Targeting Claudin 18.2 Using a Highly Specific Antibody Enables Cancer Diagnosis and Guided Surgery
Chuanke Zhao, Zhuona Rong, Jin Ding, Lixin Wang, Bing Wang, Lei Ding, Meng Lin, Xiangxi Meng, Feng Wang, Zhi Yang, Chengchao Shou, Hua Zhu
Abstract
Claudin 18.2 (CLDN18.2) is a new potential target for cancer therapy, especially for advanced gastric cancer (AGC). A molecular targeting probe is of importance for patient stratification and therapeutic guidance. Here, we explored an antibody-dependent molecular imaging strategy for specific detection and surgery guidance based on a CLDN18.2-specific antibody, 5C9. Two imaging probes, 124I-5C9 and Cy5.5-5C9, were synthesized. The specificity to CLDN18.2 being evidenced in the cellular experiments with control, the diagnostic utility was assessed by immunopositron emission tomography (immuno-PET) and fluorescence imaging using xenograft models. A near-infrared fluorescent II imaging probe FD1080-5C9 was designed to facilitate the comprehensive surgical removal of lesions. 124I-5C9 immuno-PET imaging clearly delineated subcutaneous CLDN18.2-positive tumors, with a peak uptake (maximum standardized uptake value; SUVmax) of 2.25 ± 0.30, whereas the highest values for the 124I-IgG and blocking groups were 0.70 ± 0.13 and 0.66 ± 0.12, respectively. Cy5.5-5C9 fluorescence imaging showed similar results. As proof of the diagnosis and guided surgery (DGS) concept, 124I-5C9 and FD1080-5C9 were simultaneously administered in orthotopic CLDN18.2-positive tumor models, facilitating the comprehensive resection of tumor tissue. Combined, 124I-5C9 and FD1080-5C9 are both promising DGS tools: the former reveals CLDN18.2 in lesions as a PET probe, and the latter can guide surgery. These results provide a utility molecular imaging strategy for specific detection and surgery guidance based on a CLDN18.2-specific antibody both in AGC and other cancers.