TWIK-1/TASK-3 heterodimeric channels contribute to the neurotensin-mediated excitation of hippocampal dentate gyrus granule cells

Authors
Choi, Jae HyoukYarishkin, OlegKim, EunjuBae, YeonjuKim, AjungKim, Seung-ChanRyoo, KanghyunChoi, Chang-HoonHwang, Eun MiPark, Jae-Yong
Issue Date
2018-11-12
Publisher
생화학분자생물학회
Citation
Experimental & Molecular Medicine, v.50
Abstract
Two-pore domain K+ (K2P) channels have been shown to modulate neuronal excitability. The physiological role of TWIK-1, the first identified K2P channel, in neuronal cells is largely unknown, and we reported previously that TWIK-1 contributes to the intrinsic excitability of dentate gyrus granule cells (DGGCs) in mice. In the present study, we investigated the coexpression of TWIK-1 and TASK-3, another K2P member, in DGGCs. Immunohistochemical staining data showed that TASK-3 proteins were highly localized in the proximal dendrites and soma of DGGCs, and this localization is similar to the expression pattern of TWIK-1. TWIK-1 was shown to associate with TASK-3 in DGGCs of mouse hippocampus and when both genes were overexpressed in COS-7 cells. shRNA-mediated gene silencing demonstrated that TWIK-1/TASK-3 heterodimeric channels displayed outwardly rectifying currents and contributed to the intrinsic excitability of DGGCs. Neurotensin-neurotensin receptor 1 (NT-NTSR1) signaling triggered the depolarization of DGGCs by inhibiting TWIK-1/TASK-3 heterodimeric channels, causing facilitated excitation of DGGCs. Taken together, our study clearly showed that TWIK-1/TASK-3 heterodimeric channels contribute to the intrinsic excitability of DGGCs and that their activities are regulated by NT-NTSR1 signaling.
Keywords
TWIK-1 K+ CHANNEL; FUNCTIONAL HETERODIMERS; SUBUNITS; TASK-3; K2P1; EXCITABILITY; EXPRESSION; RECEPTORS; SUBICULUM; PROTEINS; TWIK-1 K+ CHANNEL; FUNCTIONAL HETERODIMERS; SUBUNITS; TASK-3; K2P1; EXCITABILITY; EXPRESSION; RECEPTORS; SUBICULUM; PROTEINS
ISSN
1226-3613
URI
https://pubs.kist.re.kr/handle/201004/120684
DOI
10.1038/s12276-018-0172-4
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KIST Article > 2018
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