce Bim-associated cell death. On the other hand, Bim-associated cell death occurs in p53 mutant cells due to uninterrupted FOXO3a function. Overall, our findings suggested that a combined regimen of dual mTORC1/2 and Akt inhibitors may be an effective therapeutic strategy for HCC patients harboring p53 mutation.
Highlights
Liver cancer is the sixth most common of all malignancies, and one of the major causes of cancer-related death in the world [1]
AZD8055 potentiates apoptosis in combination with AZD5363 we examined the mechanism for cell death in Hepatocellular carcinoma (HCC) cells in presence of AZD5363 and AZD8055
Missense p53 mutation imparts gain-of-function properties, including uncontrolled cell proliferation resulting in inadequate differentiation, suppression of apoptosis, and development of chemotherapy resistance, which result in tumor progression [30]
Summary
Liver cancer is the sixth most common of all malignancies, and one of the major causes of cancer-related death in the world [1]. Hepatocellular carcinoma (HCC) is the most frequent form of primary liver cancer and accounts for ~90% of cases. Hepatitis B virus (HBV) and hepatitis C virus (HCV) infections are the primary risk factors for HCC development, but nonalcoholic steatohepatitis associated (NASH) in cancer progression is becoming another major risk factor in the western world [2]. Sorafenib or Lenvatinib may be recommended as second-line therapy for advanced HCC [3]. Limited survival benefit, associated toxicity, and evolved resistance mechanism with single-agent therapy suggest an urgent requirement for improved and efficacious treatment approaches for advanced HCC. Combined targeted therapeutic strategies may have the potential for better response and lengthened survival rates in patients with advanced HCC. The combination of atezolizumab plus bevacizumab is the first-line therapy for advanced HCC patients [4]
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