Abstract
The microtubule-based mitotic spindle is responsible for equally partitioning the genome during each cell division, and its assembly is executed via several microtubule nucleation pathways. Targeting Protein for XKlp2 (TPX2) stimulates the branching microtubule nucleation pathway, where new microtubules are nucleated from preexisting ones within mitotic or meiotic spindles. TPX2, like other spindle assembly factors, is sequestered by binding to nuclear importins-α/β until the onset of mitosis, yet the molecular nature of this regulation remains unclear. Here we demonstrate that TPX2 interacts with importins-α/β with nanomolar affinity in a 1:1:1 monodispersed trimer. We also identify a new nuclear localization sequence in TPX2 that contributes to its high-affinity interaction with importin-α. In addition, we establish that TPX2 interacts with importin-β via dispersed, weak interactions. We show that interactions of both importin-α and -β with TPX2 inhibit its ability to undergo phase separation, which was recently shown to enhance the kinetics of branching microtubule nucleation. In summary, our study informs how importins regulate TPX2 to facilitate spindle assembly, and provides novel insight into the functional regulation of protein phase separation.
Highlights
The majority of spindle assembly factors are inhibited by the canonical and abundant karyopherin complex, the importin-α/ β heterodimer [6,7,8,9,10]
When only importin-αΔIBB was included at 20-fold molar excess of targeting protein for XKlp2 (TPX2) the total number of microtubules nucleated relative to the no importin condition was drastically reduced (Fig. 1, A and C)
TPX2 addition with only importin-β at 10-fold molar excess led to an even greater reduction in microtubule number than importin-αΔIBB at 20-fold molar excess, with branching microtubule nucleation being reduced to background levels (Fig. 1, B and C)
Summary
The majority of spindle assembly factors are inhibited by the canonical and abundant karyopherin complex, the importin-α/ β heterodimer [6,7,8,9,10]. These findings highlight a critical role for dispersed, weak interactions in the inhibition of an essential spindle assembly factor by karyopherins and may inform how other phase separating proteins are regulated. The efficiency of inhibiting TPX2 condensation is correlated with importin-β’s ability to inhibit branching microtubule nucleation more strongly than importin-αΔIBB (Fig. 1, A–C).
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