Regional [14C]misonidazole distribution in experimental RT-9 brain tumors

Abstract

Regional [14C]misonidazole-derived radioactivity (MISO) was measured by quantitative autoradiography in experimental RT-9 brain tumors 0.5, 2, and 4 hr after an i.v. bolus (25 mg) and constant infusion (10 mg/hr). Misonidazole (MISO) concentration in plasma and brain was also measured by high-pressure liquid chromatography; the brain/plasma MISO ratio ranged between 0.5 and 0.7. MISO equivalents were calculated from tissue or plasma 14C radioactivity and [14C]MISO specific activity data. The MISO/MISO equivalents ratio, which represents the nonmetabolized fraction of [14C]MISO, fell gradually in plasma (0.89 at 4 hr) and more rapidly in brain (0.67 at 4 hr) and tumor (0.30 at 4 hr). MISO distributed uniformly throughout the brain at all three time periods. In contrast, MISO distribution in tumor was variable, and tumor concentrations relative to that in brain increased with time. The average tumor/brain MISO ratio was 1.3, 1.7, and 2.6 at 0.5, 2, and 4 hr, respectively, which suggests tumor uptake and binding of MISO or, more likely, MISO-derived 14C-labeled metabolites. In addition, MISO distribution in tumor tissue was strikingly heterogeneous at 4 hr, resulting in an average high/low tumor activity ratio of 4/1 and an average high tumor/brain ratio of 5/1. Tumor regions with high MISO activity correlated in part to viable-appearing cells around necrotic foci.