TY - JOUR T1 - Type 2 sodium-glucose cotransporter (SGLT2) inhibitors: from familial renal glucosuria to the treatment of type 2 diabetes mellitus JO - Nefrología (English Edition) T2 - AU - Pérez López,G. AU - González Albarrán,O. AU - Cano Megías,M. SN - 20132514 M3 - 10.3265/Nefrologia.pre2010.Sep.10494 DO - 10.3265/Nefrologia.pre2010.Sep.10494 UR - https://revistanefrologia.com/en-type-2-sodium-glucose-cotransporter-sglt2--articulo-X2013251410050986 AB - For centuries, the kidney has been considered primarily an organ of elimination and a regulator of salt and ion balance. Although once thought that the kidney was the structural cause of diabetes, which in recent years has been ignored as a regulator of glucose homeostasis, is now recognized as a major player in the field of metabolic regulation carbohydrate. During fasting, 55% of the glucose comes from gluconeogenesis. Only 2 organs have this capability: the liver and kidney. The latter is responsible for 20% of total glucose production and 40% of that produced by gluconeogenesis. Today we have a better understanding of the physiology of renal glucose transport via specific transporters, such as type 2 sodium-glucose cotransporter  (SGLT2). A natural compound, phlorizin, was isolated in early 1800 and for decades played an important role in diabetes and renal physiology research. Finally, at the nexus of these findings mentioned above, recognized the effect of phlorizin-like compounds in the renal glucose transporter, which has offered a new mechanism to treat hyperglycemia. This has led to the development of several potentially effective treatment modalities for the treatment of diabetes. ER -