Mitsuo Ikebe scite author profile

Summary Learning-related plasticity at excitatory synapses in the mammalian brain requires the trafficking of AMPA receptors and the growth of dendritic spines. However, the mechanisms that couple plasticity stimuli to the trafficking of postsynaptic cargo are poorly understood. Here we demonstrate that myosin Vb (MyoVb), a Ca2+-sensitive motor, conducts spine trafficking during long-term potentiation (LTP) of synaptic strength. Upon activation of NMDA receptors and corresponding Ca2+ influx, MyoVb associates with recycling endosomes (REs), triggering rapid spine recruitment of endosomes and local exocytosis in spines. Disruption of MyoVb or its interaction with the RE adaptor Rab11-FIP2 abolishes LTP-induced exocytosis from REs and prevents both AMPA receptor insertion and spine growth. Furthermore, induction of tight binding of MyoVb to actin using an acute chemical genetic strategy eradicates LTP in hippocampal slices. Thus, Ca2+-activated MyoVb captures and mobilizes of REs for AMPA receptor insertion and spine growth, providing a mechanistic link between the induction and expression of postsynaptic plasticity.

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The Chlamydomonas reinhardtii BBSome is an IFT cargo required for export of specific signaling proteins from flagella

Lechtreck

et al. 2009

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Head–Head and Head–Tail Interaction: A General Mechanism for Switching Off Myosin II Activity in Cells

Jung¹,

Komatsu

Ikebe

et al. 2008

MBoC

176

230

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Intramolecular interaction between myosin heads, blocking key sites involved in actin-binding and ATPase activity, appears to be a critical mechanism for switching off vertebrate smooth-muscle myosin molecules, leading to relaxation. We have tested the hypothesis that this interaction is a general mechanism for switching off myosin II-based motile activity in both muscle and nonmuscle cells. Electron microscopic images of negatively stained myosin II molecules were analyzed by single particle image processing. Molecules from invertebrate striated muscles with phosphorylation-dependent regulation showed head-head interactions in the off-state similar to those in vertebrate smooth muscle. A similar structure was observed in nonmuscle myosin II (also phosphorylation-regulated). Surprisingly, myosins from vertebrate skeletal and cardiac muscle, which are not intrinsically regulated, undergo similar head-head interactions in relaxing conditions. In all of these myosins, we also observe conserved interactions between the 'blocked' myosin head and the myosin tail, which may contribute to the switched-off state. These results suggest that intramolecular head-head and head-tail interactions are a general mechanism both for inducing muscle relaxation and for switching off myosin II-based motile activity in nonmuscle cells. These interactions are broken when myosin is activated.

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Myosin II activation promotes neurite retraction during the action of Rho and Rho‐kinase

et al. 1998

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Zipper-interacting Protein Kinase Induces Ca2+-free Smooth Muscle Contraction via Myosin Light Chain Phosphorylation

Niiro

Ikebe

2001

Journal of Biological Chemistry

166

205

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Mitsuo Ikebe

Myosin Vb Mobilizes Recycling Endosomes and AMPA Receptors for Postsynaptic Plasticity

The Chlamydomonas reinhardtii BBSome is an IFT cargo required for export of specific signaling proteins from flagella

Head–Head and Head–Tail Interaction: A General Mechanism for Switching Off Myosin II Activity in Cells

Myosin II activation promotes neurite retraction during the action of Rho and Rho‐kinase

Zipper-interacting Protein Kinase Induces Ca2+-free Smooth Muscle Contraction via Myosin Light Chain Phosphorylation

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