99mTc标记的二价和四价CC49单链Fv片段：用于人结肠癌体内快速定位的新型显像剂。

99mTc-labeled divalent and tetravalent CC49 single-chain Fv's: novel imaging agents for rapid in vivo localization of human colon carcinoma.

作者信息

Goel A, Baranowska-Kortylewicz J, Hinrichs S H, Wisecarver J, Pavlinkova G, Augustine S, Colcher D, Booth B J, Batra S K

机构信息

Department of Biochemistry and Molecular Biology, Eppley Institute for Research in Cancer and Allied Diseases, University of Nebraska Medical Center, Omaha, NE 68198, USA.

出版信息

J Nucl Med. 2001 Oct;42(10):1519-27.

PMID:11585867

Abstract

UNLABELLED

Radioimmunopharmaceutical agents enabling rapid high-resolution imaging, high tumor-to-background ratios, and minimal immunogenicity are being sought for cancer diagnosis and imaging. Genetic engineering techniques have allowed the design of single-chain Fv's (scFv's) of monoclonal antibodies (mAbs) recognizing tumor-associated antigens. These scFv's show good tumor targeting and biodistribution properties in vivo, indicating their potential as imaging agents when labeled with a suitable radionuclide.

METHODS

Divalent (sc(Fv)(2)) and tetravalent (sc(Fv)(2)) scFv's of mAb CC49 were evaluated for radioimmunolocalization of LS-174T colon carcinoma xenografts in athymic mice. scFv's were radiolabeled with (99m)Tc by way of the bifunctional chelator succinimidyl-6-hydrazinonicotinate hydrochloride using tricine as the transchelator. The immunoreactivity and in vitro stability of the scFv's were analyzed after radiolabeling. Biodistribution and pharmacokinetic studies were performed to determine the tumor-targeting potential of the radiolabeled scFv's. Whole-mouse autoradiography illustrated the possible application of these (99m)Tc-labeled multivalent scFv's for imaging.

RESULTS

The radiolabeling procedure gave > or =95% radiometal incorporation, with a specific activity of >74 MBq/mg scFv. In solid-phase radioimmunoassay, both sc(Fv)(2) and sc(Fv)(2) exhibited 75%-85% immunoreactivity, with nonspecific binding between 0.8% and 1.2%. Size-exclusion high-performance liquid chromatography showed sc(Fv)(2) as a 60-kDa protein and sc(Fv)(2) as a 120-kDa protein. Blood clearance studies showed the elimination half-life of (99m)Tc-labeled sc(Fv)(2) as 144 min and that of sc(Fv)(2) as 307 min. Whole-body clearance studies confirmed the rapid elimination of scFv's, with half-lives of 184 +/- 19 min for sc(Fv)(2) and 265 +/- 39 min for sc(Fv)(2) (P < 0.001). At 6 h after administration, the tumor localization was 7.2 +/- 0.7 percentage injected dose per gram of tumor (%ID/g) for (99m)Tc-sc(Fv)(2). (99m)Tc-sc(Fv)(2) showed a tumor uptake of 19.1 +/- 1.1 %ID/g at the same time; the amount of radioactivity in the tumors was 4-fold higher than in the spleen and kidneys and 2-fold higher than in the liver. Macroautoradiography performed at 6 and 16 h after administration clearly detected the tumor with both scFv's.

CONCLUSION

(99m)Tc-labeled multivalent scFv's show good tumor-targeting characteristics and high radiolocalization indices (tumor-to-background ratio). These reagents, therefore, have the potential for use in clinical imaging studies of cancer in the field of nuclear medicine.

摘要

未标记

正在寻找能够实现快速高分辨率成像、高肿瘤与背景比值以及最小免疫原性的放射免疫药物用于癌症诊断和成像。基因工程技术已使得能够设计识别肿瘤相关抗原的单克隆抗体（mAb）的单链Fv片段（scFv）。这些scFv在体内显示出良好的肿瘤靶向性和生物分布特性，表明它们在用合适的放射性核素标记后作为成像剂的潜力。

方法

评估了单克隆抗体CC49的二价（sc(Fv)(2)）和四价（sc(Fv)(2)）scFv对无胸腺小鼠体内LS - 174T结肠癌异种移植瘤的放射免疫定位。通过双功能螯合剂琥珀酰亚胺基 - 6 - 肼基烟酸盐酸盐，以tricines作为转螯合剂，用(99m)Tc对scFv进行放射性标记。放射性标记后分析scFv的免疫反应性和体外稳定性。进行生物分布和药代动力学研究以确定放射性标记的scFv的肿瘤靶向潜力。全小鼠放射自显影说明了这些(99m)Tc标记的多价scFv在成像中的可能应用。

结果

放射性标记过程使放射性金属掺入率≥95%，比活度＞74 MBq/mg scFv。在固相放射免疫分析中，sc(Fv)(2)和sc(Fv)(2)均表现出75% - 85%的免疫反应性，非特异性结合在0.8%至1.2%之间。尺寸排阻高效液相色谱显示sc(Fv)(2)为60 kDa的蛋白质，sc(Fv)(2)为120 kDa的蛋白质。血液清除研究表明，(99m)Tc标记的sc(Fv)(2)的消除半衰期为144分钟，sc(Fv)(2)的消除半衰期为307分钟。全身清除研究证实scFv快速消除，sc(Fv)(2)的半衰期为184±19分钟，sc(Fv)(2)的半衰期为265±39分钟（P＜0.001）。给药后6小时，(99m)Tc-sc(Fv)(2)的肿瘤定位为每克肿瘤注射剂量的7.2±0.7%（%ID/g）。(99m)Tc-sc(Fv)(2)在同一时间显示肿瘤摄取为19.1±1.1 %ID/g；肿瘤中的放射性活度比脾脏和肾脏高4倍，比肝脏高2倍。给药后6小时和16小时进行的宏观放射自显影清楚地用两种scFv检测到了肿瘤。