Biodistribution of five different backbone-substituted derivatives of SCN-Bz-DTPA (1B4M-DTPA, 1M3B-DTPA, 1B3M-DTPA, GEM-DTPA and 2B-DTPA) linked to MAb B72.3 were compared to that of the parent molecule after labeling with 111indium. Athymic mice, bearing human colon carcinoma xenografts (LS-174T) were injected i.v. to determine the biodistribution of the MAb chelate conjugates. Three of the MAb metal chelate conjugates (1B4M-DTPA, 1M3B-DTPA, and 1B3M-DTPA), labeled with 111In showed efficient and stable tumor localization as well as a slower blood clearance rate than SCN-Bz-DTPA, GEM-DTPA or 2B-DTPA MAb chelate conjugates. Major differences were also seen in normal organ uptake, especially liver and spleen. Tumor-to-liver ratios rose as a function of time for 1B4M-DTPA, 1M3B-DTPA and 1B3M-DTPA MAb chelate conjugates with virtually no accumulation of the radiometal into this organ, as revealed by no increase in the liver-to-blood values. Small accretion in normal liver was noted for SCN-Bz-DTPA, GEM-DTPA or 2B-DTPA MAb chelate conjugates. The results reviewed here, and described previously (Roselli et al., 1991) demonstrate that the use in vivo of backbone-substituted forms of the SCN-Bz-DTPA, such as 1B4M-DTPA, 1M3B-DTPA, and 1B3M-DTPA bound to MAbs, can reduce uptake of indium to normal organs while maximizing the dose to tumor.