Axonal transport of CHMP2b is regulated by kinesin-binding protein and disrupted by CHMP2bintron5
Konner R Kirwan, Veria Puerta-Alvarado, Clarissa L Waites

TL;DR
This study shows how a mutation in CHMP2b disrupts its transport in neurons, leading to presynaptic dysfunction linked to frontotemporal dementia.
Contribution
The study identifies kinesin-binding protein as a regulator of CHMP2b transport and reveals how the CHMP2bintron5 mutation disrupts this process.
Findings
CHMP2b transport and synaptic localization are regulated by neuronal activity and kinesin-binding protein.
The CHMP2bintron5 mutation causes abnormal transport and synaptic mislocalization of CHMP2b.
Deficient binding to kinesin-binding protein explains the disrupted transport of CHMP2bintron5.
Abstract
This study investigates the axonal trafficking of the ESCRT-III protein CHMP2b and shows how the frontotemporal dementia–causative CHMP2bintron5 mutation disrupts its transport and synaptic localization. CHMP2b is a core component of the ESCRT pathway that catalyzes formation of multivesicular bodies for endolysosomal protein degradation. Although mutation/loss-of-function of CHMP2b promotes presynaptic dysfunction and degeneration, indicating its critical role in presynaptic protein homeostasis, the mechanisms responsible for CHMP2b localization and recruitment to synapses remain unclear. Here, we characterize CHMP2b axonal trafficking and show that its transport and recruitment to presynaptic boutons, as well as its cotransport with other ESCRT proteins, are regulated by neuronal activity. In contrast, the frontotemporal dementia–causative CHMP2bintron5 mutation exhibits little…
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Taxonomy
TopicsCellular transport and secretion · Lysosomal Storage Disorders Research · Autophagy in Disease and Therapy
