noncanonical SH3 domain binding motif links BK channels to the actin cytoskeleton via the SH3 adapter cortactin

Calcium-activated potassium (BK) channels play a central role in regulating multiple physiological processes, from the control of blood flow to neuronal excitability. Coordinated regulation of BK channel activity by changes in actin cytoskeleton dynamics has been implicated in several of these proce...

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Veröffentlicht in:	The FASEB journal 2006-12, Vol.20 (14), p.2588-2590
Hauptverfasser:	Tian, Lijun, Chen, Lie, McClafferty, Heather, Sailer, Claudia A, Ruth, Peter, Knaus, Hans-Guenther, Shipston, Michael J
Format:	Artikel
Sprache:	eng
Schlagworte:	Actins - metabolism Amino Acid Motifs Amino Acid Sequence Animals Cell Line Cortactin - chemistry Cortactin - metabolism Cytoskeleton - metabolism Hippocampus - cytology Humans KCNMA1 Large-Conductance Calcium-Activated Potassium Channels - chemistry Large-Conductance Calcium-Activated Potassium Channels - metabolism macromolecular signaling complex Mice Neurons - metabolism Protein Binding Src homology 3 domain src Homology Domains - physiology
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creator	Tian, Lijun Chen, Lie McClafferty, Heather Sailer, Claudia A Ruth, Peter Knaus, Hans-Guenther Shipston, Michael J
description	Calcium-activated potassium (BK) channels play a central role in regulating multiple physiological processes, from the control of blood flow to neuronal excitability. Coordinated regulation of BK channel activity by changes in actin cytoskeleton dynamics has been implicated in several of these processes and related disease states such as epilepsy and stroke. However, how BK channels interact with the actin cytoskeleton is essentially unknown. Here we demonstrate noncanonical Src homology domain 3 (SH3) binding site motifs in the intracellular C terminus of the BK channel pore-forming α-subunit that are conserved from fish to humans. These noncanonical motifs target multiple SH3 domain cellular signaling proteins to BK channels, including the SH3 adapter protein cortactin (EMS1). We demonstrate that cortactin provides a molecular bridge between BK channels and the cortical actin cytoskeleton in cells. Disruption of the SH3-mediated interaction prevents the regulation of BK channel activity controlled by changes in actin cytoskeletal dynamics. Targeting of cortactin to BK channels via a novel, noncanonical SH3 domain binding motif has important implications for the coordination of BK channel function in normal physiology and disease.--Tian, L., Chen, L., McClafferty, H., Sailer, C. A., Ruth, P., Knaus, H-G., Shipston, M. J. A noncanonical SH3 domain binding motif links BK channels to the actin cytoskeleton via the SH3 adapter cortactin.
doi_str_mv	10.1096/fj.06-6152fje
format	Article
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Coordinated regulation of BK channel activity by changes in actin cytoskeleton dynamics has been implicated in several of these processes and related disease states such as epilepsy and stroke. However, how BK channels interact with the actin cytoskeleton is essentially unknown. Here we demonstrate noncanonical Src homology domain 3 (SH3) binding site motifs in the intracellular C terminus of the BK channel pore-forming α-subunit that are conserved from fish to humans. These noncanonical motifs target multiple SH3 domain cellular signaling proteins to BK channels, including the SH3 adapter protein cortactin (EMS1). We demonstrate that cortactin provides a molecular bridge between BK channels and the cortical actin cytoskeleton in cells. Disruption of the SH3-mediated interaction prevents the regulation of BK channel activity controlled by changes in actin cytoskeletal dynamics. Targeting of cortactin to BK channels via a novel, noncanonical SH3 domain binding motif has important implications for the coordination of BK channel function in normal physiology and disease.--Tian, L., Chen, L., McClafferty, H., Sailer, C. A., Ruth, P., Knaus, H-G., Shipston, M. J. 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Coordinated regulation of BK channel activity by changes in actin cytoskeleton dynamics has been implicated in several of these processes and related disease states such as epilepsy and stroke. However, how BK channels interact with the actin cytoskeleton is essentially unknown. Here we demonstrate noncanonical Src homology domain 3 (SH3) binding site motifs in the intracellular C terminus of the BK channel pore-forming α-subunit that are conserved from fish to humans. These noncanonical motifs target multiple SH3 domain cellular signaling proteins to BK channels, including the SH3 adapter protein cortactin (EMS1). We demonstrate that cortactin provides a molecular bridge between BK channels and the cortical actin cytoskeleton in cells. Disruption of the SH3-mediated interaction prevents the regulation of BK channel activity controlled by changes in actin cytoskeletal dynamics. Targeting of cortactin to BK channels via a novel, noncanonical SH3 domain binding motif has important implications for the coordination of BK channel function in normal physiology and disease.--Tian, L., Chen, L., McClafferty, H., Sailer, C. A., Ruth, P., Knaus, H-G., Shipston, M. J. 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subjects	Actins - metabolism Amino Acid Motifs Amino Acid Sequence Animals Cell Line Cortactin - chemistry Cortactin - metabolism Cytoskeleton - metabolism Hippocampus - cytology Humans KCNMA1 Large-Conductance Calcium-Activated Potassium Channels - chemistry Large-Conductance Calcium-Activated Potassium Channels - metabolism macromolecular signaling complex Mice Neurons - metabolism Protein Binding Src homology 3 domain src Homology Domains - physiology
title	noncanonical SH3 domain binding motif links BK channels to the actin cytoskeleton via the SH3 adapter cortactin
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