Rab14/MACF2 complex regulates endosomal targeting during cytokinesis

Abscission is a complex cellular process that is required for mitotic division. It is well established that coordinated and localized changes in actin and microtubule dynamics are vital for cytokinetic ring formation, as well as establishment of the abscission site. Actin cytoskeleton reorganization during abscission would not be possible without the interplay between Rab11- and Rab35-containing endosomes and their effector proteins, whose roles in regulating endocytic pathways at the cleavage furrow have now been studied extensively. Here, we identified Rab14 as a novel regulator of cytokinesis. We demonstrate that depletion of Rab14 causes either cytokinesis failure or significantly prolongs division time. We show that Rab14 contributes to the efficiency of recruiting Rab11-endosomes to the thin intracellular bridge (ICB) microtubules and that Rab14 knockout leads to inhibition of actin clearance at the abscission site. Finally, we demonstrate that Rab14 binds to microtubule minus-end interacting MACF2/CAMSAP3 complex and that this binding affects targeting of endosomes to the ICB microtubules. Collectively, our data identified Rab14 and MACF2/CAMSAP3 as proteins that regulate actin depolymerization and endosome targeting during cytokinesis.

Automated summary

The study identified Rab14 as a novel regulator of cytokinesis that contributes to the efficiency of recruiting Rab11-endosomes to the thin intracellular bridge (ICB) microtubules and affects actin clearance at the abscission site. Furthermore, Rab14 was found to bind to microtubule minus-end interacting MACF2/CAMSAP3 complex, influencing the targeting of endosomes to the ICB microtubules during cytokinesis.