Aims/hypothesis: Excessive hepatic glucose production is a hallmark of insulin resistance in type 2 diabetes. The cAMP responsive transcription factor cAMP responsive element binding protein (CREB), thought to be a key activator of the hepatic gluconeogenic gene regulation programme, has been suggested as a therapeutic target to reduce glucose output by the liver. Here, we test directly the requirement for hepatocytic CREB for the maintenance of glucose homeostasis.
Methods: We derived mice with a Creb (also known as Creb1) loxP allele for conditional, cell-type specific gene ablation. Hepatocyte-specific deletion of Creb was induced by injecting Creb (loxP/loxP) mice with Cre recombinase expression adeno-associated virus.
Results: Strikingly, we found no difference in fed and fasted glucose levels, or in glucose, insulin and glucagon tolerance in mice fed a normal chow or a high-fat diet. In addition, mRNA levels of liver-specific genes, including several CREB target genes involved in gluconeogenesis, were not affected by CREB deficiency in the liver.
Conclusion/interpretation: Our data show that CREB has no non-redundant functions in hepatic glucose metabolism, and is therefore not likely to be a useful target for the development of glucose-lowering drugs.