Development of Novel Integrin α(v)β(3)‑Targeted Radioligand for Enhanced Tumor Accumulation

Effective tumor delivery of radioligands is crucial for cancer diagnosis and therapy. Integrin α(v)β(3) is an attractive target for cancer treatment, and the development of integrin α(v)β(3)-targeted radioligands with high-level tumor accumulation is desired. Albumin binder (ALB) is a useful moiety to enhance tumor accumulation of radioligands. Furthermore, the introduction of dual amino acid linkers to an ALB-containing prostate-specific membrane antigen-targeted radioligand enhances the tumor accumulation by increasing its albumin-binding affinity. In this study, we newly developed two integrin α(v)β(3)-targeted radioligands: one containing both dual amino acid linkers and ALB ([(111)In]-In-RGD-DA6) and another containing only ALB ([(111)In]-In-RGD-DA1). In albumin-binding assays, [(111)In]-In-RGD-DA6 showed higher albumin-binding affinity than [(111)In]-In-RGD-DA1 and [(111)In]-In-DOTA-c-(RGDfK), a counterpart without dual amino acid linkers and ALB. In biodistribution studies, [(111)In]-In-RGD-DA6 also showed higher tumor accumulation than [(111)In]-In-RGD-DA1 and [(111)In]-In-DOTA-c-(RGDfK). These results highlight the potential of [(111)In]-In-RGD-DA6 as an integrin α(v)β(3)-targeted radioligand with enhanced tumor accumulation.