Abstract
Kinesin-1 is a molecular motor responsible for cargo transport along microtubules and plays critical roles in polarized cells, such as neurons. Kinesin-1 can function as a dimer of two kinesin heavy chains (KHC), which harbor the motor domain, or as a tetramer in combination with two accessory light chains (KLC). To ensure proper cargo distribution, kinesin-1 activity is precisely regulated. Both KLC and KHC subunits bind cargoes or regulatory proteins to engage the motor for movement along microtubules. We previously showed that the scaffolding protein JIP3 interacts directly with KHC in addition to its interaction with KLC and positively regulates dimeric KHC motility. Here we determined the stoichiometry of JIP3-KHC complexes and observed approximately four JIP3 molecules binding per KHC dimer. We then determined whether JIP3 activates tetrameric kinesin-1 motility. Using an in vitro motility assay, we show that JIP3 binding to KLC engages kinesin-1 with microtubules and that JIP3 binding to KHC promotes kinesin-1 motility along microtubules. We tested the in vivo relevance of these findings using axon elongation as a model for kinesin-1-dependent cellular function. We demonstrate that JIP3 binding to KHC, but not KLC, is essential for axon elongation in hippocampal neurons as well as axon regeneration in sensory neurons. These findings reveal that JIP3 regulation of kinesin-1 motility is critical for axon elongation and regeneration.
Highlights
Axon growth and regeneration depend on kinesin-1-dependent transport
We previously showed that the scaffolding protein JIP3 interacts directly with kinesin heavy chains (KHC) in addition to its interaction with KLC and positively regulates dimeric KHC motility
These findings reveal that JIP3 regulation of kinesin-1 motility is critical for axon elongation and regeneration
Summary
Axon growth and regeneration depend on kinesin-1-dependent transport. Results: JIP3 binding to KHC promotes kinesin-1 motility along microtubules and is essential for axon elongation and regeneration. We previously showed that the c-Jun N-terminal kinase (JNK)-interacting protein 3, JIP3 ( known as JSAP1 or Sunday Driver) interacts with both KHC and KLC and promotes motility of dimeric KHC in vitro [5], suggesting that JIP3 regulates kinesin-1 motility in axons. In agreement with this notion, previous studies have shown that JIP3 mutation leads to axonal transport defects in Caenorhabditis elegans [41,42,43] and Drosophila melanogaster [44]. We sought to directly determine whether JIP3 regulates tetrameric kinesin-1 in vitro and how JIP3 interaction with kinesin-1 subunits regulates axon elongation
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