Effect of Continuous Infusion of Anti-L1 Antibody into the Third Cerebral Ventricle above the Suprachiasmatic Nucleus on the Circadian Rhythm of Locomotor Activity in Rats

Abstract

During an investigation into the role of the neural cell adhesion molecules such as L1 and NCAM in the generation mechanism of circadian rhythms, we observed that L1-like immunoreactive substance is expressed in the hypothalamic suprachiasmatic nucleus (SCN). Therefore, we examined the effect of continuous infusion of anti-L1 antibody into the third cerebral ventricle above the SCN using an Alzet osmotic minipump, on the circadian rhythm of locomotor activity in rats under constant red dim light (less than 1 lx) condition, in order to elucidate the role of L1 in the mechanism of circadian rhythm. Continuous infusion of intact rabbit IgG into the third cerebral ventricle above the SCN, which was done as a control experiment, shifted the phase of the free-running circadian rhythm and reduced daily locomotor activity for an initial few days, however, it did not eliminate the circadian rhythm. In contrast, continuous infusion of anti-L1 antibody temporarily disrupted the circadian rhythm during the infusion period. Furthermore, the infusion of the anti-L1 antibody but not that of control IgG caused a change in the SCN conformation, from which it appeared that SCN neurons displaced in dorsal direction, 4 days after the start of the infusion. These findings suggest that the cell adhesion molecule, L1, might be involved in the generation and/or transduction of the time signal of the circadian rhythm in the SCN.