Locus coeruleus stimulation modulates the nociceptive response in parafascicular neurons: an analysis of descending and ascending pathways.

The nociceptive responses in parafascicular neurons (PF) were recorded and studied following electrical stimulation of locus coeruleus (LC) combined with intrathecal (IT) or intracerebroventricular (ICV) administration of phentolamine (Ph), an alpha-adrenoceptor antagonist. The results revealed the following. (1) Three different PF neuronal populations were observed according to their response pattern following noxious stimulation: nociceptive-on, nociceptive-off, and nonresponsive units. Only the nociceptive-on units were studied further. (2) The nociceptive discharges in majority of PF neurons (66/87) were inhibited by electrical stimulation of the LC. (3) The inhibitory effect of LC stimulation was prevented and even reversed by pretreatment of IT Ph (40 nmol) in 22 units, or by dorsolateral funiculi transection in 24 units tested. (4) The inhibitory effect of LC stimulation was strengthened by preadministration of ICV Ph (40 nmol) in 17 units tested. (5) ICV administration of norepinephrine (NE 30 nmol) resulted in PF neurons a biphasic response to nociceptive stimulation: an early brief inhibition and a late long-lasting facilitation. (6) Pretreatment of ICV Ph (40 nmol) prior to NE injection prevented the NE-induced biphasic response. The results suggest that stimulation of LC modulates the nociceptive response of PF neurons through both ascending and descending routes. These two diverse routes exert two different effects: a predominantly inhibitory role on the nociceptive transmission at the spinal cord level by descending NE-ergic fibers, and a facilitatory role on the responsiveness of PF to noxious inputs by ascending fibers.