Conclusion
Brain insulin is required for insulin to suppress adipose tissue lipolysis and depends on intact hypothalamic MAPK signaling.
Methods
We used hyperinsulinemic clamp studies coupled with tracer dilution techniques to assess insulin's ability to suppress lipolysis in two different mouse models with inducible insulin receptor depletion in all tissues (IRΔWB) or restricted to peripheral tissues excluding the brain (IRΔPER). To identify the underlying signaling pathway required for brain insulin to inhibit lipolysis, we continuously infused insulin +/- a PI3K or MAPK inhibitor into the mediobasal hypothalamus of male Sprague Dawley rats and assessed lipolysis during clamps.
Results
Genetic insulin receptor deletion induced marked hyperglycemia and insulin resistance in both IRΔPER and IRΔWB mice. However, the ability of insulin to suppress lipolysis was largely preserved in IRΔPER, but completely obliterated in IRΔWB mice indicating that insulin is still able to suppress lipolysis as long as brain insulin receptors are present. Blocking the MAPK, but not the PI3K pathway impaired the inhibition of lipolysis by brain insulin signaling.