RESUMEN
Affibody molecules are a class of small (ca.7 kDa) robust scaffold proteins with high potential as tracers for radionuclide molecular imaging in vivo. Incorporation of a cysteine-containing peptide-based chelator at the C terminus provides an opportunity for stable labelling with the radionuclide (99m)Tc. The use of a GGGC chelator at the C terminus has provided the lowest renal radioactivity retention of the previously investigated peptide-based chelators. Previously, it has also been demonstrated that replacement of the His(6)-tag with the negatively charged histidine-glutamate-histidine-glutamate-histidine-glutamate (HEHEHE)-tag permits purification of affibody molecules by immobilized metal ion affinity chromatography (IMAC) and provides low hepatic accumulation of radioactivity of conjugates site-specifically labelled at the C terminus using several different nuclides. We hypothesized that the combination of a HEHEHE-tag at the N terminus and a GGGC chelator at the C terminus of an affibody molecule would be a favourable format permitting IMAC purification and providing low uptake in excretory organs. To investigate this hypothesis, a (HE)(3)-Z(HER2:342)-GGGC affibody molecule was generated. It could be efficiently purified by IMAC and stably labelled with (99m)Tc. (99m)Tc-(HE)(3)-Z(HER2:342)-GGGC preserved specific binding to HER2-expressing cells. In NMRI mice, hepatic uptake of (99m)Tc-(HE)(3)-Z(HER2:342)-GGGC was lower than the uptake of the control affibody molecules, (99m)Tc-Z(HER2:2395)-VDC and (99m)Tc-Z(HER2:342)-GGGC. At 1 and 4 h after injection, the renal uptake of (99m)Tc-(HE)(3)-Z(HER2:342)-GGGC was 2-3-fold lower than uptake of (99m)Tc-Z(HER2:2395)-VDC, but it was substantially higher than uptake of (99m)Tc-Z(HER2:342)-GGGC. Further investigation indicated that a fraction of (99m)Tc was chelated by the HEHEHE-tag which caused a higher accumulation of radioactivity in the kidneys. Thus, a combination of a HEHEHE-tag and the GGGC chelator in targeting scaffold proteins was found to be undesirable in the case of (99m)Tc labelling due to a partial loss of site-specificity of nuclide chelation.