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Repurposing the mitotic machinery to drive cellular elongation and chromatin reorganisation in Plasmodium falciparum gametocytes

Jiahong Li, Gerald J. Shami, Hyun‐Jung Cho, Boyin Liu, Eric Hanssen, Matthew W. A. Dixon, Leann Tilley

2022Nature Communications42 citationsDOIOpen Access PDF

Abstract

The sexual stage gametocytes of the malaria parasite, Plasmodium falciparum, adopt a falciform (crescent) shape driven by the assembly of a network of microtubules anchored to a cisternal inner membrane complex (IMC). Using 3D electron microscopy, we show that a non-mitotic microtubule organizing center (MTOC), embedded in the parasite's nuclear membrane, orients the endoplasmic reticulum and the nascent IMC and seeds cytoplasmic microtubules. A bundle of microtubules extends into the nuclear lumen, elongating the nuclear envelope and capturing the chromatin. Classical mitotic machinery components, including centriolar plaque proteins, Pfcentrin-1 and -4, microtubule-associated protein, End-binding protein-1, kinetochore protein, PfNDC80 and centromere-associated protein, PfCENH3, are involved in the nuclear microtubule assembly/disassembly process. Depolymerisation of the microtubules using trifluralin prevents elongation and disrupts the chromatin, centromere and kinetochore organisation. We show that the unusual non-mitotic hemispindle plays a central role in chromatin organisation, IMC positioning and subpellicular microtubule formation in gametocytes.

Topics & Concepts

Cell biologyKinetochoreMicrotubuleBiologyChromatinMitosisAdvanced Spaceborne Thermal Emission and Reflection RadiometerCentromereMicrotubule organizing centerNuclear membraneCytoplasmGeneticsCentrosomeCell cycleCellDigital elevation modelDNAChromosomeRemote sensingGeologyGeneMalaria Research and ControlResearch on Leishmaniasis StudiesMicrotubule and mitosis dynamics
Repurposing the mitotic machinery to drive cellular elongation and chromatin reorganisation in Plasmodium falciparum gametocytes | Litcius