Concerted action of kinesins KIF5B and KIF13B promotes efficient secretory vesicle transport to microtubule plus ends

Andrea Serra-Marques; Maud Martin; Eugene A Katrukha; Ilya Grigoriev; Cathelijn A.E. Peeters; Qingyang Liu; Peter Jan Hooikaas; Yao Yao; Veronika Solianova; Ihor Smal; Lotte B Pedersen; Erik Meijering; Lukas C Kapitein; Anna Akhmanova

doi:10.7554/eLife.61302

Concerted action of kinesins KIF5B and KIF13B promotes efficient secretory vesicle transport to microtubule plus ends

Andrea Serra-Marques
, Maud Martin
, Eugene A Katrukha
, Ilya Grigoriev
, Cathelijn A.E. Peeters
, Qingyang Liu
, Peter Jan Hooikaas
, Yao Yao
, Veronika Solianova
, Ihor Smal
, Lotte B Pedersen
, Erik Meijering
, Lukas C Kapitein
, Anna Akhmanova

Cell Biology, Neurobiology and Biophysics

Cell Biology, Neurobiology and Biophysics, Department of Biology, Faculty of Science, Utrecht University, Utrecht, Netherlands.
Departments of Medical Informatics and Radiology, Biomedical Imaging Group Rotterdam, Erasmus University Medical Center, Rotterdam, Netherlands.
Department of Biology, Section of Cell Biology and Physiology, the August Krogh Building, University of Copenhagen, Copenhagen, Denmark.

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Intracellular transport relies on multiple kinesins, but it is poorly understood which kinesins are present on particular cargos, what their contributions are and whether they act simultaneously on the same cargo. Here, we show that Rab6-positive secretory vesicles are transported from the Golgi apparatus to the cell periphery by kinesin-1 KIF5B and kinesin-3 KIF13B, which determine the location of secretion events. KIF5B plays a dominant role, whereas KIF13B helps Rab6 vesicles to reach freshly polymerized microtubule ends, to which KIF5B binds poorly, likely because its cofactors, MAP7-family proteins, are slow in populating these ends. Sub-pixel localization demonstrated that during microtubule plus-end directed transport, both kinesins localize to the vesicle front and can be engaged on the same vesicle. When vesicles reverse direction, KIF13B relocates to the middle of the vesicle, while KIF5B shifts to the back, suggesting that KIF5B but not KIF13B undergoes a tug-of-war with a minus-end directed motor.

Original language	English
Article number	e61302
Number of pages	37
Journal	eLife
Volume	9
DOIs	https://doi.org/10.7554/eLife.61302
Publication status	Published - 11 Nov 2020

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Serra-Marques, A., Martin, M., Katrukha, E. A., Grigoriev, I., Peeters, C. A. E., Liu, Q., Hooikaas, P. J., Yao, Y., Solianova, V., Smal, I., Pedersen, L. B., Meijering, E., Kapitein, L. C., & Akhmanova, A. (2020). Concerted action of kinesins KIF5B and KIF13B promotes efficient secretory vesicle transport to microtubule plus ends. eLife, 9, Article e61302. https://doi.org/10.7554/eLife.61302

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title = "Concerted action of kinesins KIF5B and KIF13B promotes efficient secretory vesicle transport to microtubule plus ends",

abstract = "Intracellular transport relies on multiple kinesins, but it is poorly understood which kinesins are present on particular cargos, what their contributions are and whether they act simultaneously on the same cargo. Here, we show that Rab6-positive secretory vesicles are transported from the Golgi apparatus to the cell periphery by kinesin-1 KIF5B and kinesin-3 KIF13B, which determine the location of secretion events. KIF5B plays a dominant role, whereas KIF13B helps Rab6 vesicles to reach freshly polymerized microtubule ends, to which KIF5B binds poorly, likely because its cofactors, MAP7-family proteins, are slow in populating these ends. Sub-pixel localization demonstrated that during microtubule plus-end directed transport, both kinesins localize to the vesicle front and can be engaged on the same vesicle. When vesicles reverse direction, KIF13B relocates to the middle of the vesicle, while KIF5B shifts to the back, suggesting that KIF5B but not KIF13B undergoes a tug-of-war with a minus-end directed motor.",

author = "Andrea Serra-Marques and Maud Martin and Katrukha, \{Eugene A\} and Ilya Grigoriev and Peeters, \{Cathelijn A.E.\} and Qingyang Liu and Hooikaas, \{Peter Jan\} and Yao Yao and Veronika Solianova and Ihor Smal and Pedersen, \{Lotte B\} and Erik Meijering and Kapitein, \{Lukas C\} and Anna Akhmanova",

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doi = "10.7554/eLife.61302",

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T1 - Concerted action of kinesins KIF5B and KIF13B promotes efficient secretory vesicle transport to microtubule plus ends

AU - Serra-Marques, Andrea

AU - Martin, Maud

AU - Katrukha, Eugene A

AU - Grigoriev, Ilya

AU - Peeters, Cathelijn A.E.

AU - Liu, Qingyang

AU - Hooikaas, Peter Jan

AU - Yao, Yao

AU - Solianova, Veronika

AU - Smal, Ihor

AU - Pedersen, Lotte B

AU - Meijering, Erik

AU - Kapitein, Lukas C

AU - Akhmanova, Anna

PY - 2020/11/11

Y1 - 2020/11/11

N2 - Intracellular transport relies on multiple kinesins, but it is poorly understood which kinesins are present on particular cargos, what their contributions are and whether they act simultaneously on the same cargo. Here, we show that Rab6-positive secretory vesicles are transported from the Golgi apparatus to the cell periphery by kinesin-1 KIF5B and kinesin-3 KIF13B, which determine the location of secretion events. KIF5B plays a dominant role, whereas KIF13B helps Rab6 vesicles to reach freshly polymerized microtubule ends, to which KIF5B binds poorly, likely because its cofactors, MAP7-family proteins, are slow in populating these ends. Sub-pixel localization demonstrated that during microtubule plus-end directed transport, both kinesins localize to the vesicle front and can be engaged on the same vesicle. When vesicles reverse direction, KIF13B relocates to the middle of the vesicle, while KIF5B shifts to the back, suggesting that KIF5B but not KIF13B undergoes a tug-of-war with a minus-end directed motor.

AB - Intracellular transport relies on multiple kinesins, but it is poorly understood which kinesins are present on particular cargos, what their contributions are and whether they act simultaneously on the same cargo. Here, we show that Rab6-positive secretory vesicles are transported from the Golgi apparatus to the cell periphery by kinesin-1 KIF5B and kinesin-3 KIF13B, which determine the location of secretion events. KIF5B plays a dominant role, whereas KIF13B helps Rab6 vesicles to reach freshly polymerized microtubule ends, to which KIF5B binds poorly, likely because its cofactors, MAP7-family proteins, are slow in populating these ends. Sub-pixel localization demonstrated that during microtubule plus-end directed transport, both kinesins localize to the vesicle front and can be engaged on the same vesicle. When vesicles reverse direction, KIF13B relocates to the middle of the vesicle, while KIF5B shifts to the back, suggesting that KIF5B but not KIF13B undergoes a tug-of-war with a minus-end directed motor.

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DO - 10.7554/eLife.61302

M3 - Article

C2 - 33174839

SN - 2050-084X

VL - 9

JO - eLife

JF - eLife

M1 - e61302

ER -

Concerted action of kinesins KIF5B and KIF13B promotes efficient secretory vesicle transport to microtubule plus ends

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