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Molecular Targeting and Treatment of an Epidermal Growth Factor Receptor–Positive Glioma Using Boronated Cetuximab

Authors' Affiliations: Departments of ¹ Pathology, ² Pediatrics, and ³ Radiology, ⁴ College of Pharmacy, ⁵ Nuclear Engineering Program, and ⁶ School of Public Health, The Ohio State University; ⁷ Children's Research Institute, Columbus, Ohio; ⁸ Nuclear Reactor Laboratory, Massachusetts Institute of Technology, Cambridge, Massachusetts; and ⁹ Department of Neurosurgery, Roswell Park Cancer Institute, Buffalo, New York

Requests for reprints: Rolf F. Barth, Department of Pathology, The Ohio State University, 165 Hamilton Hall, 1645 Neil Avenue, Columbus, OH 43210. Phone: 614-292-2177; Fax: 614-292-7072; E-mail: rolf.barth{at}osumc.edu.

Purpose: The purpose of the present study was to evaluate the anti–epidermal growth factor monoclonal antibody (mAb) cetuximab (IMC-C225) as a delivery agent for boron neutron capture therapy (BNCT) of a human epidermal growth factor receptor (EGFR) gene-transfected rat glioma, designated as F98_EGFR.

Experimental Design: A heavily boronated polyamidoamine dendrimer was chemically linked to cetuximab by means of the heterobifunctional reagents N-succinimidyl 3-(2-pyridyldithio)-propionate and N-(k-maleimido undecanoic acid)-hydrazide. The bioconjugate, designated as BD-C225, was specifically taken up by F98_EGFR glioma cells in vitro compared with receptor-negative F98 wild-type cells (41.8 versus 9.1 µg/g). For in vivo biodistribution studies, F98_EGFR cells were implanted stereotactically into the brains of Fischer rats, and 14 days later, BD-C225 was given intracerebrally by either convection enhanced delivery (CED) or direct intratumoral (i.t.) injection.

Results: The amount of boron retained by F98_EGFR gliomas 24 h following CED or i.t. injection was 77.2 and 50.8 µg/g, respectively, with normal brain and blood boron values <0.05 µg/g. Boron neutron capture therapy was carried out at the Massachusetts Institute of Technology Research Reactor 24 h after CED of BD-C225, either alone or in combination with i.v. boronophenylalanine (BPA). The corresponding mean survival times (MST) were 54.5 and 70.9 days (P = 0.017), respectively, with one long-term survivor (more than 180 days). In contrast, the MSTs of irradiated and untreated controls, respectively, were 30.3 and 26.3 days. In a second study, the combination of BD-C225 and BPA plus sodium borocaptate, given by either i.v. or intracarotid injection, was evaluated and the MSTs were equivalent to that obtained with BD-C225 plus i.v. BPA.

Conclusions: The survival data obtained with BD-C225 are comparable with those recently reported by us using boronated mAb L8A4 as the delivery agent. This mAb recognizes the mutant receptor, EGFRvIII. Taken together, these data convincingly show the therapeutic efficacy of molecular targeting of EGFR using a boronated mAb either alone or in combination with BPA and provide a platform for the future development of combinations of high and low molecular weight delivery agents for BNCT of brain tumors.

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