Effects of chronic administration of albumin modified by advanced glycation (AGE) on the liver tissue: characterization of histological, inflammatory and antioxidant profile

The Nonalcoholic fatty liver disease (NAFLD) comprises a spectrum of conditions that includes simple steatosis and nonalcoholic steatohepatitis and it is considered the hepatic component of the Metabolic syndrome. Studies have shown that advanced glycation end products (AGEs) stimulate the production of extracellular matrix proteins, the generation of reactive oxygen species and of proinflammatory cytokines by liver cells, and that they could participate in NAFLD pathogenesis. In view of the paucity of information regarding the metabolic effects of AGEs on the liver, despite their potential to cause hepatic injury, we evaluated the effects of chronic administration of albumin modified by advanced glycation in (1) variables associated with glucose homeostasis and insulin sensitivity; (2) hepatic expression of genes involved in AGEs, glucose and fat metabolism, oxidative stress and inflammation; (3) activation status of proteins involved in insulin signaling and; (4) hepatic morphology and glycogen content. The study was performed in Wistar rats receiving, by intraperitoneal route, 20 mg/kg/body weight of rat serum albumin modified (AlbAGE) or not (AlbCTRL) by advanced glycation for 12 weeks. Chronic administration of AlbAGE did not alter alanine aminotransferase (ALT) and aspartate aminotransferase (AST) concentrations or other evaluated variables, but induced insulin resistance, as detected by the insulin tolerance test. The remaining results, however, suggested an increase in insulin sensitivity in the hepatic territory, evidenced by activation of serine/threonine-specific protein kinase (AKT), inactivation of glycogen synthase kinase (GSK3), increased hepatic glycogen content, and decreased expression of the gluconeogenesis genes Pck1 and G6pc. Other observed findings were a reduction in hepatic fat content, in the expression of the lipogenic genes Acaca and Fasn and of the proinflammatory genes Nfkb, Tnf, and Il6 genes. Mechanisms that could explain the concomitant improvement in hepatic insulin sensitivity and in the inflammatory profile after chronic exposure to AGEs are not clear, but include inactivation of GSK3beta which exerts metabolic and anti-inflammatory effects. Our findings may be related to the intraperitoneal route of administration employed in this study, which results in direct absorption of AGEs into the portal circulation and, it turn, makes the liver the first-line of defense against the toxicity of these compounds. Once in the liver, AGEs trigger adaptive responses to counterbalance their potentially damaging effects (AU)