Pharmacokinetics of an antibody–ricin conjugate administered intraperitoneally to mice

Immunotoxins have been extensively studied for the treatment of neoplasias; their intracavitary administration could be useful for the therapy of tumors confined to the pleural or peritoneum spaces. To study the feasibility of this “locoregional” treatment, a pharmacokinetic study of immunotoxins delivery is necessary. Ricin, a plant toxin extracted from the seeds of Ricinus communis, has often been used in immunoconjugates for its high activity; nevertheless, appropriate strategies have been necessary to limit the aspecific toxicity. We previously prepared a AR‐3‐ricin immunotoxin lacking the ability to bind galactosidic cell surface residues, a so‐called sterically blocked immunotoxin. The monoclonal antibody AR‐3, an IgG1 specific to the CAR‐3 antigen, was able to recognize human colorectal adenocarcinomas. Preclinical trials in nude mice, intraperitoneally grafted with the target neoplasia, showed that this immunotoxin suppressed tumor growth without showing any undesirable ricin toxicity. In the present work we report the pharmacokinetic properties of this immunotoxin, showing the in vivo stability and a relatively long blood survival. With a biodistribution study in tumor‐bearing mice, we demonstrate that in tumor‐invaded tissues, the concentration of the specific AR‐3‐ricin immunotoxin was higher and progressively increased in a multipledose regimen. In contrast, an irrelevant immunotoxin behaved differently because it did not show specific tumor uptake. Moreover the pharmacokinetic data reported in this work improve the potential for “locoregional” treatment of malignancy with blocked immunotoxins.