Litcius/Paper detail

JIP3 interacts with dynein and kinesin-1 to regulate bidirectional organelle transport

Ricardo Celestino, José B. Gama, Artur F. Castro-Rodrigues, Daniel José Barbosa, Hélder Rocha, Ennio d’Amico, Andrea Musacchio, Ana Xavier Carvalho, João H. Morais‐Cabral, Reto Gassmann

2022The Journal of Cell Biology55 citationsDOIOpen Access PDF

Abstract

The MAP kinase and motor scaffold JIP3 prevents excess lysosome accumulation in axons of vertebrates and invertebrates. How JIP3's interaction with dynein and kinesin-1 contributes to organelle clearance is unclear. We show that human dynein light intermediate chain (DLIC) binds the N-terminal RH1 domain of JIP3, its paralog JIP4, and the lysosomal adaptor RILP. A point mutation in RH1 abrogates DLIC binding without perturbing the interaction between JIP3's RH1 domain and kinesin heavy chain. Characterization of this separation-of-function mutation in Caenorhabditis elegans shows that JIP3-bound dynein is required for organelle clearance in the anterior process of touch receptor neurons. Unlike JIP3 null mutants, JIP3 that cannot bind DLIC causes prominent accumulation of endo-lysosomal organelles at the neurite tip, which is rescued by a disease-associated point mutation in JIP3's leucine zipper that abrogates kinesin light chain binding. These results highlight that RH1 domains are interaction hubs for cytoskeletal motors and suggest that JIP3-bound dynein and kinesin-1 participate in bidirectional organelle transport.

Topics & Concepts

DyneinKinesinCell biologyOrganelleMicrotubuleBiologyCaenorhabditis elegansBiochemistryGeneMicrotubule and mitosis dynamicsCellular transport and secretionRetinal Development and Disorders