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References (41)
-
Q. Wan, Z. Xiong, H. Man, C. Ackerley, J. Braunton, Wei-yang Lu, L. Becker, J. Macdonald, Yu Wang (1997)
Recruitment of functional GABAA receptors to postsynaptic domains by insulinNature, 388
-
Qiang Zhou, Min‐Yi Xiao, R. Nicoll (2001)
Contribution of cytoskeleton to the internalization of AMPA receptors.Proceedings of the National Academy of Sciences of the United States of America, 98 3
-
I. Wickelgren (1998)
Tracking Insulin to the MindScience, 280
-
A. Terzic, Y. Kurachi (1996)
Actin microfilament disrupters enhance K(ATP) channel opening in patches from guinea‐pig cardiomyocytes.The Journal of Physiology, 492
-
K. Heidenreich, G. Vellis, P. Gilmore (1988)
Functional Properties of the Subtype of Insulin Receptor Found on NeuronsJournal of Neurochemistry, 51
-
Qing-hua Wang, Lidong Liu, L. Pei, W. Ju, G. Ahmadian, Jie Lu, Yushan Wang, Fang Liu, Yu Wang (2003)
Control of Synaptic Strength, a Novel Function of AktNeuron, 38
-
W. Zhao, H. Chen, H. Xu, E. Moore, N. Meiri, M. Quon, D. Alkon (1999)
Brain Insulin Receptors and Spatial MemoryThe Journal of Biological Chemistry, 274
-
G. Nebl, Sabine Fischer, R. Penzel, Y. Samstag (2004)
Dephosphorylation of cofilin is regulated through Ras and requires the combined activities of the Ras-effectors MEK and PI3K.Cellular signalling, 16 2
-
Hua Hu, Li-Rong Shao, Sorush Chavoshy, Ning Gu, M. Trieb, R. Behrens, P. Laake, O. Pongs, H. Knaus, O. Ottersen, J. Storm (2001)
Presynaptic Ca2+-Activated K+ Channels in Glutamatergic Hippocampal Terminals and Their Role in Spike Repolarization and Regulation of Transmitter ReleaseThe Journal of Neuroscience, 21
-
Christian Rosenmund, G. Westbrook (1993)
Calcium-induced actin depolymerization reduces NMDA channel activityNeuron, 10
-
L. Tian, Lie Chen, H. McClafferty, C. Sailer, P. Ruth, H. Knaus, M. Shipston (2006)
A noncanonical SH3 domain binding motif links BK channels to the actin cytoskeleton via the SH3 adapter cortactinThe FASEB Journal, 20
-
B. Cohen, D. Novick, M. Rubinstein (1996)
Modulation of Insulin Activities by LeptinScience, 274
-
L. Shanley, D. O’Malley, A. Irving, M. Ashford, J. Harvey (2002)
Leptin inhibits epileptiform‐like activity in rat hippocampal neurones via PI 3‐kinase‐driven activation of BK channelsThe Journal of Physiology, 545
-
D. Spanswick, M. Smith, V. Groppi, S. Logan, Michael Ashford (1997)
Leptin inhibits hypothalamic neurons by activation of ATP-sensitive potassium channelsNature, 390
-
G. Pawlak, D. Helfman (2002)
MEK Mediates v-Src-induced Disruption of the Actin Cytoskeleton via Inactivation of the Rho-ROCK-LIM Kinase Pathway*The Journal of Biological Chemistry, 277
-
Hao Huang, Yan Rao, P. Sun, L. Gong (2002)
Involvement of actin cytoskeleton in modulation of Ca2+-activated K+ channels from rat hippocampal CA1 pyramidal neuronsNeuroscience Letters, 332
-
H. Kutsuna, Kenichi Suzuki, N. Kamata, Takayuki Kato, F. Hato, K. Mizuno, Hiromi Kobayashi, M. Ishii, S. Kitagawa (2004)
Actin reorganization and morphological changes in human neutrophils stimulated by TNF, GM-CSF, and G-CSF: the role of MAP kinases.American journal of physiology. Cell physiology, 286 1
-
L. Plum, M. Schubert, J. Brüning (2005)
The role of insulin receptor signaling in the brainTrends in Endocrinology & Metabolism, 16
-
Lifei Liu, J. Brown, W. Webster, R. Morrisett, D. Monaghan (1995)
Insulin potentiates N-methyl-d-aspartate receptor activity in Xenopus oocytes and rat hippocampusNeuroscience Letters, 192
-
P. Janmey (1998)
The cytoskeleton and cell signaling: component localization and mechanical coupling.Physiological reviews, 78 3
-
B. Lancaster, R. Nicoll (1987)
Properties of two calcium‐activated hyperpolarizations in rat hippocampal neurones.The Journal of Physiology, 389
-
L. Piao, W. Ho, Y. Earm (2003)
Actin filaments regulate the stretch sensitivity of large-conductance, Ca2+-activated K+ channels in coronary artery smooth muscle cellsPflügers Archiv, 446
-
M. Schwartz, S. Woods, D. Porte, R. Seeley, D. Baskin (2000)
Central nervous system control of food intakeNature, 404
-
S. Mirshamsi, H. Laidlaw, K. Ning, E. Anderson, L. Burgess, A. Gray, C. Sutherland, M. Ashford (2004)
Leptin and insulin stimulation of signalling pathways in arcuate nucleus neurones: PI3K dependent actin reorganization and KATP channel activationBMC Neuroscience, 5
-
D. O’Malley, L. Shanley, J. Harvey (2003)
Insulin inhibits rat hippocampal neurones via activation of ATP-sensitive K+ and large conductance Ca2+-activated K+ channelsNeuropharmacology, 44
-
D. Spanswick, M. Smith, S. Mirshamsi, V. Routh, V. Routh, Michael Ashford (2000)
