A kinesin-based approach for inducing chromosome-specific mis-segregation in human cells

My Anh Truong, Paula Cané-Gasull, Sippe G. de Vries, Wilco Nijenhuis, René Wardenaar, Lukas C. Kapitein, Floris Foijer, Susanne M.A. Lens*

*Corresponding author for this work

Research output: Contribution to journalArticleAcademicpeer-review

2 Citations (Scopus)
6 Downloads (Pure)

Abstract

Various cancer types exhibit characteristic and recurrent aneuploidy patterns. The origins of these cancer type-specific karyotypes are still unknown, partly because introducing or eliminating specific chromosomes in human cells still poses a challenge. Here, we describe a novel strategy to induce mis-segregation of specific chromosomes in different human cell types. We employed Tet repressor or nuclease-dead Cas9 to link a microtubule minus-end-directed kinesin (Kinesin14VIb) from Physcomitrella patens to integrated Tet operon repeats and chromosome-specific endogenous repeats, respectively. By live- and fixed-cell imaging, we observed poleward movement of the targeted loci during (pro)metaphase. Kinesin14VIb-mediated pulling forces on the targeted chromosome were counteracted by forces from kinetochore-attached microtubules. This tug-of-war resulted in chromosome-specific segregation errors during anaphase and revealed that spindle forces can heavily stretch chromosomal arms. By single-cell whole-genome sequencing, we established that kinesin-induced targeted mis-segregations predominantly result in chromosomal arm aneuploidies after a single cell division. Our kinesin-based strategy opens the possibility to investigate the immediate cellular responses to specific aneuploidies in different cell types; an important step toward understanding how tissue-specific aneuploidy patterns evolve.

Original languageEnglish
Article numbere111559
Number of pages35
JournalEMBO Journal
Volume42
Issue number10
DOIs
Publication statusPublished - 15 May 2023

Keywords

  • aneuploidy
  • chromosome
  • CIN
  • kinesin

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