Neoplasia: An International Journal for Oncology Research (May 2010)

Three-dimensionally Specific Inhibition of DNA Repair-Related Genes by Activated KRAS in Colon Crypt Model

  • Toshiyuki Tsunoda,
  • Yasuo Takashima,
  • Takahiro Fujimoto,
  • Midori Koyanagi,
  • Yasuhiro Yoshida,
  • Keiko Doi,
  • Yoko Tanaka,
  • Masahide Kuroki,
  • Takehiko Sasazuki,
  • Senji Shirasawa

DOI
https://doi.org/10.1593/neo.10170
Journal volume & issue
Vol. 12, no. 5
pp. 397 – 404

Abstract

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Growth and differentiation of colonic epithelium are regulated in the three-dimensional (3D) physiological architecture, colonic crypt, and deregulation of 3D interactions is involved in tumorigenesis. Cell-based 3D culture systems provide a suitable approach bridging the gap between two-dimensional (2D) culture and animal models. KRAS mutations are found at high frequencies in human colorectal cancer (CRC); however, KRAS-targeted cancer therapy has not been developed. Here, we have established a 3D cell culture model resembling the colonic crypt by use of HKe3 cells, human CRC HCT116 cells disrupted at activated KRAS. In this 3D colonic crypt model, HKe3 cells showed the features of time course-dependent transit-amplifying and terminal-differentiated stages, which are characteristic of normal colonic crypt. On the basis of the features of HCT116 cells, activated KRAS inhibited normal cell polarity and apoptosis in 3D culture. The expression of DNA repair-related tumor suppressor genes including TP53, BRCA1, BRCA2, and EXO-1 was markedly suppressed by activated KRAS in 3D culture but not in 2D culture. These results together suggest that activated KRAS plays critical roles in the accumulation of genetic alterations through inhibition of DNA repair genes and apoptosis and that this 3D culture model will provide a useful tool for investigating the molecular mechanisms of CRC development.