Skip to Content
Merck
  • Modest increase of KIF11 expression exposes fragilities in the mitotic spindle, causing chromosomal instability.

Modest increase of KIF11 expression exposes fragilities in the mitotic spindle, causing chromosomal instability.

Journal of cell science (2022-08-06)
Katie L Dale, Jonathan W Armond, Robert E Hynds, Elina Vladimirou
ABSTRACT

Chromosomal instability (CIN), the process of increased chromosomal alterations, compromises genomic integrity and has profound consequences on human health. Yet, our understanding of the molecular and mechanistic basis of CIN initiation remains limited. We developed a high-throughput, single-cell, image-based pipeline employing deep-learning and spot-counting models to detect CIN by automatically counting chromosomes and micronuclei. To identify CIN-initiating conditions, we used CRISPR activation in human diploid cells to upregulate, at physiologically relevant levels, 14 genes that are functionally important in cancer. We found that upregulation of CCND1, FOXA1 and NEK2 resulted in pronounced changes in chromosome counts, and KIF11 upregulation resulted in micronuclei formation. We identified KIF11-dependent fragilities within the mitotic spindle; increased levels of KIF11 caused centrosome fragmentation, higher microtubule stability, lagging chromosomes or mitotic catastrophe. Our findings demonstrate that even modest changes in the average expression of single genes in a karyotypically stable background are sufficient for initiating CIN by exposing fragilities of the mitotic spindle, which can lead to a genomically diverse cell population.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Anti-Mad2 Antibody, clone AS55-A12, clone AS55-A12, from mouse