Rôle du récepteur nucléaire FXR dans la régulation de la production de GLP-1 : nouvelle cible thérapeutique dans le traitement du diabète de type 2 ?

摘要

Originally identified as dietary lipid detergents, bile acids (BA) are now recognized as signaling molecules which bind to the transmembrane receptor TGR5 and the nuclear receptor FXR (Farnesoid X Receptor). Upon binding to TGR5 at the surface of enteroendocrine L cells, bile acids (BA) promote the secretion of the incretin GLP-1 which potentiates the glucose-induced insulin secretion by pancreatic beta-cells. More than 50% of the insulin secretion in response to glucose is mediated by GLP-1 and the other incretin Glucose-dependent Insulinotropic Polypeptide (GIP). Once secreted, GLP-1 is rapidly (2-3 minutes) degraded by the endothelial enzyme Dipeptydil Peptidase 4 (DPP4). GLP-1 analogues and DPP4 inhibitors are successfully used for the treatment of T2D. FXR is a ligand-activated nuclear receptor highly expressed in the liver and in the distal intestine. FXR controls BA, lipid and glucose metabolism. Whether FXR is expressed, functional in intestinal enteroendocrine L cells and in which extend its activation affects GLP-1 production are not yet reported. Encouraging data were obtained during my M2 training course. The aim of my thesis was thus to assess whether FXR in enteroendocrines cells could participate in the control of the deregulation of glucose homeostasis.Multiple in vitro, ex vivo and in vivo human and murine models allowed us to show that FXR is present and functional in L cells.FXR activation decreases GLP-1 production and secretion in L cells by inhibiting glycolysis pathway through an interference with the carbohydrate responsive transcription factor ChREBP. Finally, I identified an additional mechanism of action of the bile acid sequestrant Colesevelam, a molecule currently successfully used in USA for treating type 2 diabetic patients.