1593-P: Insulin-Degrading Enzyme (IDE) Regulates Glucagon Signalling and Mitochondrial Respiration in Hepatocytes

Abstract

IDE is a ubiquitous metalloprotease with cytosolic and mitochondrial subcellular localization that degrades insulin and glucagon. People with T2D and diet-induced obese mice show lower hepatic IDE levels. We revealed a key role of IDE on the insulin-mediated repression of hepatic gluconeogenesis, but its function on glucagon-dependent activation of gluconeogenesis and mitochondrial respiration in hepatocytes remains completely unknown. Here, we aim to elucidate the role of IDE on glucagon signalling and its impact on gluconeogenesis and energy metabolism in hepatocytes. Liver homogenized and primary hepatocytes obtained from L-IDE-KO mice (deletion of IDE in liver) showed decreased expression of glucagon receptor (~60%), CREB protein (~40%), and lower phosphorylation of CREB (~50%) upon glucagon stimulation compared to controls. Similar results were found in AML12-shRNA-Ide cells, in which IDE protein levels were reduced by ~50%. Additionally, glucagon stimulation resulted in lower (~30%) cAMP levels and diminished phosphorylation of PKA substrates in AML12-shRNA-Ide. Surprisingly, these alterations in glucagon signalling paralleled with ~20-fold increases in the expression of the gluconeogenic genes G6p6 and Pck1. Of note, basal and uncoupler-stimulated respiration increased ~4-fold in AML12-shRNA-Ide in parallel with a ~2-fold increment of mitochondrial and glycolytic ATP production. Finally, similar mitochondrial phenotype was found in human hepatocytes lacking IDE (HepG2-IDE-KO cells), which exhibited higher FoxO1 levels and fragmented mitochondria. The effects on mitochondrial respiration were independent of IDE's proteolytic activity. In summary, reduced IDE expression in hepatocytes has a deleterious effect on glucagon signalling leading to up-regulated gluconeogenesis and mitochondrial respiration. We conclude that IDE is a mechanistic link to couple hepatic gluconeogenesis with mitochondrial energy production. Disclosure C.M. González-Casimiro: None. P. Cámara-Torres: None. B. Merino: None. J. Santo-Domingo: None. M.A. de la Fuente: None. A. Alonso: None. I. Cozar-Castellano: None. G. Perdomo: None. Funding Ministerio de Ciencia e Innovación-Spain (PID2019-110496RB-C22)