Polylysine-Gd-DTPAn and Polylysine-Gd-DOTAn Coupled to Anti-CEA F(ab′)2 Fragments as Potential Immunocontrast Agents

Abstract

RATIONALE AND OBJECTIVES. Immunocontrast agents used for magnetic resonance imaging require antibodies that preserve the immunoreactivity while containing a high number of chelated paramagnetic ions. METHODS. Anti-CEA F(ab′)₂ fragments were coupled to polylysine-Gd-DOTA and polylysine-Gd-DTPA. A paramagnetic load as high as n = 24 to 28 metal ions per antibody was reached. RESULTS. The immunoreactivity of the gadolinium (Gd)-labeled anti-CEA F(ab′)₂ immunoconjugates was 80% to 85%. Compared with that of commercial chelates, the relaxivity (R₁) increase is as follows: Gd-DTPA < Gd-DOTA < Gd-H₂O < PL-Gd-DTPA_24-28 < PL-Gd-DTPA_24-28 F(ab′)₂ < PL-Gd-DOTA_24-28 < PL-Gd-DOTA_24-28 F(ab′)₂. ¹H nuclear magnetic relaxation dispersion data of immunoconjugates showed that the high relaxivity enhancement was the result of a reduction of the molecular tumbling rate. Twenty-four hours after intravenous injection of 50 μg (1 μmol Gd/kg) of Gd-labeled immunoconjugates to nude mice grafted with human colorectal carcinoma LS 174T, the tumor uptake was 10% to 15%, resulting in an increase of R₁ of up to 15% to 20% versus noninjected mice. No difference was found between PL-Gd-DTPA_24-28 F(ab′)₂ and PL-Gd-DOTA_24-28 F(ab′)₂ immunoconjugates for tumor, liver, and kidney uptake. A high signal intensity of tumor was observed in 50% of the tested mice.