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mGlu1 receptor mediates homeostatic control of intrinsic excitability through Ih in cerebellar Purkinje cells

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Title
mGlu1 receptor mediates homeostatic control of intrinsic excitability through Ih in cerebellar Purkinje cells
Author(s)
Hyun Geun Shim; Sung-Soo Jang; Dong cheol Jang; Yunju Jin; Wonseok Chang; Joo Min Park; Sang Jeong Kim
Publication Date
2016-05
Journal
JOURNAL OF NEUROPHYSIOLOGY, v.115, no.5, pp.2446 - 2455
Publisher
AMER PHYSIOLOGICAL SOC
Abstract
Homeostatic intrinsic plasticity is a cellular mechanism for maintaining a stable neuronal activity level in response to developmental or activity-dependent changes. Type 1 metabotropic glutamate receptor (mGlu1 receptor) has been widely known to monitor neuronal activity, which plays a role as a modulator of intrinsic and synaptic plasticity of neurons. Whether mGlu1 receptor contributes to the compensatory adjustment of Purkinje cells (PCs), the sole output of the cerebellar cortex, in response to chronic changes in excitability remains unclear. Here, we demonstrate that the mGlu1 receptor is involved in homeostatic intrinsic plasticity through the upregulation of the hyperpolarization- activated current (Ih) in cerebellar PCs. This plasticity was prevented by inhibiting the mGlu1 receptor with Bay 36-7620, an mGlu1 receptor inverse agonist, but not with CPCCOEt, a neutral antagonist. Chronic inactivation with tetrodotoxin (TTX) increased the components of Ih in the PCs, and ZD 7288, a hyperpolarizationactivated cyclic nucleotide-gated channel selective inhibitor, fully restored reduction of firing rates in the deprived neurons. The homeostatic elevation of Ih was also prevented by BAY 36-7620, but not CPCCOEt. Furthermore, KT 5720, a blocker of protein kinase A (PKA), prevented the effect of TTX reducing the evoked firing rates, indicating the reduction in excitability of PCs due to PKA activation. Our study shows that both the mGlu1 receptor and the PKA pathway are involved in the homeostatic intrinsic plasticity of PCs after chronic blockade of the network activity, which provides a novel understanding on how cerebellar PCs can preserve the homeostatic state under activity-deprived conditions. © 2016 the American Physiological Society
URI
https://pr.ibs.re.kr/handle/8788114/3003
DOI
10.1152/jn.00566.2015
ISSN
0022-3077
Appears in Collections:
Center for Cognition and Sociality(인지 및 사회성 연구단) > Cognitive Glioscience Group(인지 교세포과학 그룹) > 1. Journal Papers (저널논문)
Center for Cognition and Sociality(인지 및 사회성 연구단) > 1. Journal Papers (저널논문)
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