Sunday Driver links axonal transport to damage signaling
Publication date
2005-02
Authors
Cavalli, V.
Kujala, P.
Klumperman, J.
Goldstein, L.S.B.
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Article
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Abstract
Neurons transmit long-range biochemical signals between cell bodies and distant axonal sites or termini. To test the hypothesis that signaling molecules
are hitchhikers on axonal vesicles, we focused on the c-Jun NH 2-terminal kinase (JNK) scaffolding protein Sunday Driver (syd), which has been proposed to link the
molecular motor protein kinesin-1 to axonal vesicles. We found that syd and JNK3 are present on vesicular structures
in axons, are transported in both the anterograde and retrograde axonal transport pathways, and interact with kinesin-I and the dynactin complex. Nerve injury induces
local activation of JNK, primarily within axons,
and activated JNK and syd are then transported primarily
retrogradely. In axons, syd and activated JNK colocalize
with p150
Glued
, a subunit of the dynactin complex, and
with dynein. Finally, we found that injury induces an enhanced
interaction between syd and dynactin. Thus, a
mobile axonal JNK–syd complex may generate a transport-dependent axonal damage surveillance system.