%0 Journal Article %A Danny L. Costantini %A Katherine Bateman %A Kristin McLarty %A Katherine A. Vallis %A Raymond M. Reilly %T Trastuzumab-Resistant Breast Cancer Cells Remain Sensitive to the Auger Electron–Emitting Radiotherapeutic Agent 111In-NLS-Trastuzumab and Are Radiosensitized by Methotrexate %D 2008 %R 10.2967/jnumed.108.051771 %J Journal of Nuclear Medicine %P 1498-1505 %V 49 %N 9 %X Our goals in this study were to determine whether 111In-trastuzumab coupled to peptides harboring nuclear localizing sequences (NLSs) could kill trastuzumab-resistant breast cancer cell lines through the emission of Auger electrons and whether the combination of radiosensitization with methotrexate (MTX) would augment the cytotoxicity of this radiopharmaceutical. Methods: Trastuzumab was derivatized with sulfosuccinimidyl-4-(N-maleimidomethyl)cyclohexane-1-carboxylate for reaction with NLS peptides and then conjugated with diethylenetriaminepentaacetic acid for labeling with 111In. HER2 expression was determined by Western blot and by radioligand binding assay using 111In-trastuzumab in a panel of breast cancer cell lines, including SK-BR-3, MDA-MB-231 and its HER2-transfected subclone (231-H2N), and 2 trastuzumab-resistant variants (TrR1 and TrR2). Nuclear importation of 111In-NLS-trastuzumab and 111In-trastuzumab in breast cancer cells was measured by subcellular fractionation, and the clonogenic survival of these cells was determined after incubation with 111In-NLS-trastuzumab, 111In-trastuzumab, or trastuzumab (combined with or without MTX). Survival curves were analyzed according to the dose-response model, and the radiation-enhancement ratio was calculated from the survival curve parameters. Results: The expression of HER2 was highest in SK-BR-3 cells (12.6 × 105 receptors/cell), compared with 231-H2N and TrR1 cells (6.1 × 105 and 5.1 × 105 receptors/cell, respectively), and lowest in MDA-MB-231 and TrR2 cells (0.4 × 105 and 0.6 × 105 receptors/cell, respectively). NLS peptides increased the nuclear uptake of 111In-trastuzumab in MDA-MB-231, 231-H2N, TrR1, and TrR2 cells from 0.1% ± 0.01%, 2.5% ± 0.2%, 2.8% ± 0.7%, and 0.5% ± 0.1% to 0.5% ± 0.1%, 4.6% ± 0.1%, 5.2% ± 0.6%, and 1.5% ± 0.2%, respectively. The cytotoxicity of 111In-NLS-trastuzumab on breast cancer cells was directly correlated with the HER2 expression densities of the cells. On a molar concentration basis, the effective concentration required to kill 50% of 231-H2N and TrR1 cells for 111In-NLS-trastuzumab was 9- to 12-fold lower than for 111In-trastuzumab and 16- to 77-fold lower than for trastuzumab. MDA-MB-231 and TrR2 cells were less sensitive to 111In-NLS-trastuzumab or 111In-trastuzumab, and both cell lines were completely insensitive to trastuzumab. The radiation-enhancement ratio induced by MTX for 231-H2N and TrR1 cells after exposure to 111In-NLS-trastuzumab was 1.42 and 1.68, respectively. Conclusion: Targeted Auger electron radioimmunotherapy with 111In-NLS-trastuzumab can overcome resistance to trastuzumab, and MTX can potently enhance the sensitivity of HER2-overexpressing breast cancer cells to the lethal Auger electrons emitted by this radiopharmaceutical. %U https://jnm.snmjournals.org/content/jnumed/49/9/1498.full.pdf