Journal of Experimental & Clinical Cancer Research (Mar 2019)

A subset of diffuse-type gastric cancer is susceptible to mTOR inhibitors and checkpoint inhibitors

  • Hiroshi Fukamachi,
  • Seon-Kyu Kim,
  • Jiwon Koh,
  • Hye Seung Lee,
  • Yasushi Sasaki,
  • Kentaro Yamashita,
  • Taketo Nishikawaji,
  • Shu Shimada,
  • Yoshimitsu Akiyama,
  • Sun-ju Byeon,
  • Dong-Hyuck Bae,
  • Keisuke Okuno,
  • Masatoshi Nakagawa,
  • Toshiro Tanioka,
  • Mikito Inokuchi,
  • Hiroshi Kawachi,
  • Kiichiro Tsuchiya,
  • Kazuyuki Kojima,
  • Takashi Tokino,
  • Yoshinobu Eishi,
  • Yong Sung Kim,
  • Woo Ho Kim,
  • Yasuhito Yuasa,
  • Shinji Tanaka

DOI
https://doi.org/10.1186/s13046-019-1121-3
Journal volume & issue
Vol. 38, no. 1
pp. 1 – 23

Abstract

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Abstract Background Mechanistic target of rapamycin (mTOR) pathway is essential for the growth of gastric cancer (GC), but mTOR inhibitor everolimus was not effective for the treatment of GCs. The Cancer Genome Atlas (TCGA) researchers reported that most diffuse-type GCs were genomically stable (GS). Pathological analysis suggested that some diffuse-type GCs developed from intestinal-type GCs. Methods We established patient-derived xenograft (PDX) lines from diffuse-type GCs, and searched for drugs that suppressed their growth. Diffuse-type GCs were classified into subtypes by their gene expression profiles. Results mTOR inhibitor temsirolimus strongly suppressed the growth of PDX-derived diffuse-type GC-initiating cells, which was regulated via Wnt-mTOR axis. These cells were microsatellite unstable (MSI) or chromosomally unstable (CIN), inconsistent with TCGA report. Diffuse-type GCs in TCGA cohort could be classified into two clusters, and GS subtype was major in cluster I while CIN and MSI subtypes were predominant in cluster II where PDX-derived diffuse-type GC cells were included. We estimated that about 9 and 55% of the diffuse-type GCs in cluster II were responders to mTOR inhibitors and checkpoint inhibitors, respectively, by identifying PIK3CA mutations and MSI condition in TCGA cohort. These ratios were far greater than those of diffuse-type GCs in cluster I or intestinal-type GCs. Further analysis suggested that diffuse-type GCs in cluster II developed from intestinal-type GCs while those in cluster I from normal gastric epithelial cells. Conclusion mTOR inhibitors and checkpoint inhibitors might be useful for the treatment of a subset of diffuse-type GCs which may develop from intestinal-type GCs.

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