Cell Reports (Oct 2019)
The RNA-Binding Protein A1CF Regulates Hepatic Fructose and Glycerol Metabolism via Alternative RNA Splicing
Abstract
Summary: The regulation of hepatic gene expression has been extensively studied at the transcriptional level; however, the control of metabolism through posttranscriptional gene regulation by RNA-binding proteins in physiological and disease states is less understood. Here, we report a major role for the hormone-sensitive RNA-binding protein (RBP) APOBEC1 complementation factor (A1CF) in the generation of hepatocyte-specific and alternatively spliced transcripts. Among these transcripts are isoforms for the dominant and high-affinity fructose-metabolizing ketohexokinase C and glycerol kinase, two key metabolic enzymes that are linked to hepatic gluconeogenesis and found to be markedly reduced upon hepatic ablation of A1cf. Consequently, mice lacking A1CF exhibit improved glucose tolerance and are protected from fructose-induced hyperglycemia, hepatic steatosis, and development of obesity. Our results identify a previously unreported function of A1CF as a regulator of alternative splicing of a subset of genes influencing hepatic glucose production through fructose and glycerol metabolism. : Nikolaou et al. demonstrate that the RNA-binding protein A1CF regulates the alternative splicing of liver-enriched transcripts, including the metabolic enzymes ketohexokinase (KHK) and glycerol kinase. A1CF antagonizes hnRNPH1/2, thereby controlling the generation of the KHK-A/C isoform, and influences hepatic lipogenesis and glucose production by regulating fructose and glycerol metabolism. Keywords: A1CF, hnRNPH1, gluconeogenesis, fructose, glycerol, ketohexokinase, fructokinase, glycerol kinase, alternative splicing, RNA binding protein
