Tara Heitner scite author profile

To optimize in vivo tissue uptake kinetics and clearance of engineered monoclonal antibody (mAb) fragments for radiotherapeutic and radiodiagnostic applications, we compared the biodistribution and tumor localization of four 111In- and 86Y-labeled antibody formats, derived from a single antimindin/RG-1 mAb, in a prostate tumor model. The IgG, diabody, single-chain variable domain (scFv), and novel miniantibody formats, composed of the human IgE-CH4 and a modified IgG1 hinge linked to scFv domains, were compared. Methods Antibodies were first derivatized with the bifunctional chelator CHX-A″-diethylenetriamine pentaacetic acid and then bound to the radiometal to create radiolabeled immunoconjugates. Human LNCaP xenografts were grown in nude mice, and 111In- or 86Y-labeled antibodies were administered intravenously. Tissues were harvested at different times, and the level of antibody deposition was determined by measuring radioactivity. Whole-body small-animal PET of mice receiving 86Y-labeled antibodies was performed at 6 time points and colocalized with simultaneous micro-CT imaging. Results The biodistributions of 111In and 86Y antibodies were quite similar. The blood, tumor, kidney, and liver tissues contained varying levels of radioactivity. The antibody accumulation in the tumor correlated with molecular size. The IgG steadily increased with time to 24.1 percentage injected dose per gram (%ID/g) at 48 h. The miniantibody accumulated at a similar rate to reach a lower level (14.2 %ID/g) at 48 h but with a higher tumor-to-blood ratio than the IgG. Tumor accumulation of the diabody peaked at 3 h, reaching a much lower level (3.7 %ID/g). A combination of rapid clearance and lower relative affinity of the scFv precluded deposition in the tumor. Small-animal PET results correlated well with the biodistribution results, with similar tumor localization patterns. Conclusion The larger antibody formats (IgG and miniantibody) gave higher tumor uptake levels than did the smaller formats (diabody and scFv). These larger formats may be more suitable for radioimmunotherapy applications, evidenced by the preclinical efficacy previously shown by a report on the IgG format. The smaller formats were rapidly cleared from circulation, and the diabody, which accumulated in the tumor, may be more suitable for radiodiagnostic applications.

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Isolation of scFvs toIn VitroProduced Extracellular Domains of EGFR Family Members

Horak

Heitner²,

Robinson³

et al. 2005

Cancer Biotherapy and Radiopharmaceuticals

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The members of the epidermal growth factor receptor (EGFR) family are over expressed in a variety of malignancies and are frequently linked to aggressive disease and a poor prognosis. Although clinically effective monoclonal antibodies (MAbs) have been developed to target HER2 and EGFR, the remaining two family members, HER3 and HER4, have not been the subject of significant efforts. In this paper, we have taken the initial steps required to generate antibodies with potential clinically utility that target the members of the EGFR family. The genes for the extracellular domains (ECDs) of all four members of the EGFR family were cloned and used to stably transfect 293 (HEK) cells. Milligram quantities of each ECD were produced and characterized. The HER3, HER4, and EGFR ECDs were then employed as targets for the selection of antibodies from naïve human scFv (single-chain Fv) phage display libraries. Six unique scFv clones were isolated that bound specifically to HER3, 13 unique clones were isolated with specificity for HER4 and 52 unique anti-EGFR clones were isolated. These scFvs provide a valuable and potentially clinically relevant panel of agents to target the members of the EGFR family.

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Tara Heitner

Selection of cell binding and internalizing epidermal growth factor receptor antibodies from a phage display library

Fidelity by design: Yoctoreactor and binder trap enrichment for small-molecule DNA-encoded libraries and drug discovery

In Vivo Biodistribution, PET Imaging, and Tumor Accumulation of ⁸⁶Y- and ¹¹¹In-Antimindin/RG-1, Engineered Antibody Fragments in LNCaP Tumor–Bearing Nude Mice

Isolation of scFvs toIn VitroProduced Extracellular Domains of EGFR Family Members

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Tara Heitner

Selection of cell binding and internalizing epidermal growth factor receptor antibodies from a phage display library

Fidelity by design: Yoctoreactor and binder trap enrichment for small-molecule DNA-encoded libraries and drug discovery

In Vivo Biodistribution, PET Imaging, and Tumor Accumulation of 86Y- and 111In-Antimindin/RG-1, Engineered Antibody Fragments in LNCaP Tumor–Bearing Nude Mice

Isolation of scFvs toIn VitroProduced Extracellular Domains of EGFR Family Members

Contact Info

Product

Resources

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In Vivo Biodistribution, PET Imaging, and Tumor Accumulation of ⁸⁶Y- and ¹¹¹In-Antimindin/RG-1, Engineered Antibody Fragments in LNCaP Tumor–Bearing Nude Mice