Protein kinase C-dependent growth-associated protein 43 phosphorylation regulates gephyrin aggregation at Developing GABAergic synapses

Chen Yu Wang; Hui Ching Lin; Yi Ping Song; Yu Ting Hsu; Shu Yu Lin; Pei Chien Hsu; Chun Hua Lin; Chia Chi Hung; Min Ching Hsu; Yi Min Kuo; Yih Jing Lee; Chung Y. Hsu; Yi Hsuan Leea

doi:10.1128/MCB.01332-14

Protein kinase C-dependent growth-associated protein 43 phosphorylation regulates gephyrin aggregation at Developing GABAergic synapses

Chen Yu Wang, Hui Ching Lin, Yi Ping Song, Yu Ting Hsu, Shu Yu Lin, Pei Chien Hsu, Chun Hua Lin, Chia Chi Hung, Min Ching Hsu, Yi Min Kuo, Yih Jing Lee, Chung Y. Hsu, Yi Hsuan Leea^*

^*此作品的通信作者

生理學科暨研究所

研究成果: Article › 同行評審

17 引文斯高帕斯（Scopus）

摘要

Growth-associated protein 43 (GAP43) is known to regulate axon growth, but whether it also plays a role in synaptogenesis remains unclear. Here, we found that GAP43 regulates the aggregation of gephyrin, a pivotal protein for clustering postsynaptic GABA_A receptors (GABA_ARs), in developing cortical neurons. Pharmacological blockade of either protein kinase C (PKC) or neuronal activity increased both GAP43-gephyrin association and gephyrin misfolding-induced aggregation, suggesting the importance of PKC-dependent regulation of GABAergic synapses. Furthermore, we found that PKC phosphorylation-resistant GAP43^S41A, but not PKC phosphorylation-mimicking GAP43^S41D, interacted with cytosolic gephyrin to trigger gephyrin misfolding and its sequestration into aggresomes. In contrast, GAP43^S41D, but not GAP43^S41A, inhibited the physiological aggregation/clustering of gephyrin, reduced surface GABA_ARs under physiological conditions, and attenuated gephyrin misfolding under transient oxygen-glucose deprivation (tOGD) that mimics pathological neonatal hypoxia. Calcineurin-mediated GAP43 dephosphorylation that accompanied tOGD also led to GAP43-gephyrin association and gephyrin misfolding. Thus, PKC-dependent phosphorylation of GAP43 plays a critical role in regulating postsynaptic gephyrin aggregation in developing GABAergic synapses.

原文	English
頁（從 - 到）	1712-1726
頁數	15
期刊	Molecular and Cellular Biology
卷	35
發行號	10
DOIs	https://doi.org/10.1128/MCB.01332-14
出版狀態	Published - 2015

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Wang, C. Y., Lin, H. C., Song, Y. P., Hsu, Y. T., Lin, S. Y., Hsu, P. C., Lin, C. H., Hung, C. C., Hsu, M. C., Kuo, Y. M., Lee, Y. J., Hsu, C. Y., & Leea, Y. H. (2015). Protein kinase C-dependent growth-associated protein 43 phosphorylation regulates gephyrin aggregation at Developing GABAergic synapses. Molecular and Cellular Biology, 35(10), 1712-1726. https://doi.org/10.1128/MCB.01332-14

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title = "Protein kinase C-dependent growth-associated protein 43 phosphorylation regulates gephyrin aggregation at Developing GABAergic synapses",

abstract = "Growth-associated protein 43 (GAP43) is known to regulate axon growth, but whether it also plays a role in synaptogenesis remains unclear. Here, we found that GAP43 regulates the aggregation of gephyrin, a pivotal protein for clustering postsynaptic GABAA receptors (GABAARs), in developing cortical neurons. Pharmacological blockade of either protein kinase C (PKC) or neuronal activity increased both GAP43-gephyrin association and gephyrin misfolding-induced aggregation, suggesting the importance of PKC-dependent regulation of GABAergic synapses. Furthermore, we found that PKC phosphorylation-resistant GAP43S41A, but not PKC phosphorylation-mimicking GAP43S41D, interacted with cytosolic gephyrin to trigger gephyrin misfolding and its sequestration into aggresomes. In contrast, GAP43S41D, but not GAP43S41A, inhibited the physiological aggregation/clustering of gephyrin, reduced surface GABAARs under physiological conditions, and attenuated gephyrin misfolding under transient oxygen-glucose deprivation (tOGD) that mimics pathological neonatal hypoxia. Calcineurin-mediated GAP43 dephosphorylation that accompanied tOGD also led to GAP43-gephyrin association and gephyrin misfolding. Thus, PKC-dependent phosphorylation of GAP43 plays a critical role in regulating postsynaptic gephyrin aggregation in developing GABAergic synapses.",

