钇-90-DOTA免疫缀合物螯合的优化条件。

Optimized conditions for chelation of yttrium-90-DOTA immunoconjugates.

作者信息

Kukis D L, DeNardo S J, DeNardo G L, O'Donnell R T, Meares C F

机构信息

Department of Internal Medicine, University of California Davis Medical Center, Sacramento, USA.

出版信息

J Nucl Med. 1998 Dec;39(12):2105-10.

PMID:9867151

Abstract

UNLABELLED

Radioimmunotherapy (RIT) with 90Y-labeled immunoconjugates has shown promise in clinical trials. The macrocyclic chelating agent 1,4,7,10-tetraazacyclododecane-N,N',N",N"'-tetraacetic acid (DOTA) binds 90Y with extraordinary stability, minimizing the toxicity of 90Y-DOTA immunoconjugates arising from loss of 90Y to bone. However, reported 90Y-DOTA immunoconjugate product yields have been typically only < or =50%. Improved yields are needed for RIT with 90Y-DOTA immunoconjugates to be practical.

METHODS

(S) 2-[p-(bromoacetamido)benzyl]-DOTA (BAD) was conjugated to the monoclonal antibody Lym-1 via 2-iminothiolane (2IT). The immunoconjugate product, 2IT-BAD-Lym-1, was labeled in excess yttrium in various buffers over a range of concentrations and pH. Kinetic studies were performed in selected buffers to estimate radiolabeling reaction times under prospective radiopharmacy labeling conditions. The effect of temperature on reaction kinetics was examined. Optimal radiolabeling conditions were identified and used in eight radiolabeling experiments with 2IT-BAD-Lym-1 and a second immunoconjugate, DOTA-peptide-chimeric L6, with 248-492 MBq (6.7-13.3 mCi) of 90Y.

RESULTS

Ammonium acetate buffer (0.5 M) was associated with the highest uptake of yttrium. On the basis of kinetic data, the time required to chelate 94% of 90Y (four half-times) under prospective radiopharmacy labeling conditions in 0.5 M ammonium acetate was 17-148 min at pH 6.5, but it was only 1-10 min at pH 7.5. Raising the reaction temperature from 25 degrees C to 37 degrees C markedly increased the chelation rate. Optimal radiolabeling conditions were identified as: 30-min reaction time, 0.5 M ammonium acetate buffer, pH 7-7.5 and 37 degrees C. In eight labeling experiments under optimal conditions, a mean product yield (+/- s.d.) of 91%+/-8% was achieved, comparable to iodination yields. The specific activity of final products was 74-130 MBq (2.0-3.5 mCi) of 90Y per mg of monoclonal antibody. The immunoreactivity of 90Y-labeled immunoconjugates was 100%+/-11%.

CONCLUSION

The optimization of 90Y-DOTA chelation conditions represents an important advance in 90Y RIT because it facilitates the dependable and cost-effective preparation of 90Y-DOTA pharmaceuticals.

摘要

未标记

用90Y标记的免疫缀合物进行放射免疫治疗（RIT）在临床试验中已显示出前景。大环螯合剂1,4,7,10-四氮杂环十二烷-N,N',N",N"'-四乙酸（DOTA）与90Y结合具有极高的稳定性，可将90Y-DOTA免疫缀合物因90Y流失到骨骼而产生的毒性降至最低。然而，报道的90Y-DOTA免疫缀合物的产物产率通常仅≤50%。为使90Y-DOTA免疫缀合物用于RIT切实可行，需要提高产率。

方法

（S）2-[对-（溴乙酰胺基）苄基]-DOTA（BAD）通过2-亚氨基硫杂环戊烷（2IT）与单克隆抗体Lym-1偶联。免疫缀合物产物2IT-BAD-Lym-1在一系列浓度和pH值的各种缓冲液中用过量的钇进行标记。在选定的缓冲液中进行动力学研究，以估计预期放射性药物标记条件下的放射性标记反应时间。研究了温度对反应动力学的影响。确定了最佳放射性标记条件，并将其用于2IT-BAD-Lym-1和第二种免疫缀合物DOTA-肽-嵌合L6的八次放射性标记实验，使用248 - 492 MBq（6.7 - 13.3 mCi）的90Y。

结果

乙酸铵缓冲液（0.5 M）的钇摄取量最高。根据动力学数据，在0.5 M乙酸铵中，在预期放射性药物标记条件下螯合94%的90Y（四个半衰期）所需的时间在pH 6.5时为17 - 148分钟，但在pH 7.5时仅为1 - 10分钟。将反应温度从25℃提高到37℃显著提高了螯合速率。最佳放射性标记条件确定为：反应时间30分钟、0.5 M乙酸铵缓冲液、pH 7 - 7.5和37℃。在最佳条件下的八次标记实验中，平均产物产率（±标准差）达到91%±8%，与碘化产率相当。最终产物的比活度为每毫克单克隆抗体含74 - 130 MBq（2.0 - 3.5 mCi）的90Y。90Y标记的免疫缀合物的免疫反应性为100%±11%。