On-Chip Clonal Analysis of Glioma-Stem-Cell Motility and Therapy Resistance

Daniel Gallego-Perez*, Lingqian Chang, Junfeng Shi, Junyu Ma, Sung Hak Kim, Xi Zhao, Veysi Malkoc, Xinmei Wang, Mutsuko Minata, Kwang J. Kwak, Yun Wu, Gregory P. Lafyatis, Wu Lu, Derek J. Hansford, Ichiro Nakano, L. James Lee

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

45 Scopus citations

Abstract

Enhanced glioma-stem-cell (GSC) motility and therapy resistance are considered to play key roles in tumor cell dissemination and recurrence. As such, a better understanding of the mechanisms by which these cells disseminate and withstand therapy could lead to more efficacious treatments. Here, we introduce a novel micro-/nanotechnology-enabled chip platform for performing live-cell interrogation of patient-derived GSCs with single-clone resolution. On-chip analysis revealed marked intertumoral differences (>10-fold) in single-clone motility profiles between two populations of GSCs, which correlated well with results from tumor-xenograft experiments and gene-expression analyses. Further chip-based examination of the more-aggressive GSC population revealed pronounced interclonal variations in motility capabilities (up to -4-fold) as well as gene-expression profiles at the single-cell level. Chip-supported therapy resistance studies with a chemotherapeutic agent (i.e., temozolomide) and an oligo RNA (anti-miR363) revealed a subpopulation of CD44-high GSCs with strong antiapoptotic behavior as well as enhanced motility capabilities. The living-cell-interrogation chip platform described herein enables thorough and large-scale live monitoring of heterogeneous cancer-cell populations with single-cell resolution, which is not achievable by any other existing technology and thus has the potential to provide new insights into the cellular and molecular mechanisms modulating glioma-stem-cell dissemination and therapy resistance.

Original languageEnglish
Pages (from-to)5326-5332
Number of pages7
JournalNano letters
Volume16
Issue number9
DOIs
StatePublished - 14 Sep 2016

Keywords

  • anti-microRNA
  • cancer stem cell
  • cell motility
  • glioblastoma
  • Living single-cell analysis
  • nanochannel electroporation

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