Pretargeting of renal cell carcinoma : Improved tumor targeting with a bivalent chelate

Radiolabeled monoclonal antibodies (mAbs) can target tumors selectively. Sustained activity levels in nontarget tissues limit their application. Pretargeting approaches using bispecific mAbs (bsmAbs) or the biotinavidin interaction have been proposed to improve tumor:nontumor ratios. Pretargeting a tumor and subsequently administering the radioactivity as a low molecular weight ligand fundamentally changes the pharmacokinetics of the radiolabel. In previous studies, we have shown successful radioimmunotargeting of diethylenetriaminepentaacetic acid (DTPA) labeled with indium-111 to renal cell carcinoma (RCC) after pretargeting in nude mice. In this study, we aimed to optimize further a pretargeting strategy in nude mice with RCC xenografts based on a bispecific anti-RCC x anti-DTPA mAb. Using this two-step approach, we studied whether the use of a bivalent chelate ((111)In-diDTPA) could improve radioimmunotargeting. The (111)In-diDTPA dose greatly affected the uptake of the radiolabeled chelate in the tumor. At a low (111)In-diDTPA dose (< or = 7 pmol), tumor uptake of (111)In-diDTPA was very high [>50% injected dose (ID)/g, 1 h postinjection (p.i.)], whereas at higher doses (> or = 20 pmol), tumor uptake of (111)In-diDTPA decreased (