Life without heterotrimeric kinesins: trypanosomatids use a combination of homodimeric kinesin-2 motors to drive intraflagellar transport

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Abstract

Heterotrimeric kinesin 2 is the canonical motor protein for anterograde intraflagellar transport (IFT), driving movement of protein complexes towards the tip of cilia and flagella. Here, we show that all members of the Euglenozoa group lack genes for heterotrimeric kinesins and instead possess a variable number of genes for two homodimeric kinesins termed KIN2A and KIN2B. When expressed in vitro , both Trypanosoma brucei kinesins form homodimers and move processively along brain microtubules, KIN2A being faster than KIN2B. Studies in T. brucei and Leishmania mexicana show anterograde and retrograde IFT of both kinesins, with KIN2A travelling throughout the whole length of the flagellum, while KIN2B is concentrated at its base. In the proximal portion of the flagellum, most KIN2B molecules travel without IFT proteins, except for a few particles that are associated with IFT proteins and reach the tip. Surprisingly, the absence of KIN2A has mild effects on IFT and flagellum assembly, whereas KIN2B is essential for both. Investigation of trypanosome flagella deprived of KIN2B revealed that IFT proteins do not access these flagella but that KIN2A can still circulate. These results support a division-of-labour model where KIN2B is responsible for the import of IFT proteins while KIN2A is responsible for most of the anterograde transport.
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Abstract Heterotrimeric kinesin 2 is the canonical motor protein for anterograde intraflagellar transport (IFT), driving movement of protein complexes towards the tip of cilia and flagella. Here, we show that all members of the Euglenozoa group lack genes for heterotrimeric kinesins and instead possess a variable number of genes for two homodimeric kinesins termed KIN2A and KIN2B. When expressed in vitro, both Trypanosoma brucei kinesins form homodimers and move processively along brain microtubules, KIN2A being faster than KIN2B. Studies in T. brucei and Leishmania mexicana show anterograde and retrograde IFT of both kinesins, with KIN2A travelling throughout the whole length of the flagellum, while KIN2B is concentrated at its base. In the proximal portion of the flagellum, most KIN2B molecules travel without IFT proteins, except for a few particles that are associated with IFT proteins and reach the tip. Surprisingly, the absence of KIN2A has mild effects on IFT and flagellum assembly, whereas KIN2B is essential for both. Investigation of trypanosome flagella deprived of KIN2B revealed that IFT proteins do not access these flagella but that KIN2A can still circulate. These results support a division-of-labour model where KIN2B is responsible for the import of IFT proteins while KIN2A is responsible for most of the anterograde transport. Competing Interest Statement The authors have declared no competing interest.

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europepmc
last seen: 2026-05-20T01:45:00.602351+00:00
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License: CC-BY-4.0