Epigenetic loss of the endoplasmic reticulum-associated degradation inhibitor SVIP induces cancer cell metabolic reprogramming

The endoplasmic reticulum (ER) of cancer cells needs to adapt to the enhanced proteotoxic stress associated with the accumulation of unfolded, misfolded and transformation-associated proteins. One way by which tumors thrive in the context of ER stress is by promoting ER-Associated Degradation (ERAD), although the mechanisms are poorly understood. Here, we show that the Small p97/VCP Interacting Protein (SVIP), an endogenous inhibitor of ERAD, undergoes DNA hypermethylation-associated silencing in tumorigenesis to achieve this goal. SVIP exhibits tumor suppressor features and its recovery is associated with increased ER stress and growth inhibition. Proteomic and metabolomic analyses show that cancer cells with epigenetic loss of SVIP are depleted in mitochondrial enzymes and oxidative respiration activity. This phenotype is reverted upon SVIP restoration. The dependence of SVIP hypermethylated cancer cells on aerobic glycolysis and glucose was also associated with sensitivity to an inhibitor of the glucose transporter GLUT1. This could be relevant to the management of tumors carrying SVIP epigenetic loss, because these occur in high-risk patients who manifest poor clinical outcomes. Overall, our study provides insights into how epigenetics helps deal with ER stress and how SVIP epigenetic loss in cancer may be amenable to therapies that target glucose transporters.This work was supported by the Health Department PERIS project number SLT/002/16/00374 and AGAUR project numbers 2017SGR1080, 2014SGR633, 2017SGR1033, and 2009SGR1315 of the Catalan Government (Generalitat de Catalunya); the Spanish Institute of Health Carlos III (ISCIII) project number DTS16/00153 and Ministerio de Economía y Competitividad (MINECO) project numbers SAF2014-55000-R, BFU2014-57466-P, SAF2017-89673-R, and SAF2015-70270-REDT co-financed by the European Development Regional Fund, A way to achieve Europe ERDF; the Cellex Foundation; and “la Caixa” Bank Foundation (LCF/PR/PR15/11100003). MC acknowledges the prize “ICREA Academia” for excellence in research, funded by ICREA foundation. We thank the Scientific and Technological Centre (CCiTUB) of the University of Barcelona for technical support with cell cytometry and sorting. We also thank the Regenerative Medicine Center (CMRB) Electron Microscopy and Histology facility