Glucose utilization and disposition by skeletal muscle during unrestricted feeding.

We measured glucose utilization index (GUI) values in individual skeletal muscles of conscious rats during the light (quiescent) and dark (feeding/activity) phases. There was a 2-3-fold variation in muscle GUI values, with peak values observed at the end of the dark phase and minimum values observed at 6-9 h into the light phase. GUI values in working muscles (soleus and adductor longus) were consistently higher than in non-working muscles (tibialis anterior and extensor digitorum longus), indicating that working muscles make the major contribution of the total skeletal muscle mass to glucose disposal during unrestricted feeding. There was a clear overall increase in muscle glycogen deposition during the first 9 h of the dark phase; this was concomitant with an increase in food consumption. Peak glycogen concentrations were reached after 9 h of darkness, but subsequently declined. The pattern of changes in muscle GUI values during the light and dark phases is discussed in relation to the role of insulin in facilitating glucose clearance.