DDRE-32. ABC TRANSPORTERS RESTRICT THE BRAIN PENETRATION AND INTRACRANIAL EFFICACY OF ANTICANCER AGENTS EVEN WHEN BLOOD-BRAIN BARRIER INTEGRITY IS LOST

Abstract

Abstract The impact of the blood-brain barrier (BBB) in brain tumors on the efficacy of anticancer drug therapy is controversial. In primary as well as metastatic brain tumors, the BBB is often disrupted. Yet, many intracranial cancers respond poorly to systemic therapies. We characterized the integrity of the BBB in a series of experimental intracranial tumor models using magnetic resonance imaging (MRI), fluorescent dyes and autoradiography. We also assessed the distribution and efficacy of docetaxel in healthy brain tissue and brain tumors that were grafted into P-glycoprotein (P-gp) proficient wild-type (WT) and deficient Abcb1a/b-/- recipient nude mice. Leakiness of the tumor vasculature varied from extensive to almost absent. Tumor blood vessels expressed P-gp and breast cancer resistance protein (BCRP). The leakiness of the vasculature resulted in higher docetaxel levels in tumors compared to normal brain. However, P-gp expression in tumor vessels reduced the drug distribution in tumors, which also translated into a reduced efficacy. Taken together, these studies demonstrate that leakiness of the BBB does not necessarily imply good accessibility to brain tumors of drugs that are substrates of P-gp and/or BCRP. Although therapeutic responses may be observed, the full potential of such therapeutics can still be attenuated by drug efflux pumps in the tumor vasculature. Therefore, only BBB-penetrable drugs with low to no affinity for efflux transporters should be considered for treatment of intracranial tumors.