Thyrotropin-releasing hormone increases GABA release in rat hippocampus

Authors
Deng, Pan-YuePorter, James E.Shin, Hee-SupLei, Saobo
Issue Date
2006-12-01
Publisher
WILEY
Citation
JOURNAL OF PHYSIOLOGY-LONDON, v.577, no.2, pp.497 - 511
Abstract
Thyrotropin-releasing hormone (TRH) is a tripeptide that is widely distributed in the brain including the hippocampus where TRH receptors are also expressed. TRH has anti-epileptic effects and regulates arousal, sleep, cognition, locomotion and mood. However, the cellular mechanisms underlying such effects remain to be determined. We examined the effects of TRH on GABAergic transmission in the hippocampus and found that TRH increased the frequency of GABA(A) receptor-mediated spontaneous IPSCs in each region of the hippocampus but had no effects on miniature IPSCs or evoked IPSCs. TRH increased the action potential firing frequency recorded from GABAergic interneurons in CA1 stratum radiatum and induced membrane depolarization suggesting that TRH increases the excitability of interneurons to facilitate GABA release. TRH-induced inward current had a reversal potential close to the K+ reversal potential suggesting that TRH inhibits resting K+ channels. The involved K+ channels were sensitive to Ba2+ but resistant to other classical K+ channel blockers, suggesting that TRH inhibits the two-pore domain K+ channels. Because the effects of TRH were mediated via G alpha(q/11), but were independent of its known downstream effectors, a direct coupling may exist between G alpha(q/11) and K+ channels. Inhibition of the function of dynamin slowed the desensitization of TRH responses. TRH inhibited seizure activity induced by Mg2+ deprivation, but not that generated by picrotoxin, suggesting that TRH-mediated increase in GABA release contributes to its anti-epileptic effects. Our results demonstrate a novel mechanism to explain some of the hippocampal actions of TRH.
Keywords
CENTRAL-NERVOUS-SYSTEM; K+ CHANNEL; POTASSIUM CHANNEL; PHOSPHOLIPASE-C; PITUITARY-CELLS; TASK-1 KCNK3; RECEPTORS; TRH; MOTONEURONS; MODULATION; CENTRAL-NERVOUS-SYSTEM; K+ CHANNEL; POTASSIUM CHANNEL; PHOSPHOLIPASE-C; PITUITARY-CELLS; TASK-1 KCNK3; RECEPTORS; TRH; MOTONEURONS; MODULATION
ISSN
0022-3751
URI
https://pubs.kist.re.kr/handle/201004/134832
DOI
10.1113/jphysiol.2006.118141
Appears in Collections:
KIST Article > 2006
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