Insulin activates ATP-sensitive K+ channels in hypothalamic neurons of lean, but not obese ratsNature Neuroscience, 3
-
B. Rácz, R. Weinberg (2004)
The Subcellular Organization of Cortactin in HippocampusThe Journal of Neuroscience, 24
-
J. Harvey, M. Ashford (1998)
Insulin occludes leptin activation of ATP‐sensitive K+ channels in rat CRI‐G1 insulin secreting cellsThe Journal of Physiology, 511
-
F. Folli, L. Bonfanti, E. Renard, C. Kahn, A. Merighi (1994)
Insulin receptor substrate-1 (IRS-1) distribution in the rat central nervous system, 14
-
M. Bubb, A. Senderowicz, E. Sausville, K. Duncan, E. Korn (1994)
Jasplakinolide, a cytotoxic natural product, induces actin polymerization and competitively inhibits the binding of phalloidin to F-actin.The Journal of biological chemistry, 269 21
-
Lori Christerson, C. Vanderbilt, Melanie Cobb (1999)
MEKK1 interacts with alpha-actinin and localizes to stress fibers and focal adhesions.Cell motility and the cytoskeleton, 43 3
-
K. Tobe, S. Asai, K. Matuoka, Tadashi Yamamoto, K. Chida, Y. Kaburagi, Y. Akanuma, T. Kuroki, T. Takenawa, S. Kimura, R. Nagai, T. Kadowaki (2003)
Cytoskeletal reorganization induced by insulin: involvement of Grb2/Ash, Ras and phosphatidylinositol 3‐kinase signallingGenes to Cells, 8
-
L. Shanley, A. Irving, M. Rae, M. Ashford, J. Harvey (2002)
Leptin inhibits rat hippocampal neurons via activation of large conductance calcium-activated K+ channelsNature Neuroscience, 5
-
D. O’Malley, J. Harvey (2004)
Insulin activates native and recombinant large conductance Ca(2+)-activated potassium channels via a mitogen-activated protein kinase-dependent process.Molecular pharmacology, 65 6
-
C. Pritchard, Louise Hayes, L. Wojnowski, A. Zimmer, R. Marais, J. Norman (2004)
B-Raf Acts via the ROCKII/LIMK/Cofilin Pathway To Maintain Actin Stress Fibers in FibroblastsMolecular and Cellular Biology, 24
-
D. O’Malley, A. Irving, J. Harvey (2005)
Leptin‐induced dynamic changes in the actin cytoskeleton mediate the activation and synaptic clustering of BK channelsThe FASEB Journal, 19
-
Wei⁃qin Zhao, D. Alkon (2001)
Role of insulin and insulin receptor in learning and memoryMolecular and Cellular Endocrinology, 177
-
V. Skeberdis, J. Lan, Xin Zheng, R. Zukin, M. Bennett (2001)
Insulin promotes rapid delivery of N-methyl-d- aspartate receptors to the cell surface by exocytosisProceedings of the National Academy of Sciences of the United States of America, 98
-
J. Harvey, S. Hardy, A. Irving, M. Ashford (2000)
Leptin activation of ATP‐sensitive K+ (KATP) channels in rat CRI‐G1 insulinoma cells involves disruption of the actin cytoskeletonThe Journal of Physiology, 527
-
D. Cantrell (2001)
Phosphoinositide 3-kinase signalling pathways.Journal of cell science, 114 Pt 8
-
W. Gispen, G. Biessels (2000)
Cognition and synaptic plasticity in diabetes mellitusTrends in Neurosciences, 23
- Publisher
- Wiley
- Copyright
- Copyright © 2007 Wiley Subscription Services, Inc., A Wiley Company
- ISSN
- 0953-816X
- eISSN
- 1460-9568
- DOI
- 10.1111/j.1460-9568.2007.05347.x
- pmid
- 17298596
- Publisher site
- See Article on Publisher Site
Abstract
Numerous brain regions are enriched with insulin and insulin receptors, and several lines of evidence indicate that insulin is an important modulator of neuronal function. Indeed, recent studies have demonstrated that insulin inhibits hippocampal epileptiform‐like activity, in part by activating large‐conductance Ca2+‐activated potassium (BK) channels. Moreover, the mitogen‐activated protein kinase (MAPK) signalling cascade has been found to couple insulin to BK channel activation. However, the cellular events downstream of MAPK that underlie this action of insulin are unknown. Here we demonstrate that in hippocampal neurons, BK channel activation by insulin is blocked by actin filament stabilization, suggesting that this process is dependent on the actin cytoskeleton. Stabilizing actin filaments also markedly attenuated the ability of insulin to inhibit the aberrant hippocampal synaptic activity evoked following Mg2+ removal. Insulin also promoted rapid reorganization of fluorescently labelled polymerized actin filaments; an action that was prevented by inhibitors of MAPK activation. Moreover, in parallel studies, insulin increased the level of phospho‐MAPK immunostaining in hippocampal neurons. These data are consistent with BK channel activation by insulin involving MAPK‐dependent alterations in actin dynamics. This process may have important implications for the role of insulin in regulating hippocampal excitability.
Journal
European Journal of Neuroscience – Wiley
Published: Feb 1, 2007