Maximizing Local Access to Therapeutic Deliveries in Glioblastoma. Part I: Targeted Cytotoxic Therapy

ABSTRACT

Glioblastoma (GBM), a primary brain tumor, remains an unmet medi¬cal need. One of the major obstacles to GBM treatment is the adequate properties of drugs. Complex pathobiology of GBM, including local invasion and intratu¬moral heterogeneity, represent major challenges to generating effective therapies. We discuss here the design of targeted cytotoxic drugs with an increased access to tumors and pathophysiologically important tumor compartments. Our research and others’ have shown that interleukin 13 receptor alpha 2 (IL-13RA2), EphA2, and EphA3 receptors are overexpressed in most patients with GBM, but not in normal brain, and also in spontaneous canine high-grade gliomas like GBM, an excellent translational model of GBM. These receptors and also the EphB2 recep¬tor are overexpressed and are functional in several GBM compartments involved in tumor progression and/or resistance to therapies. We pursue the novel idea of targeting all four receptors with one targeted cytotoxic compound (QUAD-CTX). We are constructing a molecularly targeted anti-GBM drug that (i) may not require patient prescreening, (ii) will attack most tumor compartments known to be pathobiologically important, and (iii) performs these functions in one pharma¬ceutical entity, so it will be suitable for monotherapy. We thus wish to take advan¬tage of a unique opportunity to produce an off-the-shelf, highly specific, molecularly targeted drug candidate suitable to treat perhaps even all patients with GBM. We envision that this “molecular resection” will translate into clear-cut durable responses in patients suffering from this dreadful disease.