KIF1C activates and extends dynein movement through the FHF cargo adapter

Ferdos Abid Ali; Alexander J Zwetsloot; Caroline E Stone; Tomos E Morgan; Richard F Wademan; Andrew P Carter; Anne Straube

doi:10.1038/s41594-024-01418-z

KIF1C activates and extends dynein movement through the FHF cargo adapter

Ferdos Abid Ali, Alexander J Zwetsloot, Caroline E Stone, Tomos E Morgan, Richard F Wademan, Andrew P Carter^*, Anne Straube

^*Corresponding author for this work

School of Biochemistry

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

Abstract

Cellular cargos move bidirectionally on microtubules by recruiting opposite polarity motors dynein and kinesin. These motors show codependence, where one requires the activity of the other, although the mechanism is unknown. Here we show that kinesin-3 KIF1C acts as both an activator and a processivity factor for dynein, using in vitro reconstitutions of human proteins. Activation requires only a fragment of the KIF1C nonmotor stalk binding the cargo adapter HOOK3. The interaction site is separate from the constitutive factors FTS and FHIP, which link HOOK3 to small G-proteins on cargos. We provide a structural model for the autoinhibited FTS-HOOK3-FHIP1B (an FHF complex) and explain how KIF1C relieves it. Collectively, we explain codependency by revealing how mutual activation of dynein and kinesin occurs through their shared adapter. Many adapters bind both dynein and kinesins, suggesting this mechanism could be generalized to other bidirectional complexes.

Original language	English
Article number	2693
Journal	Nature Structural and Molecular Biology
Early online date	2 Jan 2025
DOIs	https://doi.org/10.1038/s41594-024-01418-z
Publication status	E-pub ahead of print - 2 Jan 2025

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title = "KIF1C activates and extends dynein movement through the FHF cargo adapter",

abstract = "Cellular cargos move bidirectionally on microtubules by recruiting opposite polarity motors dynein and kinesin. These motors show codependence, where one requires the activity of the other, although the mechanism is unknown. Here we show that kinesin-3 KIF1C acts as both an activator and a processivity factor for dynein, using in vitro reconstitutions of human proteins. Activation requires only a fragment of the KIF1C nonmotor stalk binding the cargo adapter HOOK3. The interaction site is separate from the constitutive factors FTS and FHIP, which link HOOK3 to small G-proteins on cargos. We provide a structural model for the autoinhibited FTS-HOOK3-FHIP1B (an FHF complex) and explain how KIF1C relieves it. Collectively, we explain codependency by revealing how mutual activation of dynein and kinesin occurs through their shared adapter. Many adapters bind both dynein and kinesins, suggesting this mechanism could be generalized to other bidirectional complexes.",

author = "{Abid Ali}, Ferdos and Zwetsloot, {Alexander J} and Stone, {Caroline E} and Morgan, {Tomos E} and Wademan, {Richard F} and Carter, {Andrew P} and Anne Straube",

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doi = "10.1038/s41594-024-01418-z",

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T1 - KIF1C activates and extends dynein movement through the FHF cargo adapter

AU - Abid Ali, Ferdos

AU - Zwetsloot, Alexander J

AU - Stone, Caroline E

AU - Morgan, Tomos E

AU - Wademan, Richard F

AU - Carter, Andrew P

AU - Straube, Anne

PY - 2025/1/2

Y1 - 2025/1/2

N2 - Cellular cargos move bidirectionally on microtubules by recruiting opposite polarity motors dynein and kinesin. These motors show codependence, where one requires the activity of the other, although the mechanism is unknown. Here we show that kinesin-3 KIF1C acts as both an activator and a processivity factor for dynein, using in vitro reconstitutions of human proteins. Activation requires only a fragment of the KIF1C nonmotor stalk binding the cargo adapter HOOK3. The interaction site is separate from the constitutive factors FTS and FHIP, which link HOOK3 to small G-proteins on cargos. We provide a structural model for the autoinhibited FTS-HOOK3-FHIP1B (an FHF complex) and explain how KIF1C relieves it. Collectively, we explain codependency by revealing how mutual activation of dynein and kinesin occurs through their shared adapter. Many adapters bind both dynein and kinesins, suggesting this mechanism could be generalized to other bidirectional complexes.

AB - Cellular cargos move bidirectionally on microtubules by recruiting opposite polarity motors dynein and kinesin. These motors show codependence, where one requires the activity of the other, although the mechanism is unknown. Here we show that kinesin-3 KIF1C acts as both an activator and a processivity factor for dynein, using in vitro reconstitutions of human proteins. Activation requires only a fragment of the KIF1C nonmotor stalk binding the cargo adapter HOOK3. The interaction site is separate from the constitutive factors FTS and FHIP, which link HOOK3 to small G-proteins on cargos. We provide a structural model for the autoinhibited FTS-HOOK3-FHIP1B (an FHF complex) and explain how KIF1C relieves it. Collectively, we explain codependency by revealing how mutual activation of dynein and kinesin occurs through their shared adapter. Many adapters bind both dynein and kinesins, suggesting this mechanism could be generalized to other bidirectional complexes.

U2 - 10.1038/s41594-024-01418-z

DO - 10.1038/s41594-024-01418-z

M3 - Article (Academic Journal)

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SN - 1545-9993

JO - Nature Structural and Molecular Biology

JF - Nature Structural and Molecular Biology

M1 - 2693

ER -

KIF1C activates and extends dynein movement through the FHF cargo adapter

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