Neural control of circadian rhythms in plasma ACTH, plasma corticosterone and motor activity.

The circadian rhythms for plasma ACTH and corticosterone (B), as well as motor activity, were explored in female rats after ocular enucleation (O-X), stereotaxic lesion of the suprachiasmatic nuclei (SCN-X) or of midbrain raphe nuclei (R-X), or both O-X and R-X, pharmacological blockade of the serotoninergic (5HT) system by pCPA, sometimes bypassed by 5-HTP, or 5-HT denervation of the SCN by local injection of 5,7-DHT. The three circadian rhythms explored responded quite differently to the treatments. In particular, the ACTH and B rhythms lost their usual close correlations. The amplitude and mean level of ACTH fluctuations were depressed after all treatments, but remained normal or were enhanced for B rhythm. ACTH rhythmicity actually was undetectable after SCN-X, pCPA and, in several rats, combined O-X and R-X, whereas persisting circadian and/or ultradian B and locomotor activity rhythms were always measured. The participation of the suprachiasmatic nuclei, the midbrain raphe nuclei and other possible 5-HT components in a complex circadian pacemaker system is discussed.