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Mutational inactivation of STAG2 causes aneuploidy in human cancer.

David A DA Solomon, Taeyeon T Kim, Laura A LA Diaz-Martinez, Joshlean J Fair, Abdel G AG Elkahloun, Brent T BT Harris, Jeffrey A JA Toretsky, Steven A SA Rosenberg, Neerav N Shukla, Marc M Ladanyi, Yardena Y Samuels, C David CD James, Hongtao H Yu, Jung-Sik JS Kim, and Todd T Waldman

Science 333(6045):1039-43 (2011) PMID 21852505 PMCID PMC3374335

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.

DOI: 10.1126/science.1203619
Version: za2963e q8za1 q8zb1 q8zce q8zdf q8ze5 q8zf2 q8zge
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