The sequential hypothesis on sleep function. I. Evidence that the structure of sleep depends on the nature of the previous waking experience.

The sequential hypothesis on sleep function assumes that the information gathered by brain during the waking period is processed during sleep in two main steps occurring during synchronized sleep (SS) and, eventually, during paradoxical sleep (PS). To verify the main consequences of the hypothesis, i.e., (1) that SS is involved in brain information processing; and (2) that the structure of sleep is dependent on the nature of the previous waking experience, an experiment was designed involving rats exposed to a training session (two-way active avoidance) but failing to learn (NL), and rats left in their home cages in the same training room (C). The structure of sleep, determined by EEG techniques in the postacquisition period (3 hr), was different in NL rats in comparison to C rats, chiefly because SS episodes were markedly longer in the former group. A more detailed analysis indicated that, in NL rats, SS episodes not followed by PS increased their duration first, while those followed by PS became longer in the second half of the sleep period. Comparable results were obtained in the comparison of NL and C subgroups deprived of PS at the end of the acquisition period by chlomipramine treatment. The data support the sequential hypothesis and provide evidence for a primary role of SS in brain information processing.