Fibroblast activation protein (FAP) is overexpressed in cancer-associated fibroblasts (CAFs) in a majority of human epithelial cancers. With low expression in normal organs, FAP has become a promising molecular target for tumor theranostics. To develop a lower cost and more widely available alternative to positron emission tomography (PET), two isocyanide-containing FAP inhibitors (CN-C5-FAPI and CN-PEG4-FAPI) were synthesized and radiolabeled with 99mTc to obtain [99mTc][Tc-(CN-C5-FAPI)6]+ and [99mTc][Tc-(CN-PEG4-FAPI)6]+ in high yields (>95%). They showed good stability in saline and mouse serum. The partition coefficient (log P) values of [99mTc][Tc-(CN-C5-FAPI)6]+ and [99mTc][Tc-(CN-PEG4-FAPI)6]+ were -0.86 ± 0.03 and -2.38 ± 0.07, respectively, indicating that they were good hydrophilic complexes. The low nanomolar IC50 values of CN-C5-FAPI and CN-PEG4-FAPI indicated that they had specificity to FAP. In vitro cellular uptake and blocking experiments implied a FAP-targeted uptake mechanism. The nanomolar Kd values from the saturation binding assay indicated that they had significantly high target affinity to FAP. The biodistribution and blocking study in BALB/c nude mice bearing U87MG tumors showed that both exhibited specific tumor uptake. [99mTc][Tc-(CN-PEG4-FAPI)6]+ showed a higher tumor uptake and a higher tumor/nontarget ratio than [99mTc][Tc-(CN-C5-FAPI)6]+. The results of micro-single-photon emission computed tomography (SPECT) imaging studies of [99mTc][Tc-(CN-C5-FAPI)6]+ and [99mTc][Tc-(CN-PEG4-FAPI)6]+ were in accordance with the biodistribution results, suggesting that [99mTc][Tc-(CN-PEG4-FAPI)6]+ is a promising tumor imaging agent for targeting FAP.
Keywords: 99mTc; FAP; SPECT; isocyanide; tumor.