Irwin Fand scite author profile

The inaccessibility of radiolabeled antibody to poorly vascularized regions of solid tumors may reduce the therapeutic efficacy of these macromolecules. Theoretical mathematical models have predicted that increasing the protein dose administered would reduce the heterogeneity of radioantibody distribution. This investigation was undertaken to evaluate this hypothesis in experimental animal models. We have utilized the technique of macroautoradiography to demonstrate an increase in tumor penetration of the lower-affinity 125I-labeled NP-4 or higher-affinity Immu-14 anti-carcinoembryonic antigen (anti-CEA) mAbs into small (60.25-0.4 g) and large (0.8-1.5 g) GW-39 and LS174T human colonic xenografts, grown subcutaneously in the nude mouse, when 400 micrograms unlabeled antibody is administered simultaneously with 10 micrograms (100 microCi) radioantibody. Further increases in protein to 800 micrograms result in a reduction in total tumor uptake of the antibody. These in a reduction in total tumor uptake of the antibody. These differences in mAb distribution could be visualized as early as 1 day after antibody injection. Improved mAb penetration was also achieved for the Mu-9 anti-CSAp (anti-mucin) antibody using 800 micrograms unlabeled antibody. An irrelevant antibody (AFP-7-31) was found to be homogeneously distributed 3 days after injection, even at a low protein dose. Attempts to improve mAb penetration by increasing the protein dose in the GS-2 colorectal tumor, a model that has low NP-4 accretion as a result physiological barriers separating antibody from antigen, were not successful. These results suggest that a more homogeneous distribution of radioantibody can be achieved by carefully selecting a dose of unlabeled antibody to coadminister. Work is currently in progress to determine the effect of improved tumor distribution of radioantibody on the therapeutic potential of a single dose of radioantibody.

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Engineering disulfide-linked single-chain Fv dimers [(sFv')₂] with improved solution and targeting properties: anti-digoxin 26–10 (sFv')₂ and anti-c-erbB-2 741F8 (sFv')₂ made by protein folding and bonded through C-terminal cysteinyl peptides

McCartney

Tai

Hudziak

et al. 1995

Protein Eng Des Sel

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Single-chain Fv fusions with C-terminal cysteinyl peptides (sFv') have been engineered using model sFv proteins based upon the 26-10 anti-digoxin IgG and 741F8 anti-c-erbB-2 IgG monoclonal antibodies. As part of the 741F8 sFv construction process, the PCR-amplified 741F8 VH gene was modified in an effort to correct possible primer-induced errors. Genetic replacement of the N-terminal beta-strand sequence of 741F8 VH with that from the FR1 of anti-c-erbB-2 520C9 VH resulted in a dramatic improvement of sFv folding yields. Folding in urea-glutathione redox buffers produced active sFv' with a protected C-terminal sulfhydryl, presumably as the mixed disulfide with glutathione. Disulfide-bonded (sFv')2 homodimers were made by disulfide interchange or oxidation after reductive elimination of the blocking group. Both 26-10 (sFv')2 and 741F8 (sFv')2 existed as stable dimers that were well behaved in solution, whereas 741F8 sFv and sFv' exhibited considerable self-association. The 741F8 sFv binds to the extracellular domain (ECD) of the c-erbB-2 oncogene protein, which is often overexpressed in breast cancer and other adenocarcinomas. The recombinant ECD was prepared to facilitate the analysis of 741F8 binding site properties; the cloned ECD gene, modified to encode a C-terminal Ser-Gly-His6 peptide, was transfected into Chinese hamster ovary cells using a vector that also expressed dihydrofolate reductase to facilitate methotrexate amplification. Optimized cell lines expressed ECD-His6 at high levels in a cell bioreactor; after isolation by immobilized metal affinity chromatography, final ECD yields were as high as 47 mg/l. An animal tumor model complemented physicochemical studies of 741F8 species and indicated increased tumor localization of the targeted 741F8 (sFv')2 over other monovalent 741F8 species.

