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Ablation of TFR1 in Purkinje cells inhibits mGlu1 trafficking and impairs motor coordination, but not autistic-like behaviors

Onderzoeksgroep De Zeeuw
Publicatiejaar 2017
Gepubliceerd in The Journal of neuroscience : the official journal of the Society for Neuroscience
Auteur(s) Jia-Huan Zhou, Xin-Tai Wang, Liang Zhou, Lin Zhou, Fang-Xiao Xu, Li-Da Su, Hao Wang, Fan Jia, Fu-Qiang Xu, Gui-Quan Chen, C.I. De Zeeuw, Ying Shen

Group 1 metabotropic glutamate receptors (mGlu1/5) are critical to synapse formation and participate in synaptic long-term potentiation (LTP) and long-term depression (LTD) in the brain. mGlu1/5 signaling alterations have been documented in cognitive impairment, neurodegenerative disorders, and psychiatric diseases, but underlying mechanisms for its modulation are not clear. Here, we report that transferrin receptor 1 (TFR1), a trans-membrane protein of clathrin complex, modulates the trafficking of mGlu1 in cerebellar Purkinje cells (PCs) from male mice. We show that conditional knockout of TFR1 in PCs does not affect the cyto-architecture of PCs, but reduces mGlu1 expression at synapses. This regulation by TFR1 acts in concert with that by Rab8 and Rab11, which modulate the internalization and recycling of mGlu1, respectively. TFR1 can bind to Rab proteins and facilitate their expression at synapses. PC ablation of TFR1 inhibits parallel fiber-PC LTD, whereas parallel fiber-LTP and PC intrinsic excitability are not affected. Finally, we demonstrate that PC ablation of TFR1 impairs motor coordination, but does not affect social behaviors in mice. Together, these findings underscore the importance of TFR1 in regulating mGlu1 trafficking and suggest that mGlu1 and mGlu1-dependent parallel fiber-LTD are associated with regulation of motor coordination, but not autistic behaviors.Significance statementmGlu1/5 signaling alterations have been documented in cognitive impairment, neurodegenerative disorders and psychiatric diseases. Recent work suggests that altered mGlu1 signaling in PCs may be involved in not only motor learning, but also autistic-like behaviors. We find that conditional knockout of TFR1 in PCs reduces synaptic mGlu1 by tethering Rab8 and Rab11 in the cytosol. PC ablation of TFR1 inhibits parallel fiber-PC LTD, whereas parallel fiber-PC LTP and PC intrinsic excitability are intact. Motor coordination is impaired, but social behaviors are normal in TFR1(flox/flox);pCP2-cre mice. Our data reveal a new regulator for trafficking and synaptic expression of mGlu1 and suggest that mGlu1-dependent LTD is associated with motor coordination, but not autistic-like behaviors.

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