The daily rhythm in feeding activity in mammals, as driven by the biologica
l clock, largely determines the daily fluctuations in basal concentrations
of glucose and insulin, To investigate a possible direct impact of the supr
achiasmatic nucleus (SCN) on these parameters, we subjected intact rats and
SCN-lesioned rats to a fasting regimen of 36 h, or to a scheduled feeding
regimen of six identical meals equally distributed over the light:dark-cycl
e. Plasma profiles of glucose and insulin in rats during the final 24 h of
the 36 h of fasting, and in rats subjected to the scheduled feeding regimen
were compared to profiles in rats fed ad libitum, In rats fed ad libitum,
in fasted rats and in rats subjected to a scheduled feeding regimen basal g
lucose concentrations showed a pronounced 24-h rhythm that was not found in
rats that had been SCN-lesioned. Basal insulin levels showed a 24-h rhythm
in 50% of the rats fed ad libitum and in 50% of the rats subjected to a sc
heduled feeding regimen; neither rhythms were present in SCN-lesioned rats.
However, none of the fasted rats showed a 24-h rhythm in basal insulin con
centrations. These data provide clear evidence that the SCN directly contro
ls basal glucose concentrations independent of its influence on feeding act
ivity. At the same time, we found no consistent evidence for a strong impac
t of the SCN on basal insulin concentrations.