Your search keyword '"Jiao, Runsheng"' showing total 2 results

1. Cholinergic mechanism involved in the nociceptive modulation of dentate gyrus

Author

Jiao, Runsheng, Yang, Chunxiao, zhang, Ying, Xu, Manying, and Yang, Xiaofang

Subjects

*CHOLINERGIC mechanisms, *DENTATE gyrus, *ACETYLCHOLINE, *NEURONS, *ATROPINE, *PILOCARPINE, *ELECTROPHYSIOLOGY

Abstract

Abstract: Acetylcholine (ACh) causes a wide variety of anti-nociceptive effects. The dentate gyrus (DG) region of the hippocampal formation (HF) has been demonstrated to be involved in nociceptive perception. However, the mechanisms underlying this anti-nociceptive role have not yet been elucidated in the cholinergic pain-related neurons of DG. The electrical activities of pain-related neurons of DG were recorded by a glass microelectrode. Two kinds of pain-related neurons were found: pain-excited neurons (PEN) and pain-inhibited neurons (PIN). The experimental protocol involved intra-DG administration of muscarinic cholinergic receptor (mAChR) agonist or antagonist. Intra-DG microinjection of 1μl of ACh (0.2μg/μl) or 1μl of pilocarpine (0.4μg/μl) decreased the discharge frequency of PEN and prolonged firing latency, but increased the discharge frequency of PIN and shortened PIN inhibitory duration (ID). Intra-DG administration of 1μl of atropine (1.0μg/μl) showed exactly the opposite effects. According to the above experimental results, we can presume that cholinergic pain-related neurons in DG are involved in the modulation of the nociceptive response by affecting the discharge of PEN and PIN. [Copyright &y& Elsevier]

Published

2009

2. Morphine dependence changes the role of droperidol on pain-related electric activities in caudate nucleus

Author

Zhang, Ying, Yang, Chunxiao, Xu, Xianzhang, Jiao, Runsheng, Jin, Hongbo, Lv, Yanhong, Yang, Huike, and Xu, Manying

Subjects

*NERVOUS system, *MURIDAE, *NEUROTRANSMITTER receptors, *BIOCHEMISTRY

Abstract

Abstract: Droperidol causes the blockage of the dopamine receptors in the central nervous system that are involved in pain transmission. However, the mechanism of action of droperidol in pain-related neurons is not clear, and it is still unknown whether opioids are involved in the modulation of this processing. The present study examines the effect of droperidol on the pain-evoked response of pain-excitation neurons (PENs) and pain-inhibition neurons (PINs) in the caudate nucleus (Cd) of rats. The trains of electric impulses applied to the sciatic nerve were used as noxious stimulation. Our results revealed that droperidol decreased the frequency of PEN discharge, and increased the frequency PIN discharge evoked by the noxious stimulation in the Cd of normal rats, while administration of droperidol to morphine-dependent rats produced the opposite response. Those demonstrated that droperidol is involved in the modulation of nociceptive information transmission in Cd, and there were completely opposite responses to painful stimulation between normal and morphine-dependent rats after administration of droperidol. [Copyright &y& Elsevier]

Published

2008