Role of SELENBP1 and SELENOF in prostate cancer bioenergetics

Abstract

The contribution of selenium and selenoproteins in prostate cancer etiology remains elusive, potentially due to insufficient information regarding the biochemical pathways in which they are involved. There are twenty-five human selenocysteine-containing proteins or selenoproteins as well as a smaller class of selenium-containing proteins that do not include selenocysteine, and their cancer-associated aberrations, both genetic and functional, have evoked special interest, although their contribution to the metabolic reprogramming of prostate cancers remains has not been extensively studied. While benign prostate tissue exhibits a glycolytic phenotype, neoplastic events restore the truncated tricarboxylic acid cycle and enhance oxidative phosphorylation. Two selenium-containing proteins, selenium binding protein 1 and selenoprotein F, affect prostate cancer phenotypes by modulating tumor cell metabolic profiles with significant effects on mitochondrial biology, including oxidative phosphorylation and ATP synthesis. One of the pathways affected by both proteins is the activation of adenosine monophosphate kinase and its downstream signaling with concomitant induction of glycolysis. This review focuses on highlighting the role of these two proteins in modulating the bioenergetic profile of prostate cancer and in maintaining the metabolic plasticity of these cells rendering growth advantage and possible therapeutic resistance.