Disruption of microtubules uncouples budding and nuclear division in Toxoplasma gondii

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Journal of Cell Science 115, 1017-1025 (2002)
© 2002 The Company of Biologists Limited

Research Article

Disruption of microtubules uncouples budding and nuclear division in Toxoplasma gondii

Naomi S. Morrissette and L. David Sibley

Department of Molecular Microbiology, Washington University School of Medicine, St. Louis MO 63110, USA

Author for correspondence (e-mail: naomi{at}borcim.wustl.edu )

Accepted 30 November 2001

The tachyzoite stage of the protozoan parasite Toxoplasma gondii hastwo populations of microtubules: spindle microtubules and subpellicular microtubules.To determine how these two microtubule populations are regulated,we investigated microtubule behavior during the cell cycle followingtreatment with microtubule-disrupting drugs. Previous work had establishedthat the microtubule populations are individually nucleatedby two distinct microtubule-organizing centers (MTOCs): theapical polar ring for the subpellicular microtubules and spindlepole plaques/centrioles for the spindle microtubules. When replicatingtachyzoites were treated with 0.5 µM oryzalin or 1.0 mMcolchicine they retained the capacity to form a spindle and undergonuclear division. Although these parasites could complete budding, theylost the bulk of their subpellicular microtubules and the abilityto reinvade host cells. Both nascent spindle and subpellicularmicrotubules were disrupted in 2.5 µM oryzalin or 5.0mM colchicine. Under these conditions, parasites grew in sizeand replicated their genome but were incapable of nuclear division.After removal from 0.5 µM oryzalin, Toxoplasma tachyzoiteswere able to restore normal subpellicular microtubules and afully invasive phenotype. When oryzalin was removed from Toxoplasma tachyzoitestreated with 2.5 µM drug, the parasites attempted to budas crescent-shaped tachyzoites. Because the polyploid nuclearmass could not be correctly segregated, many daughter parasiteslacked nuclei altogether although budding and scission fromthe maternal mass was able to be completed. Multiple MTOCs permitToxoplasma tachyzoites to control nuclear division independentlyfrom cell polarity and cytokinesis. This unusual situation grantsgreater cell cycle flexibility to these parasites but abolishesthe checks for coregulation of nuclear division and cytokinesis foundin other eukaryotes.

Key words: Apicomplexa, Centrin, Centriole, Centrosome, Colchicine, Dinitroaniline, Endodyogeny, Oryzalin, Spindle, Subpellicular Microtubule, Tubulin

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