Improved in vivo Targeting Capability and Pharmacokinetics of 99mTc-labeled isoDGR by Dimerization and Albumin-Binding for Glioma imaging

Previously, we successfully developed the c(phg-isoDGRk) peptide as a novel integrin α5β1-targeted SPECT imaging probe 99mTc-HisoDGR for Glioma imaging. However, the fast clearance of 99mTc-HisoDGR in blood reduced its tumor accumulation and retention, which would be the obstacles for further clinical application. Dimerization and albumin-binding strategies have been proven as effective approaches to improve tumor targeting capability and blood circulation time of radiotracers. In this study, the novel PEGylated dimeric isoDGR peptides (termed 3PisoDGR2) and its analogue with an albumin binder (termed AB-3PisoDGR2) were designed, and the corresponding radiotracers 99mTc-3PisoDGR2 and 99mTc-AB-3PisoDGR2 were fabricated and assessed for tumor-targeting and in vivo pharmacokinetics properties in subcutaneous and orthotopic tumor models. The dimerization of isoDGR peptide provided higher binding affinity to tumor cells and longer blood circulation time than the original monomeric isoDGR peptide, resulting in ...