177Lu labeling of Herceptin and preclinical validation as a new radiopharmaceutical for radioimmunotherapy of breast cancer.

INTRODUCTION

In the present study, Herceptin was labeled with lutetium-177 via DOTA, and the necessary preclinical quality control tests (in vitro and in vivo) were performed to evaluate its use as a radioimmunotherapy agent.

MATERIAL AND METHODS

Herceptin was conjugated to DOTA as a chelator in three different conjugation buffers (ammonium acetate, carbonate and HEPES buffer); each of the resulting conjugates was compared with respect to in vitro characteristics such as number of chelates per antibody, incorporated activity, immunoreactivity and in vitro stability in PBS buffer and blood serum. The biodistribution study and gamma camera imaging were performed in mice bearing breast tumors. To assess the therapeutic effects of (177)Lu-Herceptin, cytotoxicity was investigated for 7 days in a SKBr3 breast cancer cell line.

RESULTS

Carbonate buffer was the best conjugation buffer (number of chelates per antibody: 6; incorporated activity: 81%; immunoreactivity: 87%; buffer stability: 86%; serum stability: 81%, after 4 days). The efficient tumor uptake observed in the biodistribution studies was consistent with the gamma camera image results. At a concentration of 4 μg ml(-1), (177)Lu-Herceptin (surviving cells: 5 ± 0.6% of the total cells) of the total cells corresponded to an approximately eightfold increase in cytotoxicity in comparison to unmodified Herceptin (surviving cells: 43 ± 3.9%).

CONCLUSION

The new complex described herein could be considered for further evaluation in animals and potentially in humans as a radiopharmaceutical for use in the radioimmunotherapy of breast cancer. These results may be important for patients who cannot tolerate the therapeutic dosage of Herceptin currently used because of heart problems.