Sleep mentation studies infer that pain sensation in humans may be reduced during active REM sleep. However, to provide a mechanistic explanation for this phenomenon, few, if any neurophysiological studies have been performed at the lumbar level from neurons comprising classical pain pathways during sleep and wakefulness. The spinoreticular tract is one such classical pathway that has been implicated in the rostral transmission of nociceptive information. The present study was performed to determine if the activity of spinoreticular tract (SRT) neurons is dependent upon behavioral state. Accordingly, extracellular recording techniques were used to monitor the activity of identified SRT neurons in unanesthetized chronic cats during sleep and wakefulness. The ongoing spike activity of SRT neurons was found to be relatively uniform when the states of quiet wakefulness and quiet sleep were compared. However, during active sleep, the majority of the SRT neurons sampled underwent a sustained reduction in spike activity. Marked facilitation of SRT cell activity occurred in a few instances. These data provide the first unitary evidence supporting earlier evoked potential, psychophysical and clinical studies that ascending sensory information in a classical pain pathway is regulated in a state-dependent fashion.