Citation

  • Authors: Wachtel, M., Rakic, J., Okoniewski, M., Bode, P., Niggli, F., Schafer, B. W.
  • Year: 2014
  • Journal: Int J Cancer 135 1543-52
  • Applications: in vitro / DNA, siRNA / INTERFERin, jetPRIME
  • Cell types:
    1. Name: CW9019
      Description: Human rhabdomyosarcoma cells
    2. Name: Rh3
      Description: Human rhabdomyosarcoma cells
    3. Name: Rh30
      Description: Human rhabdomyosarcoma cells
    4. Name: Rh4
      Description: Human rhabdomyosarcoma cells
    5. Name: Rh41
      Description: Human rhabdomyosarcoma cells
    6. Name: RMS13
      Description: Human rhabdomyosarcoma cells

Method

INTERFERin (2-8 nM siRNA): Rh3, Rh4, Rh41, Rh30, RMS13, CW9019 jetPRIME: RMS13

Abstract

Biological heterogeneity represents a major obstacle for cancer treatment. Therefore, characterization of treatment-relevant tumor heterogeneity is necessary to develop more effective therapies in the future. Here, we uncovered population heterogeneity among PAX/FOXO1-positive alveolar rhabdomyosarcoma by characterizing prosurvival networks initiated by FGFR4 signaling. We found that FGFR4 signaling rescues only subgroups of alveolar rhabdomyosarcoma cells from apoptosis induced by compounds targeting the IGF1R-PI3K-mTOR pathway. Differences in both proapoptotic machinery and FGFR4-activated signaling are involved in the different behavior of the phenotypes. Proapoptotic stress induced by the kinase inhibitors is sensed by Bim/Bad in rescue cells and by Bmf in nonrescue cells. Anti-apoptotic ERK1/2 signaling downstream of FGFR4 is long-lasting in rescue and short-termed in most non-rescue cells. Gene expression analysis detected signatures specific for these two groups also in biopsy samples. The different cell phenotypes are present in different ratios in alveolar rhabdomyosarcoma tumors and can be identified by AP2beta expression levels. Hence, inhibiting FGFR signaling might represent an important strategy to enhance efficacy of current RMS treatments.

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