• Neuropeptides · Jun 2017

    Neuropeptide S reduces propofol- or ketamine-induced slow wave states through activation of cognate receptors in the rat.

    • Xiang-Pan Kong, Can Wang, Jun-Fan Xie, Peng Zhao, Li-Rong Dai, Yu-Feng Shao, Jian-Sheng Lin, and Yi-Ping Hou.
    • Departments of Neuroscience, Anatomy, Histology, and Embryology, Key Laboratory of Preclinical Study for New Drugs of Gansu Province, Lanzhou University, Lanzhou, China; Department of Human Anatomy, Hunan Normal University, Changsha, China.
    • Neuropeptides. 2017 Jun 1; 63: 59-66.

    AbstractIntracerebroventricular injection of NPS reduces the duration of the ketamine- or thiopental-induced loss of the righting reflex in rats. But the specific EEG activities are unknown. We therefore sought to examine the effects of the NPS-NPSR system on anesthetic-induced characteristics of EEG power spectra and sleep-wake profiles. NPS alone or together with an NPSR antagonist was injected intracerebroventricularly, whereas the propofol (50mg/kg) or ketamine (100mg/kg) was administrated intraperitoneally. NPS (1 or 2nmol) significantly reduced the amount of propofol-induced EEG delta activity and slow wave states (SWS). NPS (1 or 5nmol) significantly reduced the amount of ketamine-induced SWS and EEG delta activity. Cortical EEG power spectral analysis showed that, in saline-pretreated rats, propofol induced a marked increase in delta (0.5-4Hz) activity, decrease in theta (4.5-8.5Hz) activity, and decrease in high frequency activity (14.5-60Hz), while, in rats pretreated with 1nmol of NPS, the duration of delta activity was reduced, while its spectral pattern was not changed. Whereas injection of ketamine into saline-pretreated rats induced a marked increase in delta (0.5-4Hz) activity, a moderate increase in theta (4.5-8.5Hz) activity, and a marked decrease in high frequency (14.5-60Hz) activity. However, delta activity was reduced while theta activity increased under pretreatment with 1nmol of NPS. The inhibitory effect of NPS on anesthetic-induced SWS was characterized by a reduced SWS episode duration with no significant change in either episode number or latency to SWS. [D-Val5]NPS, an NPSR antagonist (20nmol), significantly attenuated the arousal-promoting effect of 1nmol of NPS, but had no effect on SWS when injected alone. We speculate that NPS significantly reduces anesthetic-induced SWS and EEG slow activity by selective activation of the NPSR, which, in turn, would trigger subsequent arousal pathways.Copyright © 2017 Elsevier Ltd. All rights reserved.

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