Stress-induced vesicular assemblies of dual leucine zipper kinase are signaling hubs involved in kinase activation and neurodegeneration.

Elena Tortosa, Arundhati Sengupta Ghosh, Qingling Li, Weng Ruh Wong, Trent Hinkle, Wendy Sandoval, Christopher M Rose, Casper C Hoogenraad

The EMBO journal 2022 Jul 18

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Mitogen-activated protein kinases (MAPKs) drive key signaling cascades during neuronal survival and degeneration. The localization of kinases to specific subcellular compartments is a critical mechanism to locally control signaling activity and specificity upon stimulation. However, how MAPK signaling components tightly control their localization remains largely unknown. Here, we systematically analyzed the phosphorylation and membrane localization of all MAPKs expressed in dorsal root ganglia (DRG) neurons, under control and stress conditions. We found that MAP3K12/dual leucine zipper kinase (DLK) becomes phosphorylated and palmitoylated, and it is recruited to sphingomyelin-rich vesicles upon stress. Stress-induced DLK vesicle recruitment is essential for kinase activation; blocking DLK-membrane interaction inhibits downstream signaling, while DLK recruitment to ectopic subcellular structures is sufficient to induce kinase activation. We show that the localization of DLK to newly formed vesicles is essential for local signaling. Inhibition of membrane internalization blocks DLK activation and protects against neurodegeneration in DRG neurons. These data establish vesicular assemblies as dynamically regulated platforms for DLK signaling during neuronal stress responses. © 2022 Genentech Inc. Published under the terms of the CC BY NC ND 4.0 license.

Citation

Elena Tortosa, Arundhati Sengupta Ghosh, Qingling Li, Weng Ruh Wong, Trent Hinkle, Wendy Sandoval, Christopher M Rose, Casper C Hoogenraad. Stress-induced vesicular assemblies of dual leucine zipper kinase are signaling hubs involved in kinase activation and neurodegeneration. The EMBO journal. 2022 Jul 18;41(14):e110155