Laura A. Díaz-Martínez scite author profile

Most cancer cells are characterized by aneuploidy, an abnormal number of chromosomes. We have identified a clue to the mechanistic origins of aneuploidy through integrative genomic analyses of human tumors. A diverse range of tumor types were found to harbor deletions or inactivating mutations of STAG2, a gene encoding a subunit of the cohesin complex, which regulates the separation of sister chromatids during cell division. Because STAG2 is on the X chromosome, its inactivation requires only a single mutational event. Studying a near-diploid human cell line with a stable karyotype, we found that targeted inactivation of STAG2 led to chromatid cohesion defects and aneuploidy, whereas in two aneuploid human glioblastoma cell lines, targeted correction of the endogenous mutant alleles of STAG2 led to enhanced chromosomal stability. Thus, genetic disruption of cohesin is a cause of aneuploidy in human cancer.

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PIASγ Is Required for Faithful Chromosome Segregation in Human Cells

Díaz-Martínez

Giménez-Abián

Azuma

et al. 2006

PLoS ONE

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BackgroundThe precision of the metaphase-anaphase transition ensures stable genetic inheritance. The spindle checkpoint blocks anaphase onset until the last chromosome biorients at metaphase plate, then the bonds between sister chromatids are removed and disjoined chromatids segregate to the spindle poles. But, how sister separation is triggered is not fully understood.Principal FindingsWe identify PIASγ as a human E3 sumo ligase required for timely and efficient sister chromatid separation. In cells lacking PIASγ, normal metaphase plates form, but the spindle checkpoint is activated, leading to a prolonged metaphase block. Sister chromatids remain cohered even if cohesin is removed by depletion of hSgo1, because DNA catenations persist at centromeres. PIASγ-depleted cells cannot properly localize Topoisomerase II at centromeres or in the cores of mitotic chromosomes, providing a functional link between PIASγ and Topoisomerase II.ConclusionsPIASγ directs Topoisomerase II to specific chromosome regions that require efficient removal of DNA catenations prior to anaphase. The lack of this activity activates the spindle checkpoint, protecting cells from non-disjunction. Because DNA catenations persist without PIASγ in the absence of cohesin, removal of catenations and cohesin rings must be regulated in parallel.

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UBL/UBA Ubiquitin Receptor Proteins Bind a Common Tetraubiquitin Chain

Yang

Vossler

Díaz-Martínez

et al. 2006

Journal of Molecular Biology

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Regulated Separation of Sister Centromeres depends on the Spindle Assembly Checkpoint but not on the Anaphase Promoting Complex/Cyclosome

et al. 2005

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Key to faithful genetic inheritance is the cohesion between sister centromeres that physically links replicated sister chromatids and is then abruptly lost at the onset of anaphase. Misregulated cohesion causes aneuploidy, birth defects and perhaps initiates cancers. Loss of centromere cohesion is controlled by the spindle checkpoint and is thought to depend on a ubiquitin ligase, the Anaphase Promoting Complex/Cyclosome (APC). But here we present evidence that the APC pathway is dispensable for centromere separation at anaphase in mammals, and that anaphase proceeds in the presence of cyclin B and securin. Arm separation is perturbed in the absence of APC, compromising the fidelity of segregation, but full sister chromatid separation is achieved after a delayed anaphase. Thereafter, cells arrest terminally in telophase with high levels of cyclin B. Extending these findings we provide evidence that the spindle checkpoint regulates centromere cohesion through an APC-independent pathway. We propose that this Centromere Linkage Pathway (CLiP) is a second branch that stems from the spindle checkpoint to regulate cohesion preferentially at the centromeres and that Sgo1 is one of its components.

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