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September 3rd, 2025
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University of Virginia
cell biology
bioRxiv

Late endosome transport by RILP-RAB7A promotes dendrite arborization

Yap, C. C.Open in Google Scholar•Digilio, L.Open in Google Scholar•McMahon, L. P.Open in Google Scholar•Mulligan, R. J.Open in Google Scholar•Witteveen, I. F.Open in Google Scholar•Winckler, B.Open in Google Scholar

Vesicular transport along dendrites is well documented. Yet, the need for and regulation of directional dendritic transport is less well understood. One known example of directional dendritic transport are late endosomes moving retrogradely in dendrites towards the soma for the purpose of fusing with lysosomes for degradation. RAB7A and dynein have been shown to be required for late endosome motility and degradation, but the RAB7 effector responsible for late endosome motility in dendrites is not known. RILP is an established dynein-interacting RAB7A effector. In addition to dynein, RILP also binds the fusion complex HOPS. In this work, we use a separation-of-function mutant of RAB7A (RAB7A-L8A) which is not capable of binding to RILP but retains other effector interactions. Our data implicate endogenous RILP as a functional RAB7A-dependent late endosome adaptor for dynein motility in dendrites. It also promotes carrier formation. Since RILP also binds in a complex with RAB7A and HOPS, we expected to see fusion defects with lysosomes and impaired degradation. Surprisingly, lysosomal fusion and somatic degradation do not require RAB7A-RILP interactions. Despite the near normal degradation in RAB7A-L8A expressing neurons, dendrite arborization is impaired. RILP-RAB7A thus promotes dendrite arborization via promoting retrograde late endosome carrier formation and transport.

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