Circulating Glioma Cells Exhibit Stem Cell-like Properties.

: Circulating tumor cells (CTC) are known to be present in the blood of patients with glioblastoma (GBM). Here we report that GBM-derived CTC possess a cancer stem cell (CSC)-like phenotype and contribute to local tumorigenesis and recurrence by the process of self-seeding. Genetic probes showed that mouse GBM-derived CTC exhibited Sox2/ETn transcriptional activation and expressed glioma CSC markers, consistent with robust expression of stemness-associated genes including SOX2, OCT4, and NANOG in human GBM patient-derived samples containing CTC. A transgenic mouse model demonstrated that CTC returned to the primary tumor and generated new tumors with enhanced tumorigenic capacity. These CTCs were resistant to radiotherapy and chemotherapy and to circulation stress-induced cell apoptosis. Single-cell RNA-seq analysis revealed that Wnt activation induced stemness and chemoresistance in CTC. Collectively, these findings identify GBM-derived CTC as CSC-like cells and suggest that targeting Wnt may offer therapeutic opportunities for eliminating these treatment-refractory cells in GBM. SIGNIFICANCE: These findings identify CTCs as an alternative source for in situ tumor invasion and recurrence through local micrometastasis, warranting eradication of systemic "out-of-tumor" CTCs as a promising new therapeutic opportunity for GBM.

[1]  Lin Zhang,et al.  Temporal DNA-PK activation drives genomic instability and therapy resistance in glioma stem cells. , 2018, JCI insight.

[2]  F. Lieberman,et al.  Effect of Tumor-Treating Fields Plus Maintenance Temozolomide vs Maintenance Temozolomide Alone on Survival in Patients With Glioblastoma: A Randomized Clinical Trial , 2017, JAMA.

[3]  Timothy H Lucas,et al.  Primary Cell Culture of Live Neurosurgically Resected Aged Adult Human Brain Cells and Single Cell Transcriptomics. , 2017, Cell reports.

[4]  G. Taylor,et al.  Circulating tumour cells from patients with colorectal cancer have cancer stem cell hallmarks in ex vivo culture , 2016, Gut.

[5]  Lin Zhang,et al.  c-Met-mediated endothelial plasticity drives aberrant vascularization and chemoresistance in glioblastoma. , 2016, The Journal of clinical investigation.

[6]  M R Speicher,et al.  The biology of circulating tumor cells , 2016, Oncogene.

[7]  J. Massagué,et al.  Metastatic colonization by circulating tumour cells , 2016, Nature.

[8]  Nupur K. Das,et al.  Preferential Iron Trafficking Characterizes Glioblastoma Stem-like Cells. , 2015, Cancer cell.

[9]  Ben S. Wittner,et al.  RNA-Seq of single prostate CTCs implicates noncanonical Wnt signaling in antiandrogen resistance , 2015, Science.

[10]  J. Rich,et al.  Cancer stem cells in glioblastoma , 2015, Genes & development.

[11]  A. Sloan,et al.  Extracranial metastasis of gliobastoma: Three illustrative cases and current review of the molecular pathology and management strategies. , 2015, Molecular and clinical oncology.

[12]  A. Iafrate,et al.  Brain tumor cells in circulation are enriched for mesenchymal gene expression. , 2014, Cancer discovery.

[13]  M. Speicher,et al.  Hematogenous dissemination of glioblastoma multiforme , 2014, Science Translational Medicine.

[14]  Mahmood Ayub,et al.  Tumorigenicity and genetic profiling of circulating tumor cells in small-cell lung cancer , 2014, Nature Medicine.

[15]  Qiulian Wu,et al.  Glioma cancer stem cells secrete Gremlin1 to promote their maintenance within the tumor hierarchy , 2014, Genes & development.

[16]  C. Chapman,et al.  Detection of brain tumor cells in the peripheral blood by a telomerase promoter-based assay. , 2014, Cancer research.

[17]  Sarah C. P. Williams Circulating tumor cells , 2013, Proceedings of the National Academy of Sciences.

[18]  Sridhar Ramaswamy,et al.  Circulating Breast Tumor Cells Exhibit Dynamic Changes in Epithelial and Mesenchymal Composition , 2013, Science.

[19]  Suyun Huang,et al.  FoxM1 and Wnt/β-catenin signaling in glioma stem cells. , 2012, Cancer research.

[20]  Tzong-Shiue Yu,et al.  A restricted cell population propagates glioblastoma growth following chemotherapy , 2012, Nature.

[21]  J. Stamler,et al.  Glioma Stem Cell Proliferation and Tumor Growth Are Promoted by Nitric Oxide Synthase-2 , 2011, Cell.

[22]  S. Gautam,et al.  The natural history of extracranial metastasis from glioblastoma multiforme , 2011, Journal of Neuro-Oncology.

[23]  C. Brennan,et al.  Perivascular nitric oxide activates notch signaling and promotes stem-like character in PDGF-induced glioma cells. , 2010, Cell stem cell.

[24]  B. Sullenger,et al.  Notch Promotes Radioresistance of Glioma Stem Cells , 2009, Stem cells.

[25]  Jiangyang Zhang,et al.  NOTCH Pathway Blockade Depletes CD133‐Positive Glioblastoma Cells and Inhibits Growth of Tumor Neurospheres and Xenografts , 2009, Stem cells.

[26]  S. Kyo,et al.  A simple biological imaging system for detecting viable human circulating tumor cells. , 2009, The Journal of clinical investigation.

[27]  J. Rossant,et al.  Isolation of human iPS cells using EOS lentiviral vectors to select for pluripotency , 2009, Nature Methods.

[28]  K. Pienta,et al.  Circulating Tumor Cells Predict Survival Benefit from Treatment in Metastatic Castration-Resistant Prostate Cancer , 2008, Clinical Cancer Research.

[29]  P. Sánchez,et al.  HEDGEHOG-GLI1 Signaling Regulates Human Glioma Growth, Cancer Stem Cell Self-Renewal, and Tumorigenicity , 2007, Current Biology.

[30]  Mark W. Dewhirst,et al.  Glioma stem cells promote radioresistance by preferential activation of the DNA damage response , 2006, Nature.

[31]  J. Chute Stem cell homing , 2006, Current opinion in hematology.

[32]  Martin J. van den Bent,et al.  Radiotherapy plus concomitant and adjuvant temozolomide for glioblastoma. , 2005, The New England journal of medicine.

[33]  Alison Stopeck,et al.  Circulating tumor cells, disease progression, and survival in metastatic breast cancer. , 2004, The New England journal of medicine.

[34]  H. Broxmeyer,et al.  Modulation of Hematopoietic Stem Cell Homing and Engraftment by CD26 , 2004, Science.

[35]  I. Weissman,et al.  Stem cells, cancer, and cancer stem cells , 2001, Nature.

[36]  R. Selker,et al.  Brain stem and spinal metastases of supratentorial glioblastoma multiforme: a clinical series. , 1990, Neurosurgery.