XB-ART-6055
Curr Biol
2002 Dec 10;1223:2055-9. doi: 10.1016/s0960-9822(02)01277-0.
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hTPX2 is required for normal spindle morphology and centrosome integrity during vertebrate cell division.
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Bipolar spindle formation is essential for the accurate segregation of genetic material during cell division. Although centrosomes influence the number of spindle poles during mitosis, motor and non-motor microtubule-associated proteins (MAPs) also play key roles in determining spindle morphology. TPX2 is a novel MAP also characterized in Xenopus cell-free extracts. To examine hTPX2 (human TPX2) function in human cells, we used siRNA to knock-down its expression and found that cells lacking hTPX2 arrest in mitosis with multipolar spindles. NuMA, gamma-tubulin, and centrin localize to each pole, and nocodazole treatment of cells lacking hTPX2 demonstrates that the localization of gamma-tubulin to multiple spindle poles requires intact microtubules. Furthermore, we show that the formation of monopolar microtubule arrays in human cell extracts does not require hTPX2, demonstrating that the mechanism by which hTPX2 promotes spindle bipolarity is independent of activities focusing microtubule minus ends at spindle poles. Finally, inhibition of the kinesin Eg5 in hTPX2-depleted cells leads to monopolar spindles, indicating that Eg5 function is necessary for multipolar spindle formation in the absence of hTPX2. Our observations reveal a structural role for hTPX2 in spindles and provide evidence for a balance between microtubule-based motor forces and structural spindle components.
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Species referenced: Xenopus
Genes referenced: kif11 numa1 tpx2