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Genetic instability in colorectal cancers

Author

Listed:
  • C. Lengauer

    (Howard Hughes Medical Institute and The Johns Hopkins Oncology Center)

  • K. W. Kinzler

    (Howard Hughes Medical Institute and The Johns Hopkins Oncology Center)

  • B. Vogelstein

    (Howard Hughes Medical Institute and The Johns Hopkins Oncology Center)

Abstract

It has long been considered that genetic instability is an integral component of human neoplasia1–3. In a small fraction of tumours, mismatch repair deficiency leads to a microsatellite instability at the nucleotide sequence level4,5. In other tumours, an abnormal chromosome number (aneuploidy) has suggested an instability, but the nature and magnitude of the postulated instability is a matter of conjecture. We show here that colorectal tumours without microsatellite instability exhibit a striking defect in chromosome segregation, resulting in gains or losses in excess of 10 –2 per chromosome per generation. This form of chromosomal instability reflected a continuing cellular defect that persisted throughout the lifetime of the tumour cell and was not simply related to chromosome number. While microsatellite instability is a recessive trait6,7, chromosomal instability appeared to be dominant. These data indicate that persistent genetic instability may be critical for the development of all colorectal cancers, and that such instability can arise through two distinct pathways.

Suggested Citation

  • C. Lengauer & K. W. Kinzler & B. Vogelstein, 1997. "Genetic instability in colorectal cancers," Nature, Nature, vol. 386(6625), pages 623-627, April.
  • Handle: RePEc:nat:nature:v:386:y:1997:i:6625:d:10.1038_386623a0
    DOI: 10.1038/386623a0
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    Cited by:

    1. Signe Penner-Goeke & Zelda Lichtensztejn & Megan Neufeld & Jennifer L Ali & Alon D Altman & Mark W Nachtigal & Kirk J McManus, 2017. "The temporal dynamics of chromosome instability in ovarian cancer cell lines and primary patient samples," PLOS Genetics, Public Library of Science, vol. 13(4), pages 1-24, April.
    2. Rui Zhao & Franziska Michor, 2013. "Patterns of Proliferative Activity in the Colonic Crypt Determine Crypt Stability and Rates of Somatic Evolution," PLOS Computational Biology, Public Library of Science, vol. 9(6), pages 1-15, June.
    3. Zimo Yang & Tao Zhou & Pak Ming Hui & Jian-Hong Ke, 2012. "Instability in Evolutionary Games," PLOS ONE, Public Library of Science, vol. 7(11), pages 1-9, November.
    4. Sergi Elizalde & Ashley M Laughney & Samuel F Bakhoum, 2018. "A Markov chain for numerical chromosomal instability in clonally expanding populations," PLOS Computational Biology, Public Library of Science, vol. 14(9), pages 1-28, September.
    5. Xia Li & Xiaoping Yao & Yibaina Wang & Fulan Hu & Fan Wang & Liying Jiang & Yupeng Liu & Da Wang & Guizhi Sun & Yashuang Zhao, 2013. "MLH1 Promoter Methylation Frequency in Colorectal Cancer Patients and Related Clinicopathological and Molecular Features," PLOS ONE, Public Library of Science, vol. 8(3), pages 1-9, March.

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