Stabilization of LKB1 and Akt by neddylation regulates energy metabolism in liver cancer.

Lucía Barbier-Torres,Patricia Aspichueta,Loreto Boix,José M Mato,Xabier Buqué,Juan L García-Rodríguez,Imanol Zubiete-Franco,Shelly C Lu,Ainara Cano,Pablo Fernández-Tussy,Azucena Castro,Jordi Bruix,Naiara Beraza,Teresa C Delgado,Itziar Fernández-Domínguez,Erica Villa,Fernando Lopitz‐Otsoa ,Marta Varela‐Rey ,David Fernández‐Ramos ,Dimitris P Xirodimas ,Virginia Gutiérrez‐De Juan ,Maria Luz Martínez‐Chantar

doi:10.18632/oncotarget.3191

Abstract

The current view of cancer progression highlights that cancer cells must undergo through a post-translational regulation and metabolic reprogramming to progress in an unfriendly environment. In here, the importance of neddylation modification in liver cancer was investigated. We found that hepatic neddylation was specifically enriched in liver cancer patients with bad prognosis. In addition, the treatment with the neddylation inhibitor MLN4924 in Phb1-KO mice, an animal model of hepatocellular carcinoma showing elevated neddylation, reverted the malignant phenotype. Tumor cell death in vivo translating into liver tumor regression was associated with augmented phosphatidylcholine synthesis by the PEMT pathway, known as a liver-specific tumor suppressor, and restored mitochondrial function and TCA cycle flux. Otherwise, in protumoral hepatocytes, neddylation inhibition resulted in metabolic reprogramming rendering a decrease in oxidative phosphorylation and concomitant tumor cell apoptosis. Moreover, Akt and LKB1, hallmarks of proliferative metabolism, were altered in liver cancer being new targets of neddylation. Importantly, we show that neddylation-induced metabolic reprogramming and apoptosis were dependent on LKB1 and Akt stabilization. Overall, our results implicate neddylation/signaling/metabolism, partly mediated by LKB1 and Akt, in the development of liver cancer, paving the way for novel therapeutic approaches targeting neddylation in hepatocellular carcinoma.

Highlights

Hepatocellular carcinoma (HCC) is the fifth most common cancer worldwide and the third leading cause of death [1]
The current view of cancer progression highlights that cancer cells must undergo through a post-translational regulation and metabolic reprogramming to progress in an unfriendly environment
The current view of cancer progression supports that cancer cells must undergo through a posttranslational modification (PTM) regulation and a metabolic switch or reprogramming in order to progress in an unfriendly environment [3]

Summary

Introduction

Hepatocellular carcinoma (HCC) is the fifth most common cancer worldwide and the third leading cause of death [1]. HCC etiology is very complex with multiple and distinct signaling pathways converging in malignant transformation [2]. The current view of cancer progression supports that cancer cells must undergo through a posttranslational modification (PTM) regulation and a metabolic switch or reprogramming in order to progress in an unfriendly environment [3]. Neddylation is a PTM by which the ubiquitin-like protein, neural precursor cell expressed, developmentally downregulated 8 (Nedd8) is conjugated to its target proteins. Since Nedd is a key regulator of cell growth, viability and malignant transformation [4], neddylation inhibition could prove to be an effective anti-cancer therapy. Not described to date, several other proteins could be potential neddylation targets

Methods

Results

Conclusion