ACLY alternative splicing correlates with cancer phenotypes

Abstract

ATP-citrate lyase (ACLY) links carbohydrate and lipid metabolism and provides nucleocytosolic acetyl-CoA necessary for protein acetylation. ACLY has two major splice isoforms: the full-length canonical “long” isoform and an uncharacterized “short” isoform in which exon 14 is spliced out. Exon 14 encodes 10 amino acids within a disordered region of the protein and includes at least 1 site that is dynamically phosphorylated. Both isoforms are expressed in healthy tissues to varying degrees. Analysis of human transcriptomic data revealed that the Percent Spliced In (PSI) of exon 14, i.e., the proportion of long isoform, is increased in several cancers and correlated with poorer overall survival in a pan-cancer analysis, though not in individual tumor types, which prompted us to explore potential biochemical and functional differences between ACLY isoforms.Here, we show that there are no discernible differences in enzymatic activity or stability between isoforms or phosphomutants of ACLY in vitro. Similarly, both isoforms and phosphomutants were able to rescue ACLY functions, including fatty acid synthesis and bulk histone acetylation, when re-expressed in Acly knockout cells. Deletion of Acly exon 14 in mice did not overtly impact development or metabolic physiology, nor did it attenuate tumor burden in a genetic model of intestinal cancer.Notably, expression of epithelial splicing regulatory protein 1 (ESRP1) is highly correlated with ACLY PSI. We report that ACLY splicing is regulated by ESRP1. In turn, both ESRP1 expression and ACLY PSI are correlated with specific immune signatures in tumors. Despite these intriguing patterns of ACLY splicing in healthy and cancer tissues, functional differences between the isoforms remain elusive.