PLoS ONE (Jan 2011)

Clinical relevance of tumor cells with stem-like properties in pediatric brain tumors.

  • Cécile Thirant,
  • Barbara Bessette,
  • Pascale Varlet,
  • Stéphanie Puget,
  • Josette Cadusseau,
  • Silvina Dos Reis Tavares,
  • Jeanne-Marie Studler,
  • David Carlos Silvestre,
  • Aurélie Susini,
  • Chiara Villa,
  • Catherine Miquel,
  • Alexandra Bogeas,
  • Anne-Laure Surena,
  • Amélia Dias-Morais,
  • Nadine Léonard,
  • Françoise Pflumio,
  • Ivan Bièche,
  • François D Boussin,
  • Christian Sainte-Rose,
  • Jacques Grill,
  • Catherine Daumas-Duport,
  • Hervé Chneiweiss,
  • Marie-Pierre Junier

DOI
https://doi.org/10.1371/journal.pone.0016375
Journal volume & issue
Vol. 6, no. 1
p. e16375

Abstract

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BackgroundPrimitive brain tumors are the leading cause of cancer-related death in children. Tumor cells with stem-like properties (TSCs), thought to account for tumorigenesis and therapeutic resistance, have been isolated from high-grade gliomas in adults. Whether TSCs are a common component of pediatric brain tumors and are of clinical relevance remains to be determined.Methodology/principal findingsTumor cells with self-renewal properties were isolated with cell biology techniques from a majority of 55 pediatric brain tumors samples, regardless of their histopathologies and grades of malignancy (57% of embryonal tumors, 57% of low-grade gliomas and neuro-glial tumors, 70% of ependymomas, 91% of high-grade gliomas). Most high-grade glioma-derived oncospheres (10/12) sustained long-term self-renewal akin to neural stem cells (>7 self-renewals), whereas cells with limited renewing abilities akin to neural progenitors dominated in all other tumors. Regardless of tumor entities, the young age group was associated with self-renewal properties akin to neural stem cells (P = 0.05, chi-square test). Survival analysis of the cohort showed an association between isolation of cells with long-term self-renewal abilities and a higher patient mortality rate (P = 0.013, log-rank test). Sampling of low- and high-grade glioma cultures showed that self-renewing cells forming oncospheres shared a molecular profile comprising embryonic and neural stem cell markers. Further characterization performed on subsets of high-grade gliomas and one low-grade glioma culture showed combination of this profile with mesenchymal markers, the radio-chemoresistance of the cells and the formation of aggressive tumors after intracerebral grafting.Conclusions/significanceIn brain tumors affecting adult patients, TSCs have been isolated only from high-grade gliomas. In contrast, our data show that tumor cells with stem cell-like or progenitor-like properties can be isolated from a wide range of histological sub-types and grades of pediatric brain tumors. They suggest that cellular mechanisms fueling tumor development differ between adult and pediatric brain tumors.