PT  - JOURNAL ARTICLE
AU  - Masashi Yukawa
AU  - Yusuke Yamada
AU  - Tomoaki Yamauchi
AU  - Takashi Toda
TI  - Two spatially distinct Kinesin-14 Pkl1 and Klp2 generate collaborative inward forces against Kinesin-5 Cut7 in <em>S. pombe</em>
AID  - 10.1101/205815
DP  - 2017 Jan 01
TA  - bioRxiv
PG  - 205815
4099  - http://biorxiv.org/content/early/2017/10/19/205815.short
4100  - http://biorxiv.org/content/early/2017/10/19/205815.full
AB  - Kinesin motors play central roles in bipolar spindle assembly. In many eukaryotes, spindle pole separation is driven by Kinesin-5 that generates outward force. This outward force is balanced by antagonistic inward force elicited by Kinesin-14 and/or Dynein. In fission yeast, two Kinesin-14s, Pkl1 and Klp2, play an opposing role against Kinesin-5/Cut7. However, how these two Kinesin-14s coordinate individual activities remains elusive. Here we show that while deletion of either pkl1 or klp2 rescues temperature sensitive cut7 mutants, only pkl1 deletion can bypass the lethality caused by cut7 deletion. Pkl1 is tethered to the spindle pole body, while Klp2 is localized along the spindle microtubule. Forced targeting of Klp2 to the spindle pole body, however, compensates for Pkl1 functions, indicating that cellular localizations, rather than individual motor specificities, differentiate between the two Kinesin-14s. Interestingly, human Kinesin-14/HSET can replace either Pkl1 or Klp2. Moreover, overproducing HSET induces monopolar spindles, reminiscent of the phenotype of Cut7 inactivation. Taken together, this study has uncovered the biological mechanism of how two different Kinesin-14s exert their antagonistic roles against Kinesin-5 in a spatially distinct manner.SUMMARY STATEMENT Proper force-balance generated by Kinesin-5 and Kinesin-14 is crucial for spindle bipolarity. Two fission yeast Kinesin-14s localize to different structures, thereby collaboratively producing inward forces against Kinesin-5-mediated outward force.GBPGFP-binding proteinMWP complexMsd1-Wdr8-Pkl1 complexSPBspindle pole bodytstemperature sensitiveγ-TuCthe γ-tubulin complex