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Effective Treatment of Human Breast Carcinoma Xenografts with Single-Dose<sup>211</sup>At-Labeled Anti-HER2 Single-Domain Antibody Fragment

Yutian Feng, Rebecca Meshaw, Xiaoguang Zhao, Stephen A. Jannetti, Ganesan Vaidyanathan, Michael R. Zalutsky

2022Journal of Nuclear Medicine34 citationsDOIOpen Access PDF

Abstract

Single-domain antibody fragments (sdAbs) are attractive for targeted α-particle therapy, particularly with <sup>211</sup>At, because of their rapid accumulation in tumor and clearance from normal tissues. Here, we evaluate the therapeutic potential of this strategy with 5F7 and VHH_1028—2 sdAbs that bind with high affinity to domain IV of human epidermal growth factor receptor type 2 (HER2). <b>Methods:</b> The HER2-specific sdAbs and HER2-irrelevant VHH_2001 were labeled using <i>N</i>-succinimidyl-3-<sup>211</sup>At-astato-5-guanidinomethyl benzoate (<i>iso</i>-<sup>211</sup>At-SAGMB). The cytotoxicity of <i>iso-</i><sup>211</sup>At-SAGMB-5F7 and <i>iso-</i><sup>211</sup>At-SAGMB-VHH_2001 were compared on HER2-expressing BT474 breast carcinoma cells. Three experiments in mice with subcutaneous BT474 xenografts were performed to evaluate the therapeutic effectiveness of single doses of <i>iso-</i><sup>211</sup>At-SAGMB-5F7 (0.7–3.0 MBq), <i>iso-</i><sup>211</sup>At-SAGMB-VHH_1028 (1.0–3.0 MBq), and <i>iso-</i><sup>211</sup>At-SAGMB-VHH_1028 and <i>iso-</i><sup>211</sup>At-SAGMB-VHH_2001 (∼1.0 MBq). <b>Results:</b> Clonogenic survival of BT474 cells was reduced after exposure to <i>iso-</i><sup>211</sup>At-SAGMB-5F7 (D<sub>0</sub> = 1.313 kBq/mL) whereas <i>iso-</i><sup>211</sup>At-SAGMB-VHH_2001 was ineffective. Dose-dependent tumor growth inhibition was observed with <sup>211</sup>At-labeled HER2-specific 5F7 and VHH_1028 but not with HER2-irrelevant VHH_2001. At the 3.0-MBq dose, complete tumor regression was seen in 3 of 4 mice treated with <i>iso-</i><sup>211</sup>At-SAGMB-5F7 and 8 of 11 mice treated with <i>iso-</i><sup>211</sup>At-SAGMB-VHH_1028; prolongation in median survival was 495% and 414%, respectively. <b>Conclusion:</b> Combining rapidly internalizing, high-affinity HER2-targeted sdAbs with the <i>iso-</i><sup>211</sup>At-SAGMB residualizing prosthetic agent is a promising strategy for targeted α-particle therapy of HER2-expressing cancers.

Topics & Concepts

ChemistryMolecular biologyBiologyMonoclonal and Polyclonal Antibodies ResearchRadiopharmaceutical Chemistry and ApplicationsHER2/EGFR in Cancer Research