Effects of pregabalin (PGB, 20-80 mg/kg i.v. injection) on spinally-organized nociception were investigated in isoflurane-anesthetized intact and spinalized rats. Responses of single deep spinal dorsal horn (DH) (laminae IV-V) nociceptive-specific (NS) neurons receiving peripheral inputs from A-delta and C fibers to repetitive electrical stimulation (intensity: 3-5 mA; frequency: 1 Hz; pulse duration: 1 ms), mechanical/heat stimulation were recorded extracellularly during physiological condition and s.c. bee venom (BV) induced inflammation. PGB significantly inhibited C-fiber mediated spinal NS neurons' late responses including phenomena of wind-up (temporal summation) and after-discharge. However, the antinociceptive effects of PGB on nociception were not observed until 30 min after its administration. In contrast, no significant inhibitory effect of PGB on A-delta fiber mediated early responses was observed during the experiments. Compared with intact rats, the inhibitory effects of PGB upon nociception vanished in the spinalized animals. This suggests that PGB-induced selective antinociceptive effect on C-fiber mediated nociception is mainly central effects involving supraspinal centers via descending inhibitory controls. Furthermore, pre-treatment, but not post-treatment, with PGB (80 mg/kg) markedly inhibited s.c. BV elicited spontaneous neuronal responses, and noxious mechanical/heat stimuli evoked hyperactivities of spinal NS neurons, indicating that PGB has efficacy of pre-emptive analgesia on pathological pain associated with central sensitization.