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  • Indium-111 labeling of low density lipoproteins with the DTPA-bis(stearylamide): evaluation as a potential radiopharmaceutical for tumor localization.

Indium-111 labeling of low density lipoproteins with the DTPA-bis(stearylamide): evaluation as a potential radiopharmaceutical for tumor localization.

Bioconjugate chemistry (1996-01-01)
F Jasanada, P Urizzi, J P Souchard, F Le Gaillard, G Favre, F Nepveu
ABSTRACT

In order to use the LDL receptor pathway to target radionuclides to cancer sites for imaging and diagnostic purposes, a labeling procedure of LDL with 111In using the DTPA-bis(stearylamide) (L) has been developed. This bifunctional ligand is intended to be incorporated into the phospholipid monolayer of LDL and to specifically chelate the In3+ cation at the surface. The ligand was incorporated into LDL in buffered medium with a 65-80% yield. The L-LDL samples are stable over a 24 h period when examined by dialysis, allowing their storage before indium-111 radiolabeling. In vitro studies of In-L-LDL particles show that indium labeling is rapidly achieved (1 h). More than 85% of the indium atoms are bound to the chelating functions of the incorporated DTPA derivatives and less than 10% to the nonspecific complexation sites of LDL (e.g., protein residues). After incubation in human serum, the indium activity recovered in the LDL fraction of In-L-LDL samples (95%) is much higher than in In-LDL samples (35%), pointing out the strong stabilizing chelating effect of the ligand. Competitive binding studies show that In-L-LDL are recognized by LDL receptors of A549 cells like native LDL when the In-L/LDL ratio varies from 5 to 30. All these in vitro experiments demonstrate that the In-L-LDL conjugates possess properties suitable for further work with in vivo experiments.

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Avanti
DTPA-BSA (Gd), DTPA-bis(stearylamide) (gadolinium salt), powder