MAP7 family proteins regulate kinesin-1 recruitment and activation

Peter Jan Hooikaas; Maud Martin; Tobias Mühlethaler; Gert Jan Kuijntjes; Cathelijn A.E. Peeters; Eugene A. Katrukha; Luca Ferrari; Riccardo Stucchi; Daan G.F. Verhagen; Wilhelmina E. Van Riel; Ilya Grigoriev; A. F.Maarten Altelaar; Casper C. Hoogenraad; Stefan G.D. Rüdiger; Michel O. Steinmetz; Lukas C. Kapitein; Anna Akhmanova

doi:10.1083/jcb.201808065

MAP7 family proteins regulate kinesin-1 recruitment and activation

Peter Jan Hooikaas, Maud Martin, Tobias Mühlethaler, Gert Jan Kuijntjes, Cathelijn A.E. Peeters, Eugene A. Katrukha, Luca Ferrari, Riccardo Stucchi, Daan G.F. Verhagen, Wilhelmina E. Van Riel, Ilya Grigoriev, A. F.Maarten Altelaar, Casper C. Hoogenraad, Stefan G.D. Rüdiger, Michel O. Steinmetz, Lukas C. Kapitein, Anna Akhmanova^*

^*Corresponding author for this work

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

Abstract

Kinesin-1 is responsible for microtubule-based transport of numerous cellular cargoes. Here, we explored the regulation of kinesin-1 by MAP7 proteins. We found that all four mammalian MAP7 family members bind to kinesin-1. In HeLa cells, MAP7, MAP7D1, and MAP7D3 act redundantly to enable kinesin-1-dependent transport and microtubule recruitment of the truncated kinesin-1 KIF5B-560, which contains the stalk but not the cargo-binding and autoregulatory regions. In vitro, purified MAP7 and MAP7D3 increase microtubule landing rate and processivity of kinesin-1 through transient association with the motor. MAP7 proteins promote binding of kinesin-1 to microtubules both directly, through the N-terminal microtubulebinding domain and unstructured linker region, and indirectly, through an allosteric effect exerted by the kinesin-binding C-terminal domain. Compared with MAP7, MAP7D3 has a higher affinity for kinesin-1 and a lower affinity for microtubules and, unlike MAP7, can be cotransported with the motor. We propose that MAP7 proteins are microtubule-tethered kinesin- 1 activators, with which the motor transiently interacts as it moves along microtubules.

Original language	English
Pages (from-to)	1298-1318
Number of pages	21
Journal	Journal of Cell Biology
Volume	218
Issue number	4
DOIs	https://doi.org/10.1083/jcb.201808065
Publication status	Published - 15 Feb 2019

Funding

This work was supported by the European Research Council Synergy grant 609822 and Netherlands Organization for Scientific Research ALW Open Program grant 824.15.017 to A. Akhmanova, Marie Curie IEF fellowships to M. Martin, and Swiss National Science Foundation grant 31003A_166608 (to M. O. Steinmetz). The authors declare no competing financial interests.

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Hooikaas, P. J., Martin, M., Mühlethaler, T., Kuijntjes, G. J., Peeters, C. A. E., Katrukha, E. A., Ferrari, L., Stucchi, R., Verhagen, D. G. F., Van Riel, W. E., Grigoriev, I., Altelaar, A. F. M., Hoogenraad, C. C., Rüdiger, S. G. D., Steinmetz, M. O., Kapitein, L. C., & Akhmanova, A. (2019). MAP7 family proteins regulate kinesin-1 recruitment and activation. Journal of Cell Biology, 218(4), 1298-1318. https://doi.org/10.1083/jcb.201808065

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title = "MAP7 family proteins regulate kinesin-1 recruitment and activation",

abstract = "Kinesin-1 is responsible for microtubule-based transport of numerous cellular cargoes. Here, we explored the regulation of kinesin-1 by MAP7 proteins. We found that all four mammalian MAP7 family members bind to kinesin-1. In HeLa cells, MAP7, MAP7D1, and MAP7D3 act redundantly to enable kinesin-1-dependent transport and microtubule recruitment of the truncated kinesin-1 KIF5B-560, which contains the stalk but not the cargo-binding and autoregulatory regions. In vitro, purified MAP7 and MAP7D3 increase microtubule landing rate and processivity of kinesin-1 through transient association with the motor. MAP7 proteins promote binding of kinesin-1 to microtubules both directly, through the N-terminal microtubulebinding domain and unstructured linker region, and indirectly, through an allosteric effect exerted by the kinesin-binding C-terminal domain. Compared with MAP7, MAP7D3 has a higher affinity for kinesin-1 and a lower affinity for microtubules and, unlike MAP7, can be cotransported with the motor. We propose that MAP7 proteins are microtubule-tethered kinesin- 1 activators, with which the motor transiently interacts as it moves along microtubules.",

