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Distinct roles of Kif6 and Kif9 in mammalian ciliary trafficking and motility.

Chuyu FangXinwen PanDi LiWei ChenYing HuangYawen ChenLuan LiQi GaoXin LiangDong LiXueliang ZhuXiumin Yan
Published in: The Journal of cell biology (2024)
Ciliary beat and intraflagellar transport depend on dynein and kinesin motors. The kinesin-9 family members Kif6 and Kif9 are implicated in motile cilia motilities across protists and mammals. How they function and whether they act redundantly, however, remain unclear. Here, we show that Kif6 and Kif9 play distinct roles in mammals. Kif6 forms puncta that move bidirectionally along axonemes, whereas Kif9 appears to oscillate regionally on the ciliary central apparatus. Consistently, only Kif6 displays microtubule-based motor activity in vitro, and its ciliary localization requires its ATPase activity. Kif6 deficiency in mice disrupts coordinated ciliary beat across ependymal tissues and impairs cerebrospinal fluid flow, resulting in severe hydrocephalus and high mortality. Kif9 deficiency causes mild hydrocephalus without obviously affecting the ciliary beat or the lifespan. Kif6-/- and Kif9-/- males are infertile but exhibit oligozoospermia with poor sperm motility and defective forward motion of sperms, respectively. These results suggest Kif6 as a motor for cargo transport and Kif9 as a central apparatus regulator.
Keyphrases
  • cerebrospinal fluid
  • heart rate
  • gene expression
  • blood pressure
  • type diabetes
  • cardiovascular disease
  • adipose tissue
  • risk factors
  • mass spectrometry
  • cardiovascular events
  • high resolution