SAT-653 Exploring the Role of Brown Adipokines on Hepatic Insulin Resistance Using a Microfluidic Organ-On-Chip

摘要

The development of insulin resistance (IR) in liver is a key of pathophysiologic response in type 2 diabetes. Although insulin resistance impairs its ability to suppress hepatic glucose production, insulin regulation of lipogenesis is maintained (1). Currently available insulin sensitizers are effective at lowering glucose levels, but have significant adverse effect on weight gain due to triglyceride accumulation, which highlights a need to develop new therapeutic treatment options for type 2 diabetes. Brown adipose tissue (BAT) has been studied as a new target for anti-obesity and type 2 diabetes as BAT stimulation increases energy expenditure, reduces adiposity, and improves insulin sensitivity (2). However, the underlying mechanisms are not completely understood. To identify the role of BAT adipokines on hepatic insulin resistance, we developed an insulin resistant liver organ-on-chip model and then perfused primary mouse brown adipocyte conditioned media through the hepatocytes. Our results demonstrate that IR hepatocytes treated with brown adipocyte - conditioned media restores insulin sensitivity and improves glucose metabolism. This was verified by significantly increased expression of Phospho-Akt (Ser473) and glucose production gene markers (G6pc and PEPCK), lowered glucose production, increased glucose uptake, and increased glycogen synthesis in treated hepatocytes over IR group (p < 0.05). Our results also indicate that brown adipocyte - conditioned media treatment has the potential to suppress lipogenesis in hepatic insulin resistance. This was confirmed by significantly reduced expression of a lipogenesis gene marker (SREPB1) and fatty acid uptake in treated hepatocytes over IR group (p < 0.05). Current efforts are focused towards identifying the BAT adipokine via mass spectrometry. We conclude that BAT-derived endocrine factors could be a potential target for new drug discovery for obesity and type 2 diabetes treatment.