author = "Hooikaas, {Peter Jan} and Maud Martin and Tobias M{\"u}hlethaler and Kuijntjes, {Gert Jan} and Peeters, {Cathelijn A.E.} and Katrukha, {Eugene A.} and Luca Ferrari and Riccardo Stucchi and Verhagen, {Daan G.F.} and {Van Riel}, {Wilhelmina E.} and Ilya Grigoriev and Altelaar, {A. F.Maarten} and Hoogenraad, {Casper C.} and R{\"u}diger, {Stefan G.D.} and Steinmetz, {Michel O.} and Kapitein, {Lukas C.} and Anna Akhmanova",

year = "2019",

month = feb,

day = "15",

doi = "10.1083/jcb.201808065",

language = "English",

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Hooikaas, PJ, Martin, M, Mühlethaler, T, Kuijntjes, GJ, Peeters, CAE, Katrukha, EA, Ferrari, L, Stucchi, R, Verhagen, DGF, Van Riel, WE, Grigoriev, I , Altelaar, AFM , Hoogenraad, CC , Rüdiger, SGD, Steinmetz, MO, Kapitein, LC & Akhmanova, A 2019, 'MAP7 family proteins regulate kinesin-1 recruitment and activation', Journal of Cell Biology, vol. 218, no. 4, pp. 1298-1318. https://doi.org/10.1083/jcb.201808065

TY - JOUR

T1 - MAP7 family proteins regulate kinesin-1 recruitment and activation

AU - Hooikaas, Peter Jan

AU - Martin, Maud

AU - Mühlethaler, Tobias

AU - Kuijntjes, Gert Jan

AU - Peeters, Cathelijn A.E.

AU - Katrukha, Eugene A.

AU - Ferrari, Luca

AU - Stucchi, Riccardo

AU - Verhagen, Daan G.F.

AU - Van Riel, Wilhelmina E.

AU - Grigoriev, Ilya

AU - Altelaar, A. F.Maarten

AU - Hoogenraad, Casper C.

AU - Rüdiger, Stefan G.D.

AU - Steinmetz, Michel O.

AU - Kapitein, Lukas C.

AU - Akhmanova, Anna

PY - 2019/2/15

Y1 - 2019/2/15

N2 - Kinesin-1 is responsible for microtubule-based transport of numerous cellular cargoes. Here, we explored the regulation of kinesin-1 by MAP7 proteins. We found that all four mammalian MAP7 family members bind to kinesin-1. In HeLa cells, MAP7, MAP7D1, and MAP7D3 act redundantly to enable kinesin-1-dependent transport and microtubule recruitment of the truncated kinesin-1 KIF5B-560, which contains the stalk but not the cargo-binding and autoregulatory regions. In vitro, purified MAP7 and MAP7D3 increase microtubule landing rate and processivity of kinesin-1 through transient association with the motor. MAP7 proteins promote binding of kinesin-1 to microtubules both directly, through the N-terminal microtubulebinding domain and unstructured linker region, and indirectly, through an allosteric effect exerted by the kinesin-binding C-terminal domain. Compared with MAP7, MAP7D3 has a higher affinity for kinesin-1 and a lower affinity for microtubules and, unlike MAP7, can be cotransported with the motor. We propose that MAP7 proteins are microtubule-tethered kinesin- 1 activators, with which the motor transiently interacts as it moves along microtubules.

AB - Kinesin-1 is responsible for microtubule-based transport of numerous cellular cargoes. Here, we explored the regulation of kinesin-1 by MAP7 proteins. We found that all four mammalian MAP7 family members bind to kinesin-1. In HeLa cells, MAP7, MAP7D1, and MAP7D3 act redundantly to enable kinesin-1-dependent transport and microtubule recruitment of the truncated kinesin-1 KIF5B-560, which contains the stalk but not the cargo-binding and autoregulatory regions. In vitro, purified MAP7 and MAP7D3 increase microtubule landing rate and processivity of kinesin-1 through transient association with the motor. MAP7 proteins promote binding of kinesin-1 to microtubules both directly, through the N-terminal microtubulebinding domain and unstructured linker region, and indirectly, through an allosteric effect exerted by the kinesin-binding C-terminal domain. Compared with MAP7, MAP7D3 has a higher affinity for kinesin-1 and a lower affinity for microtubules and, unlike MAP7, can be cotransported with the motor. We propose that MAP7 proteins are microtubule-tethered kinesin- 1 activators, with which the motor transiently interacts as it moves along microtubules.

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U2 - 10.1083/jcb.201808065

DO - 10.1083/jcb.201808065

M3 - Article

C2 - 30770434

AN - SCOPUS:85064231574

SN - 0021-9525

VL - 218

SP - 1298

EP - 1318

JO - Journal of Cell Biology

JF - Journal of Cell Biology

IS - 4

ER -

MAP7 family proteins regulate kinesin-1 recruitment and activation

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