Elongation of centriolar microtubule triplets contributes to the formation of the mitotic spindle in {gamma}-tubulin-depleted cells

doi:10.1242/jcs.01401

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JCS ePress online publication date 12 Oct 2004
doi: 10.1242/jcs.01401

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Research Article

Elongation of centriolar microtubule triplets contributes to the formation of the mitotic spindle in ${gamma}$ -tubulin-depleted cells

Brigitte Raynaud-Messina^*, Laurent Mazzolini, André Moisand, Anne-Marie Cirinesi, and Michel Wright
^* Author for correspondence (e-mail: brigitte.raynaud-messina{at}istmt.cnrs.fr)

The assembly of the mitotic spindle after depletion of themajor ${gamma}$ -tubulin isotype by RNA-mediated interference was assessedin the Drosophila S2 cell line. Depletion of ${gamma}$ -tubulin had nosignificant effect on the cytoskeletal microtubules during interphase.However, it promoted an increase in the mitotic index, resultingmainly in monopolar and, to a lesser extent, asymmetrical bipolarprometaphases lacking astral microtubules. This mitotic accumulationcoincided with the activation of the mitotic checkpoint. Immunostainingwith an anti-Asp antibody revealed that the spindle poles, whichwere always devoid of ${gamma}$ -tubulin, were unfocused and organizedinto sub-spindles. Despite the marked depletion of ${gamma}$ -tubulin,the pericentriolar proteins CP190 and centrosomin were recruitedto the spindle pole(s), where they formed three or four dots,suggesting the presence of several centrioles. Electron microscopicreconstructions demonstrated that most of the monopolar spindlesexhibited three or four centrioles, indicating centriole duplicationwith a failure in the separation process. Most of the centrioleswere shortened, suggesting a role for ${gamma}$ -tubulin in centriolemorphogenesis. Moreover, in contrast to metaphases observedin control cells, in which the spindle microtubules radiatedfrom the pericentriolar material, in ${gamma}$ -tubulin-depleted cells,microtubule assembly still occurred at the poles but involvedthe elongation of centriolar microtubule triplets. Our resultsdemonstrate that, after depletion of ${gamma}$ -tubulin, the pericentriolarmaterial is unable to promote efficient microtubule nucleation.They point to an alternative mechanism of centrosomal microtubuleassembly that contributes to the formation of abnormal, albeitpartially functional, mitotic spindles.

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Elongation of centriolar microtubule triplets contributes to the formation of the mitotic spindle in -tubulin-depleted cells

Elongation of centriolar microtubule triplets contributes to the formation of the mitotic spindle in ${gamma}$ -tubulin-depleted cells