DTPA(DOTA)-Nimotuzumab Radiolabeling with Generator-produced Thorium for Radioimmunotherapy of EGFR-overexpressing Carcinomas.

IF 1.5 4区医学 Q3 PHARMACOLOGY & PHARMACY Current radiopharmaceuticals Pub Date : 2023-06-05 DOI:10.2174/1874471016666230221102518

Magdiel G Bravo, Bayirta V Egorova, Aleksandr N Vasiliev, Elena V Lapshina, Stanislav V Ermolaev, Mikhail O Durymanov

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Abstract

Introduction: The feasibility of preparing the "in-house" generators and the Th- DTPA(DOTA)-Nimotuzumab radioimmunoconjugate was evaluated. ²²⁶Th is perspective for TAT, however, due to short half-life it is preferable to apply this radionuclide for readily available epithelial malignancies. Nimotuzumab being specific for EGFR expressing cells as a targeting moiety is considered to be suitable for thorium delivery.

Methods: TEVA extraction chromatographic resin and anion exchange resin AG 1x8 were used as sorbents for ²²⁶Th generator. In order to determine features of labeling by Th4⁺ we applied ²³⁴Th as a longer-lived analog of short-lived ²²⁶Th and the immunoconjugates DTPA(DOTA)-Nimotuzumab were used for radiolabeling.

Results: The generator on the base of TEVA resin has shown higher volume activity of the product compared to the AG 1x8. The ²²⁶Th volume concentration was up to 80%/mL. The radiolabeling of BFCA by thorium radioisotopes reached 95% at the MR(Th:p-SCN-Bn-DTPA) = 1:100 and 86% for MR(Th:p-SCN-Bn-DOTA) = 1:5000 at 90°C. The procedure of Nimotuzumab labeling with Th4+ for radiotherapy of EGFR-overexpressing carcinomas was established. The overall labeling yield in both radioimmunoconjugates - DTPA and DOTA functionalized - was in the range of 45-50%. The immunoconjugate Nimotuzumab-p-SCN-Bn-DTPA was obtained with a molar ratio 1:25 (Nimotuzumab: BFCA), within 1 hour of conjugation at 25°C and labelled via postconjugation approach. Whereas Nimotuzumab-p-SCN-Bn-DOTA was obtained at the same conditions, but radiolabeled by the method of pre-conjugation.

Conclusion: Thorium-234 incorporation into both radioimmunoconjugates reached 45-50%. It has been shown that Th-DTPA-Nimotuzumab radioimmunoconjugate specifically bound with EGFR overexpressing epidermoid carcinoma A431 cells.

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DTPA(DOTA)-尼莫妥珠单抗用发电机产生的钍进行放射免疫标记，用于表皮生长因子受体表达过高的癌症的放射免疫治疗。

简介对制备 "内部 "发生器和Th- DTPA（DOTA）-尼莫妥珠单抗放射免疫结合剂的可行性进行了评估。226Th 是 TAT 的透视剂，但由于半衰期较短，因此最好将这种放射性核素用于现成的上皮恶性肿瘤。尼妥珠单抗作为靶向分子，对表皮生长因子受体表达细胞具有特异性，因此被认为适用于钍的输送：方法：使用 TEVA 提取色谱树脂和 AG 1x8 阴离子交换树脂作为 226Th 发生器的吸附剂。为了确定 Th4+ 标记的特征，我们使用 234Th 作为短效 226Th 的长效类似物，并使用免疫结合剂 DTPA(DOTA)-Nimotuzumab 进行放射性标记：结果：与 AG 1x8 相比，以 TEVA 树脂为基础的发生器显示出更高的产品体积活性。226Th 体积浓度高达 80%/毫升。在 90°C 下，钍放射性同位素对 BFCA 的放射性标记率在 MR(Th:p-SCN-Bn-DTPA) = 1:100 时达到 95%，在 MR(Th:p-SCN-Bn-DOTA) = 1:5000 时达到 86%。用 Th4+ 标记尼莫妥珠单抗用于表皮生长因子受体过表达癌的放射治疗的程序已经建立。两种放射免疫缀合物（DTPA 和 DOTA 功能化）的总体标记率在 45-50% 之间。尼莫妥珠单抗-p-SCN-Bn-DTPA免疫轭合物的摩尔比为1:25（尼莫妥珠单抗：BFCA），在25°C下轭合后1小时内获得，并通过后轭合法进行标记。而尼莫妥珠单抗-p-SCN-Bn-DOTA是在相同条件下获得的，但采用了预共轭法进行放射性标记：结论：钍-234在两种放射免疫结合剂中的掺入率都达到了45-50%。研究表明，Th-DTPA-Nimotuzumab 放射免疫结合剂能与表皮生长因子受体过度表达的表皮样癌 A431 细胞特异性结合。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Current radiopharmaceuticals PHARMACOLOGY & PHARMACY-

CiteScore

3.20

自引率

4.30%

发文量