PT - JOURNAL ARTICLE AU - Gerard W. Visser AU - Rob P. Klok AU - Jacqueline W. Klein Gebbinck AU - Tom ter Linden AU - Guus A. van Dongen AU - Carla F. Molthoff TI - Optimal Quality <sup>131</sup>I-Monoclonal Antibodies on High-Dose Labeling in a Large Reaction Volume and Temporarily Coating the Antibody with IODO-GEN DP - 2001 Mar 01 TA - Journal of Nuclear Medicine PG - 509--519 VI - 42 IP - 3 4099 - http://jnm.snmjournals.org/content/42/3/509.short 4100 - http://jnm.snmjournals.org/content/42/3/509.full SO - J Nucl Med2001 Mar 01; 42 AB - A novel, facile procedure for efficient coupling of high doses of 131I to monoclonal antibodies (MAbs) was developed with minimal chemical and radiation damage. Methods: To diminish the radiation and chemical burden during labeling, iodination was performed in a large reaction volume and by temporarily coating the MAb with a minimal amount of IODO-GEN. The MAb was coated by injection of IODO-GEN (dissolved in acetonitrile [MeCN]) into the aqueous MAb solution, and the coating was subsequently removed by addition of ascorbic acid. For chemoprotection before, during, and after PD-10 purification of the 131I-MAbs, ascorbic acid and human serum albumin were used. The effects of autoradiolysis in the starting 131I solution were countered by treatment with NaOH and ascorbic acid. For this so-called IODO-GEN–coated MAb method, the sensitive chimeric MAb MOv18 (c-MOv18) and the more robust murine MAbs K928 and E48 were used. The high-dose 131I-labeled MAbs were characterized for radiochemical purity and MAb integrity by thin-layer chromatography, high-performance liquid chromatography, and sodium dodecyl sulfate polyacrylamide gel electrophoresis followed by phosphor imager quantification. The high-dose 131I-labeled MAbs were also characterized for immunoreactivity. The radiopharmacokinetics and biodistribution of 131I-c-MOv18 were analyzed in human tumor–bearing nude mice. For comparison, 131I-c-MOv18 batches were made using the conventional chloramine-T or IODO-GEN–coated vial method. Results: Conventional high-dose labeling of 5 mg c-MOv18 with 4.4 GBq 131I resulted in a labeling yield of 60%, a radiochemical purity of 90%, an immunoreactive fraction of 25% (72% being the maximum in the assay used), and the presence of aggregation and degradation products. Using similar amounts of 131I and MAb in the IODO-GEN–coated MAb method, 85%–89% overall radiochemical yield, at least 99.7% radiochemical purity, and full preservation of MAb integrity and immunoreactivity were achieved. For this labeling, 5 mg MAb were coated with 35 μg IODO-GEN during 3 min in a reaction volume of 6 mL. Also, biodistribution was optimal, and tumor accumulation was superior to that of coinjected 125I-c-MOv18 labeled according to the conventional IODO-GEN–coated vial method. Conclusion: A new, facile, high-dose 131I-labeling method was developed for production of 131I-labeled MAbs with optimal quality for use in clinical radioimmunotherapy.