Monoclonal antibodies (MAbs) targeted to glioma-associated antigens may allow the selective delivery of imaging and therapeutic agents to brain tumors; the use of MAb fragments may be a strategy to further improve tumor uptake of such agents relative to normal tissues. In this study, we have examined the in vivo localization of radioiodinated MAb Me1-14, a murine immunoglobulin G2a (IgG2a) reactive with gliomas, and its F(ab')2 fragment in s.c. and intracranial xenografts of human glioma cell line D-54 MG in athymic mice. The radiolabeled F(ab')2 fragment of Me1-14 was demonstrated to possess in vitro binding affinity and immunoreactivity comparable to that of whole IgG. Direct comparison of IgG and F(ab')2 biodistribution in s.c. xenograft-bearing mice showed higher tumor: normal tissue ratios of the F(ab')2 fragment compared to IgG. In intracranial tumor-bearing mice paired-label analysis using a nonspecific protein control showed earlier specific tumor localization by the F(ab')2 fragment of Me1-14 compared to IgG. Blood-to-tumor transfer constants (K1) derived for Me1-14 F(ab')2 were significantly greater than those for whole Me1-14 (P = 0.01). Estimated radiation dosimetry revealed that 131I-labeled Me1-14 F(ab')2 would deliver higher radiation doses to tumor than to normal tissues. These studies demonstrate that the F(ab')2 fragment of Me1-14 may be a potential agent for immune-directed brain tumor diagnosis and therapy.