Site-specific Conjugation of 6 DOTA Chelators to a CA19-9-targeting scFv-Fc Antibody for Imaging and Therapy
Lian Chen, Yueh‐Hsiang Yu, Wei‐Ting Tian, Wei-Chen Lin, Cédric Grauffel, Chun-Yi Wu, Chuan-Lin Chen, Carmay Lim, Hsing‐Mao Chu, Tse Wen Chang, Chi‐Jiun Peng
Abstract
High Resolution Image Download MS PowerPoint Slide Antibodies conjugated with diagnostic/therapeutic radionuclides are attractive options for inoperable cancers lacking accurate imaging methods and effective therapeutics, such as pancreatic cancer. Hence, we have produced an antibody radionuclide conjugate termed TE-1132 comprising a α-CA19-9 scFv-Fc that is site-specifically conjugated at each C-terminus to 3 DOTA chelators via a cysteine-containing peptide linker. The smaller scFv-Fc size facilitates diffusivity within solid tumors, whereas the chelator-to-antibody ratio of six enabled 177 Lu-radiolabeled TE-1132 to exhibit high radioactivity up to 520 MBq/nmol. In mice bearing BxPC3 tumors, immuno-SPECT/CT imaging of [ 111 In]In-TE-1132 and the biodistribution of [ 177 Lu]Lu-TE-1132 showed selective tumor accumulation. Single and multiple doses of [ 177 Lu]Lu-TE-1132 effectively inhibited the BxPC3 tumor growth and prolonged the survival of mice with no irreversible body weight loss or hematopoietic damage. The adequate pharmacokinetic parameters, prominent tumor accumulation, and efficacy with good safety in mice encourage the further investigation of theranostic TE-1132 for treating pancreatic cancer.