JIP1 regulates the directionality of APP axonal transport by coordinating kinesin and dynein motors
Meng-meng Fu,Erika L.F. Holzbaur +1 more
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TLDR
Phosphorylation of the scaffolding protein JIP1 serves as a molecular switch to coordinate anterograde and retrograde microtubule motor complexes involved in amyloid precursor protein transport.Abstract:
Regulation of the opposing kinesin and dynein motors that drive axonal transport is essential to maintain neuronal homeostasis. Here, we examine coordination of motor activity by the scaffolding protein JNK-interacting protein 1 (JIP1), which we find is required for long-range anterograde and retrograde amyloid precursor protein (APP) motility in axons. We identify novel interactions between JIP1 and kinesin heavy chain (KHC) that relieve KHC autoinhibition, activating motor function in single molecule assays. The direct binding of the dynactin subunit p150Glued to JIP1 competitively inhibits KHC activation in vitro and disrupts the transport of APP in neurons. Together, these experiments support a model whereby JIP1 coordinates APP transport by switching between anterograde and retrograde motile complexes. We find that mutations in the JNK-dependent phosphorylation site S421 in JIP1 alter both KHC activation in vitro and the directionality of APP transport in neurons. Thus phosphorylation of S421 of JIP1 serves as a molecular switch to regulate the direction of APP transport in neurons.read more
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Reconsideration of Amyloid Hypothesis and Tau Hypothesis in Alzheimer's Disease
Fuyuki Kametani,Masato Hasegawa +1 more
TL;DR: Recent findings indicate that the main factor underlying the development and progression of AD is tau, not Aβ, and the deficiencies of the amyloid hypothesis are described.
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Axonal transport: cargo-specific mechanisms of motility and regulation
TL;DR: An overview of axonal transport pathways is provided and their role in neuronal function is discussed and Retrograde transport, which plays a major role in neurotrophic and injury response signaling, is discussed.
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The cytoplasmic dynein transport machinery and its many cargoes.
Samara L. Reck-Peterson,William B. Redwine,William B. Redwine,Ronald D. Vale,Andrew P. Carter +4 more
TL;DR: This work focuses on interphase cargoes of dynein, which include membrane-bound organelles, RNAs, protein complexes and viruses, and indicates how adaptor proteins play an important role in this process.
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Bidirectional cargo transport: moving beyond tug of war.
TL;DR: Three classes of bidirectional transport models — microtubule tethering, mechanical activation and steric disinhibition — are proposed, and a general mathematical modelling framework forbidirectional cargo transport is put forward to guide future experiments.
References
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Axonopathy and transport deficits early in the pathogenesis of Alzheimer's disease.
Gorazd B. Stokin,Concepción Lillo,Tomás L. Falzone,Richard G. Brusch,Edward Rockenstein,Stephanie L. Mount,Rema Raman,Peter Davies,Eliezer Masliah,David S. Williams,Lawrence S.B. Goldstein +10 more
TL;DR: Reductions in microtubule-dependent transport may stimulate proteolytic processing of β-amyloid precursor protein, resulting in the development of senile plaques and Alzheimer's disease.
Journal ArticleDOI
APP binds DR6 to trigger axon pruning and neuron death via distinct caspases
TL;DR: The results indicate that APP and DR6 are components of a neuronal self-destruction pathway, and suggest that an extracellular fragment of APP, acting via DR6 and caspase’6, contributes to Alzheimer’s disease.
Journal ArticleDOI
Molecular Motors in Neurons: Transport Mechanisms and Roles in Brain Function, Development, and Disease
TL;DR: Recent studies have begun to clarify the mechanisms of cargo selection and directional transport in subcellular compartments and molecular genetics has revealed unexpected roles for molecular motors in brain wiring, neuronal survival, neuronal plasticity, higher brain function, and control of central nervous system and peripheral nervous system development.
Journal ArticleDOI
Differential regulation of dynein and kinesin motor proteins by tau.
TL;DR: The differential modulation of dynein and kinesin motility suggests that MAPs can spatially regulate the balance of microtubule-dependent axonal transport.
Journal ArticleDOI
A cytoplasmic inhibitor of the JNK signal transduction pathway
Martin Dickens,Martin Dickens,Martin Dickens,Jeffrey Scott Rogers,Jeffrey Scott Rogers,Jeffrey Scott Rogers,Julie Cavanagh,Julie Cavanagh,Julie Cavanagh,Art Raitano,Art Raitano,Art Raitano,Zhengui Xia,Zhengui Xia,Zhengui Xia,Jocelyn R. Halpern,Jocelyn R. Halpern,Jocelyn R. Halpern,Michael E. Greenberg,Michael E. Greenberg,Michael E. Greenberg,Charles L. Sawyers,Charles L. Sawyers,Charles L. Sawyers,Roger J. Davis,Roger J. Davis,Roger J. Davis +26 more
TL;DR: This analysis identifies JIP-1 as a specific inhibitor of the JNK signal transduction pathway and establishes protein targeting as a mechanism that regulates signaling by stress-activated MAP kinases.