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Comparative toxicity studies of yttrium-90 mx-dtpa and 2-it-bad conjugated monoclonal antibody (bre-3)

DeNardo

Kroger

DeNardo

et al. 1994

Cancer

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Background. BrE‐3 is a monoclonal antibody that has promise for imaging and therapy of human adenocarcinoma. Because of observations in therapeutic trials of yttrium‐90 (90Y) escape from radioimmunoconjugates and uptake by the skeleton with resultant bone marrow toxicity, the authors attempted to evaluate the importance of this factor by a comparison of the LD50 in healthy mice treated with 90Y that had been chelated with either of two high affinity chelators, methylbenzyldiethylene‐triaminepentaacetic acid (MX‐DTPA) or bromoacetamidobenzyl‐1,4,7,10‐tetraazocyclododecane‐N,N′,N″,N″‐tetraacetic acid (BAD). Methods and Results. Bone marrow hematopoietic toxicity was dose‐limiting and the source of death for both chelators. The LD50 for 90Y‐BrE‐3‐MX‐DTPA was 220.9 μCi, and that for 90Y‐BrE‐3‐2IT‐BAD was 307.8 μCi. Whole‐body autoradiography revealed substantially greater uptake of 90Y in the skeleton when MX‐DTPA was used as the chelator. Conclusions. These observations suggest that 90Y escape to bone is a significant factor in the maximum tolerated dose of radioimmunoconjugate that can be used in therapeutic trials. These results probably underestimate the importance of 90Y escape since 90Y in the skeleton of patients is likely to be more significant than in mice because more of the 90Y energy is absorbed in the marrow of larger species. Cancer 1994 73:1012–22.

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Selection of a dtpa chelate conjugate for monoclonal antibody targeting to a human colonic tumor in nude mice

Sharkey

Motta-Hennessy

Gansow

et al. 1990

Intl Journal of Cancer

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Our previous studies with a 90Y-labelled antibody against carcinoembryonic antigen (CEA) conjugated to the cyclic anhydride-DTPA (CA-DTPA) indicated that the accretion of 90Y in the bone may limit the application of 90Y-labelled antibodies for therapy. In this report, we have compared the tumor targeting of CA-DTPA-conjugated antibody to antibody conjugated with 4 isothiocyanatobenzyl (ITC-Bz) derivatives of DTPA in nude mice bearing a human colonic tumor xenograft. In biodistribution studies using an 111In-labelled anti-CEA murine monoclonal antibody (MAb), the CA-DTPA-conjugated MAb showed lower tumor uptake, faster blood clearance, and higher accretion in the liver than any of the 4 ITC-Bz-DTPA-conjugated MAbs. There were smaller differences among the 4 ITC-Bz-DTPA conjugates. Whole-body autoradiography of animals given 90Y-MAb prepared with the CA-DTPA or the ITC-Bz-DTPA showed less radioactivity in the bone with the ITC-Bz-DTPA-MAb than the CA-DTPA-MAb. 90Y uptake in the bone corresponded with regions of low proliferative activity as defined by 3H-labelled thymidine, suggesting that the 90Y was in the cortex rather than the marrow. These studies clearly show an advantage of the ITC-Bz-DTPA derivatives for 90Y and 111In labelling of MAbs.

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Irwin Fand

The effect of antibody protein dose on the uniformity of tumor distribution of radioantibodies: An autoradiographic study

Engineering disulfide-linked single-chain Fv dimers [(sFv')₂] with improved solution and targeting properties: anti-digoxin 26–10 (sFv')₂ and anti-c-erbB-2 741F8 (sFv')₂ made by protein folding and bonded through C-terminal cysteinyl peptides

Comparative toxicity studies of yttrium-90 mx-dtpa and 2-it-bad conjugated monoclonal antibody (bre-3)

Selection of a dtpa chelate conjugate for monoclonal antibody targeting to a human colonic tumor in nude mice

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Irwin Fand

The effect of antibody protein dose on the uniformity of tumor distribution of radioantibodies: An autoradiographic study

Engineering disulfide-linked single-chain Fv dimers [(sFv')2] with improved solution and targeting properties: anti-digoxin 26–10 (sFv')2 and anti-c-erbB-2 741F8 (sFv')2 made by protein folding and bonded through C-terminal cysteinyl peptides

Comparative toxicity studies of yttrium-90 mx-dtpa and 2-it-bad conjugated monoclonal antibody (bre-3)

Selection of a dtpa chelate conjugate for monoclonal antibody targeting to a human colonic tumor in nude mice

Contact Info

Product

Resources

About

Engineering disulfide-linked single-chain Fv dimers [(sFv')₂] with improved solution and targeting properties: anti-digoxin 26–10 (sFv')₂ and anti-c-erbB-2 741F8 (sFv')₂ made by protein folding and bonded through C-terminal cysteinyl peptides