Development of 177Lu-nanobodies for radioimmunotherapy of HER2-positive breast cancer: evaluation of different bifunctional chelators.

TitleDevelopment of 177Lu-nanobodies for radioimmunotherapy of HER2-positive breast cancer: evaluation of different bifunctional chelators.
Publication TypeJournal Article
Year of Publication2012
AuthorsD'huyvetter, M., A. Aerts, C. Xavier, I. Vaneycken, N. Devoogdt, M. Gijs, N. Impens, S. Baatout, B. Ponsard, S. Muyldermans, V. Caveliers, and T. Lahoutte
JournalContrast Media Mol Imaging
Volume7
Issue2
Pagination254-64
Date Published2012 Mar-Apr
ISSN1555-4317
KeywordsAnimals, Breast Neoplasms, Cell Line, Tumor, Chelating Agents, Female, Humans, Kinetics, Lutetium, Male, Mice, Nanoparticles, Pentetic Acid, Radioimmunotherapy, Radioisotopes, Receptor, erbB-2, Time Factors, Tissue Distribution
Abstract

Nanobodies show favourable pharmacokinetic characteristics for tumor targeting, including high tumor-to-background-ratios. Labelled with a therapeutic radionuclide, nanobodies could be used as an adjuvant treatment option for HER2-overexpressing minimal residual disease. The therapeutic radionuclide Lutetium-177 is linked to the nanobody using a bifunctional chelator. The choice of the bifunctional chelator could affect the in vivo behaviour of the radiolabeled nanobody. Consequently, we compared four different bifunctional chelators - p-SCN-Bn-DOTA, DOTA-NHS-ester, CHX-A"-DTPA or 1B4M-DTPA - in order to select the optimal chemical link between Lutetium-177 and a HER2 targeting nanobody. MS results revealed different degrees of chelator-conjugation. High stability in time was observed, together with nanomolar affinities on HER2-expressing tumor cells. Ex vivo biodistributions as well as SPECT/micro-CT analyses showed high activities in tumors expressing medium HER2 levels with low background activity except for the kidneys. The 1B4M-DTPA-coupled conjugate was further evaluated in a high HER2-expressing tumor model. Here, tumor uptake values of 5.99 ± 0.63, 5.12 ± 0.17, 2.83 ± 0.36 and 2.47 ± 0.38 %IA/g were obtained at 1, 3, 24 and 48h p.i., which coincided with exceptionally low background values, except for the kidneys, and unprecedented tumor-to-background ratios. No specific binding was observed in a HER2-negative model. In conclusion, the in-house developed anti-HER2 nanobody 2Rs15dHIS can be successfully labeled with (177) Lu using different bifunctional chelators. Both macrocyclic and acyclic chelators show high stability in time. High specific tumor uptake combined with the lowest background uptake was measured using the 1B4M-DTPA-based conjugate.

DOI10.1002/cmmi.491
Alternate JournalContrast Media Mol Imaging
PubMed ID22434639