author = "Wang, {Chen Yu} and Lin, {Hui Ching} and Song, {Yi Ping} and Hsu, {Yu Ting} and Lin, {Shu Yu} and Hsu, {Pei Chien} and Lin, {Chun Hua} and Hung, {Chia Chi} and Hsu, {Min Ching} and Kuo, {Yi Min} and Lee, {Yih Jing} and Hsu, {Chung Y.} and Leea, {Yi Hsuan}",

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year = "2015",

doi = "10.1128/MCB.01332-14",

language = "English",

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T1 - Protein kinase C-dependent growth-associated protein 43 phosphorylation regulates gephyrin aggregation at Developing GABAergic synapses

AU - Wang, Chen Yu

AU - Lin, Hui Ching

AU - Song, Yi Ping

AU - Hsu, Yu Ting

AU - Lin, Shu Yu

AU - Hsu, Pei Chien

AU - Lin, Chun Hua

AU - Hung, Chia Chi

AU - Hsu, Min Ching

AU - Kuo, Yi Min

AU - Lee, Yih Jing

AU - Hsu, Chung Y.

AU - Leea, Yi Hsuan

PY - 2015

Y1 - 2015

N2 - Growth-associated protein 43 (GAP43) is known to regulate axon growth, but whether it also plays a role in synaptogenesis remains unclear. Here, we found that GAP43 regulates the aggregation of gephyrin, a pivotal protein for clustering postsynaptic GABAA receptors (GABAARs), in developing cortical neurons. Pharmacological blockade of either protein kinase C (PKC) or neuronal activity increased both GAP43-gephyrin association and gephyrin misfolding-induced aggregation, suggesting the importance of PKC-dependent regulation of GABAergic synapses. Furthermore, we found that PKC phosphorylation-resistant GAP43S41A, but not PKC phosphorylation-mimicking GAP43S41D, interacted with cytosolic gephyrin to trigger gephyrin misfolding and its sequestration into aggresomes. In contrast, GAP43S41D, but not GAP43S41A, inhibited the physiological aggregation/clustering of gephyrin, reduced surface GABAARs under physiological conditions, and attenuated gephyrin misfolding under transient oxygen-glucose deprivation (tOGD) that mimics pathological neonatal hypoxia. Calcineurin-mediated GAP43 dephosphorylation that accompanied tOGD also led to GAP43-gephyrin association and gephyrin misfolding. Thus, PKC-dependent phosphorylation of GAP43 plays a critical role in regulating postsynaptic gephyrin aggregation in developing GABAergic synapses.

AB - Growth-associated protein 43 (GAP43) is known to regulate axon growth, but whether it also plays a role in synaptogenesis remains unclear. Here, we found that GAP43 regulates the aggregation of gephyrin, a pivotal protein for clustering postsynaptic GABAA receptors (GABAARs), in developing cortical neurons. Pharmacological blockade of either protein kinase C (PKC) or neuronal activity increased both GAP43-gephyrin association and gephyrin misfolding-induced aggregation, suggesting the importance of PKC-dependent regulation of GABAergic synapses. Furthermore, we found that PKC phosphorylation-resistant GAP43S41A, but not PKC phosphorylation-mimicking GAP43S41D, interacted with cytosolic gephyrin to trigger gephyrin misfolding and its sequestration into aggresomes. In contrast, GAP43S41D, but not GAP43S41A, inhibited the physiological aggregation/clustering of gephyrin, reduced surface GABAARs under physiological conditions, and attenuated gephyrin misfolding under transient oxygen-glucose deprivation (tOGD) that mimics pathological neonatal hypoxia. Calcineurin-mediated GAP43 dephosphorylation that accompanied tOGD also led to GAP43-gephyrin association and gephyrin misfolding. Thus, PKC-dependent phosphorylation of GAP43 plays a critical role in regulating postsynaptic gephyrin aggregation in developing GABAergic synapses.

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SN - 0270-7306

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ER -

Protein kinase C-dependent growth-associated protein 43 phosphorylation regulates gephyrin aggregation at Developing GABAergic synapses

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