In vivo metabolic effects after acute activation of skeletal muscle G signaling.

OBJECTIVE

The goal of this study was to determine the glucometabolic effects of acute activation of G signaling in skeletal muscle (SKM) in vivo and its contribution to whole-body glucose homeostasis.

METHODS

To address this question, we studied mice that express a G-coupled designer G protein-coupled receptor (Gs-DREADD or GsD) selectively in skeletal muscle. We also identified two G-coupled GPCRs that are endogenously expressed by SKM at relatively high levels (β-adrenergic receptor and CRF receptor) and studied the acute metabolic effects of activating these receptors in vivo by highly selective agonists (clenbuterol and urocortin 2 (UCN2), respectively).

RESULTS

Acute stimulation of GsD signaling in SKM impaired glucose tolerance in lean and obese mice by decreasing glucose uptake selectively into SKM. The acute metabolic effects following agonist activation of β-adrenergic and, potentially, CRF receptors appear primarily mediated by altered insulin release. Clenbuterol injection improved glucose tolerance by increasing insulin secretion in lean mice. In SKM, clenbuterol stimulated glycogen breakdown. UCN2 injection resulted in decreased glucose tolerance associated with lower plasma insulin levels. The acute metabolic effects of UCN2 were not mediated by SKM G signaling.

CONCLUSIONS

Selective activation of G signaling in SKM causes an acute increase in blood glucose levels. However, acute in vivo stimulation of endogenous G-coupled receptors enriched in SKM has only a limited impact on whole-body glucose homeostasis, most likely due to the fact that these receptors are also expressed by pancreatic islets where they modulate insulin release.