PLoS ONE (Jan 2016)

Metronomic Doses of Temozolomide Enhance the Efficacy of Carbon Nanotube CpG Immunotherapy in an Invasive Glioma Model.

  • Mao Ouyang,
  • Ethan E White,
  • Hui Ren,
  • Qin Guo,
  • Ian Zhang,
  • Hang Gao,
  • Song Yanyan,
  • Xuebo Chen,
  • Yiming Weng,
  • Anna Da Fonseca,
  • Sunny Shah,
  • Edwin R Manuel,
  • Leying Zhang,
  • Steven L Vonderfecht,
  • Darya Alizadeh,
  • Jacob M Berlin,
  • Behnam Badie

DOI
https://doi.org/10.1371/journal.pone.0148139
Journal volume & issue
Vol. 11, no. 2
p. e0148139

Abstract

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Even when treated with aggressive current therapies, most patients with glioblastoma survive less than two years. Rapid tumor growth, an invasive nature, and the blood-brain barrier, which limits the penetration of large molecules into the brain, all contribute to the poor tumor response associated with conventional therapies. Immunotherapy has emerged as a therapeutic approach that may overcome these challenges. We recently reported that single-walled carbon nanotubes (SWCNTs) can be used to dramatically increase the immunotherapeutic efficacy of CpG oligonucleotides in a mouse model of glioma. Following implantation in the mouse brain, the tumor cell line used in these previous studies (GL261) tends to form a spherical tumor with limited invasion into healthy brain. In order to evaluate SWCNT/CpG therapy under more clinically-relevant conditions, here we report the treatment of a more invasive mouse glioma model (K-Luc) that better recapitulates human disease. In addition, a CpG sequence previously tested in humans was used to formulate the SWCNT/CpG which was combined with temozolomide, the standard of care chemotherapy for glioblastoma patients. We found that, following two intracranial administrations, SWCNT/CpG is well-tolerated and improves the survival of mice bearing invasive gliomas. Interestingly, the efficacy of SWCNT/CpG was enhanced when combined with temozolomide. This enhanced anti-tumor efficacy was correlated to an increase of tumor-specific cytotoxic activity in splenocytes. These results reinforce the emerging understanding that immunotherapy can be enhanced by combining it with chemotherapy and support the continued development of SWCNT/CpG.