PLoS Biology (Feb 2019)

Induced aneuploidy in neural stem cells triggers a delayed stress response and impairs adult life span in flies.

  • Mihailo Mirkovic,
  • Leonardo G Guilgur,
  • Alexandra Tavares,
  • Diogo Passagem-Santos,
  • Raquel A Oliveira

DOI
https://doi.org/10.1371/journal.pbio.3000016
Journal volume & issue
Vol. 17, no. 2
p. e3000016

Abstract

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Studying aneuploidy during organism development has strong limitations because chronic mitotic perturbations used to generate aneuploidy usually result in lethality. We developed a genetic tool to induce aneuploidy in an acute and time-controlled manner during Drosophila development. This is achieved by reversible depletion of cohesin, a key molecule controlling mitotic fidelity. Larvae challenged with aneuploidy hatch into adults with severe motor defects shortening their life span. Neural stem cells, despite being aneuploid, display a delayed stress response and continue proliferating, resulting in the rapid appearance of chromosomal instability, a complex array of karyotypes, and cellular abnormalities. Notably, when other brain-cell lineages are forced to self-renew, aneuploidy-associated stress response is significantly delayed. Protecting only the developing brain from induced aneuploidy is sufficient to rescue motor defects and adult life span, suggesting that neural tissue is the most ill-equipped to deal with developmental aneuploidy.