Tf-CRM107 is a conjugate of transferrin and a point mutant of diphtheria toxin that selectively kills cells expressing high levels of the transferrin receptor. Tf-CRM107 has been infused intratumorally into patients with malignant brain tumors. Although approximately half of the patients exhibit tumor responses, patients receiving higher doses of Tf-CRM107 may develop magnetic resonance image (MRI) evidence of toxicity indicative of small vessel thrombosis or petechial hemorrhage. Consistent with these clinical results we found that intracerebral injection of Tf-CRM107 into rats at total doses ≥0.025 μg causes brain damage detectable by MRI and histology. To widen the therapeutic window of Tf-CRM107, we explored ways to prevent this damage to the vasculature. We reasoned that the vasculature may be protected to a greater extent than tumor from Tf-CRM107 infused into brain parenchyma by i.v. injection of reagents with low blood-brain barrier permeability that block the toxicity of Tf-CRM107. Chloroquine, a well-characterized antimalarial drug, blocks the toxicity of diphtheria toxin and Tf-CRM107. Systemic administration of chloroquine blocked the toxicity of Tf-CRM107 infused intracerebrally in rats and changed the maximum tolerated dose of Tf-CRM107 from 0.2 to 0.3 μg. Moreover, chloroquine treatment completely blocked the brain damage detected by MRI caused by intracerebral infusion of 0.05 μg of Tf-CRM107. In nude mice bearing s.c. U251 gliomas, chloroquine treatment had little effect on the antitumor efficacy of Tf-CRM107. Thus, chloroquine treatment may be useful to reduce the toxicity of Tf-CRM107 for normal brain without inhibiting antitumor efficacy and increase the therapeutic window of Tf-CRM107 for brain tumor therapy.