EXTH-68. ONCOMAGNETIC TREATMENT SELECTIVELY KILLS GLIOMA CANCER CELLS BY INDUCING OXIDATIVE STRESS AND DNA DAMAGE

Abstract

Abstract A new noninvasive therapeutic device developed in our laboratory called the Oncomagnetic device provides a novel approach to glioblastoma (GBM) treatment. It involves repeated stimulation with oscillating magnetic fields (sOMF) produced by spinning permanent magnets. It is technologically and mechanistically distinct from the Optune® device approved by the FDA for the treatment of newly diagnosed and recurrent GBM. Use of this device in one end-stage GBM patient reversed the progression of his recurrent tumor causing >30% reduction in its contrast-enhanced volume within 4 weeks of treatment. Mice with implanted mouse glioma cells in their brains also showed marked reduction in tumor size, increased survival (p< 0.05, n = 10) and higher DNA damage (g-H2AX foci) after sOMF treatment with a whole-body stimulation method developed by us. Normal mice exposed to sOMF for 4 months had no adverse effects on the brain and other organs. In-vitro, sOMF markedly increased reactive oxygen species (ROS) levels in cancer cells leading to the selective death of these cells, while sparing normal neurons and astrocytes. Detection of g-H2AX and 53BP1 foci showed that sOMF caused significant DNA damage in GBM cells and diffuse intrinsic pontine glioma (DIPG) cells but not in normal astroglial SVGp12 cells. Furthermore, sOMF exposure for just 2 h resulted in >40% loss of surviving GBM and DIPG cell colonies detected by clonogenic cell survival assay, similar to that produced by 2 Gy radiation dose. This loss was rescued by the antioxidant Trolox. These results indicate that sOMF stimulation has high anticancer potency comparable to low dose radiation therapy at the cellular level with an underlying mechanism of action that is substantially different from that proposed for Optune® TTF.