Optogenetic control of kinesins -1, -2, -3 and dynein reveals their specific roles in vesicular transport

Publication date

2023-04-19

Authors

Nagpal, Sahil
Wang, Samuel
Swaminathan, Karthikeyan
Berger, FlorianISNI 0000000506322008
Hendricks, Adam

Editors

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Supervisors

Document Type

/dk/atira/pure/researchoutput/researchoutputtypes/workingpaper/preprint
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cc_by_nc_nd

Abstract

Each cargo in a cell employs a unique set of motor proteins for its transport. Often multiple types of kinesins are bound to the same cargo. It is puzzling why several types of motors are required for robust transport. To dissect the roles of each type of motor, we developed optogenetic inhibitors of kinesin-1, -2, -3 and dynein. This system allows us to control the activity of the endogenous set of motor proteins that are bound to intracellular cargoes. We examined the effect of optogenetic inhibition of kinesins-1, -2, and -3 and dynein on the transport of early endosomes, late endosomes, and lysosomes. While kinesin-1, kinesin-3, and dynein transport vesicles at all stages of endocytosis, kinesin-2 primarily drives late endosomes and lysosomes. In agreement with previous studies, sustained inhibition of either kinesins or dynein results in reduced motility in both directions. However, transient, optogenetic inhibition of kinesin-1 or dynein causes both early and late endosomes to move more processively by relieving competition with opposing motors. In contrast, optogenetic inhibition of kinesin-2 reduces the motility of late endosomes and lysosomes, and inhibition of kinesin-3 reduces the motility of endosomes and lysosomes. These results suggest that the directionality of transport is likely controlled through regulating kinesin-1 and dynein activity. On vesicles transported by several kinesin and dynein motors, motility can be directed by modulating the activity of a single type of motor on the cargo.

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Citation

Nagpal, S, Wang, S, Swaminathan, K, Berger, F & Hendricks, A 2023 'Optogenetic control of kinesins -1, -2, -3 and dynein reveals their specific roles in vesicular transport' bioRxiv. https://doi.org/10.1101/2023.04.18.537380