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Literature DB >> 20442266

Regulation of AMPA receptor channels and synaptic plasticity by cofilin phosphatase Slingshot in cortical neurons.

Eunice Y Yuen¹, Wenhua Liu, Tal Kafri, Henriette van Praag, Zhen Yan.

Abstract

Cofilin, the major actin depolymerizing factor, modulates actin dynamics that contribute to spine morphology, synaptic transmission and plasticity. Much evidence implicates the cofilin inactivation kinase LIMK in synaptic function, but little is known about the cofilin activation phosphatase Slingshot in this regard. In this study, we found that suppressing endogenous Slingshot with small RNA interference or function-blocking antibody led to a dramatic reduction of AMPA receptor-mediated excitatory postsynaptic currents (EPSCs) in cortical neurons. Perturbation of Slingshot function also diminished the ability to express synaptic plasticity. Inactivating cofilin or disturbing actin dynamics reduced AMPAR-EPSCs in a Slingshot-dependent manner. Moreover, surface GluR 1 and synaptic GluR2/3 clusters were reduced by Slingshot knockdown. Our data suggest that Slingshot plays a pivotal role in AMPAR trafficking and synaptic transmission by controlling actin cytoskeleton via cofilin activation.

Entities: Gene Species

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Year: 2010 PMID： 20442266 PMCID： PMC2915513 DOI： 10.1113/jphysiol.2009.186353

Source DB: PubMed Journal: J Physiol ISSN： 0022-3751 Impact factor: 5.182

36 in total

1. Regulation of AMPA receptor GluR1 subunit surface expression by a 4. 1N-linked actin cytoskeletal association.

Authors: L Shen; F Liang; L D Walensky; R L Huganir
Journal: J Neurosci Date: 2000-11-01 Impact factor: 6.167

2. Regulation of AMPA receptor endocytosis by a signaling mechanism shared with LTD.

Authors: E C Beattie; R C Carroll; X Yu; W Morishita; H Yasuda; M von Zastrow; R C Malenka
Journal: Nat Neurosci Date: 2000-12 Impact factor: 24.884

3. Phosphorylation of cofilin by LIM-kinase is necessary for semaphorin 3A-induced growth cone collapse.

Authors: H Aizawa; S Wakatsuki; A Ishii; K Moriyama; Y Sasaki; K Ohashi; Y Sekine-Aizawa; A Sehara-Fujisawa; K Mizuno; Y Goshima; I Yahara
Journal: Nat Neurosci Date: 2001-04 Impact factor: 24.884

Review 4. AMPA receptor trafficking and synaptic plasticity.

Authors: Roberto Malinow; Robert C Malenka
Journal: Annu Rev Neurosci Date: 2002-03-04 Impact factor: 12.449

5. Abnormal spine morphology and enhanced LTP in LIMK-1 knockout mice.

Authors: Yanghong Meng; Yu Zhang; Vitali Tregoubov; Christopher Janus; Luis Cruz; Mike Jackson; Wei Yang Lu; John F MacDonald; Jay Y Wang; Douglas L Falls; Zhengping Jia
Journal: Neuron Date: 2002-07-03 Impact factor: 17.173

6. A labile component of AMPA receptor-mediated synaptic transmission is dependent on microtubule motors, actin, and N-ethylmaleimide-sensitive factor.

Authors: C H Kim; J E Lisman
Journal: J Neurosci Date: 2001-06-15 Impact factor: 6.167

Review 7. Actin binding proteins: regulation of cytoskeletal microfilaments.

Authors: C G dos Remedios; D Chhabra; M Kekic; I V Dedova; M Tsubakihara; D A Berry; N J Nosworthy
Journal: Physiol Rev Date: 2003-04 Impact factor: 37.312

8. Control of actin reorganization by Slingshot, a family of phosphatases that dephosphorylate ADF/cofilin.

Authors: Ryusuke Niwa; Kyoko Nagata-Ohashi; Masatoshi Takeichi; Kensaku Mizuno; Tadashi Uemura
Journal: Cell Date: 2002-01-25 Impact factor: 41.582

9. PKA phosphorylation of AMPA receptor subunits controls synaptic trafficking underlying plasticity.

Authors: José A Esteban; Song-Hai Shi; Christopher Wilson; Mutsuo Nuriya; Richard L Huganir; Roberto Malinow
Journal: Nat Neurosci Date: 2003-02 Impact factor: 24.884

10. Contribution of cytoskeleton to the internalization of AMPA receptors.

Authors: Q Zhou; M Xiao; R A Nicoll
Journal: Proc Natl Acad Sci U S A Date: 2001-01-23 Impact factor: 11.205

29 in total

Review 1. Interacting partners of AMPA-type glutamate receptors.

Authors: Juan Cheng; Jie Dong; Yaxuan Cui; Liecheng Wang; Bei Wu; Chen Zhang
Journal: J Mol Neurosci Date: 2012-02-24 Impact factor: 3.444

Review 2. Role of phosphoinositides at the neuronal synapse.

Authors: Samuel G Frere; Belle Chang-Ileto; Gilbert Di Paolo
Journal: Subcell Biochem Date: 2012

3. Morphological and molecular changes in aging rat prelimbic prefrontal cortical synapses.

Authors: Erik B Bloss; Rishi Puri; Frank Yuk; Michael Punsoni; Yuko Hara; William G Janssen; Bruce S McEwen; John H Morrison
Journal: Neurobiol Aging Date: 2012-06-22 Impact factor: 4.673

4. EphA signaling promotes actin-based dendritic spine remodeling through slingshot phosphatase.

Authors: Lei Zhou; Emma V Jones; Keith K Murai
Journal: J Biol Chem Date: 2012-01-26 Impact factor: 5.157

5. Amyloid beta peptide-(1-42) induces internalization and degradation of beta2 adrenergic receptors in prefrontal cortical neurons.

Authors: Dayong Wang; Eunice Y Yuen; Yuan Zhou; Zhen Yan; Yang K Xiang
Journal: J Biol Chem Date: 2011-07-11 Impact factor: 5.157

6. Chemogenetic Activation of Prefrontal Cortex Rescues Synaptic and Behavioral Deficits in a Mouse Model of 16p11.2 Deletion Syndrome.

Authors: Wei Wang; Benjamin Rein; Freddy Zhang; Tao Tan; Ping Zhong; Luye Qin; Zhen Yan
Journal: J Neurosci Date: 2018-05-31 Impact factor: 6.167