Strategies for labelling branched polypeptides with a poly(L-lysine) backbone with radioiodines (123I, 125I, 131I) and radiometals (111In, 51Cr) for biodistribution studies and radiopharmaceutical development

Abstract

Methods have been developed for radiolabelling synthetic branched polypeptides, these being based on a poly(L‐lysine) backbone with short side chains of three DL‐alanine residues and one other amino acid at the end of the branches (MW ∼45‐100 kDa). Labelling has been carried out with gamma emitting radionuclides suitable for use in biodistribution studies or for gamma scintigraphy. Labelling with ^125^I was achieved by reaction of the polypeptides' terminal amino groups with pre‐iodinated Bolton and Hunter Reagent (N‐Succinimidyl 3‐(4‐hydroxy‐5‐[^125^I]iodophenyl)propionate). Alternatively, polypeptides were reacted with non‐labelled Bolton and Hunter reagent, which could subsequently be iodinated with ^123^I, ^125^I or ^131^I by oxidative incorporation from [^123^I]Nal, [^125^I]Nal, or [^123^I]Nal. For labelling with radiometals, the polypeptides' terminal amino groups were reacted with diethylenetriaminepentaacetic acid (DTPA) anhydride, and the conjugated DTPA subsequently labelled with ^111^In or ^51^Cr by chelation. An amphoteric polypeptide, having terminal glutamic acid residues on its side chains (EAK), and a polycationic polypeptide, with terminal D‐lysine (D‐KAK) were labelled in these ways. In addition EAK previously conjugated to the cis‐aconityl derivative of daunomycin (EAK‐cAD) was similarly labelled. Gel permeation chromatography on Sephacryl S‐300, which was possible with the amphoteric EAK, showed virtually identical elution profiles with ^123^I, ^125^I ^131^I, ^111^In and ^51^Cr labelled EAK and its cAD conjugate. Biodistribution studies in mice showed prolonged blood survival of the radionuclide of ^125^I, ^111^In or ^51^Cr labelled EAK and EAK‐cAD. There were, however, differences in organ levels of the radionuclides. Generally kidney, spleen and liver levels of radiometals were higher than those of radioiodine, while levels in the gastrointestinal tract were higher with radioiodine. D‐KAK labelled with any of the three radionuclides was cleared rapidly from the blood, high levels of all tracers being found in spleen, liver, kidney and lung.