避免循环抗原对¹²⁵I标记抗Tac dsFv生物分布产生不良影响的方法：预先注射完整抗体与使用抗生物素蛋白-生物素系统清除抗原

Methods to avoid adverse effect of circulating antigen on biodistribution of 125I-labeled antiTac dsFv: preinjection of intact antibody versus clearance of antigen with adivin-biotin system.

作者信息

Kobayashi H, Sun B F, Yoo T M, Le N, Kim M K, Paik C H, Pastan I, Waldmann T A, Carrasquillo J A

机构信息

Department of Nuclear Medicine, Warren G. Magnuson Clinical Center, National Cancer Institute, National Institutes of Health, Bethesda, Maryland 20892-1180, USA.

出版信息

J Nucl Med. 1999 Aug;40(8):1381-91.

PMID:10450692

Abstract

UNLABELLED

The presence of circulating antigen may adversely affect the biodistribution of a radiolabeled antibody. The alpha subunit of the interleukin-2 receptor (IL-2Ralpha) is a cell-surface receptor that is overexpressed in various hematologic malignancies and in benign disorders. This receptor is cleaved from the cell surface and can be found in high concentrations in serum. Radiolabeled antiTac antibodies are being evaluated to target this receptor. Previous studies have shown that circulating soluble IL-2Ralpha (slL-2Ralpha) adversely affected the biodistribution of radiolabeled antiTac disulfide-stabilized (ds)Fv. In this study, we compared blocking and clearing sIL-2Ralpha to see which better minimized its interference with the biodistribution of radiolabeled antiTac dsFv.

METHODS

Two models of sIL-2Ralpha were used: one consisted of mice given intravenous sIL-2Ralpha and the other consisted of mice bearing SP2/Tac tumor xenografts (IL-2Ralpha positive), which shed sIL-2Ralpha. We biotinylated humanized antiTac monoclonal antibody (bt-HuTac) and radiolabeled it with 125I. We then compared its biodistribution with that of humanized antiTac monoclonal antibody IgG (HuTac). We examined the biodistribution of an injected dose of 125I-labeled antiTac dsFv after a preinjection of HuTac to block the sIL-2Ralpha epitope and after a preinjection of bt-HuTac, followed by an avidin chase.

RESULT

The 125I-labeled bt-HuTac cleared from the serum at a rate similar to that of HuTac. The avidin chase effectively cleared >92% of circulating 125I-labeled bt-HuTac within 20 min and was also effective in clearing sIL-2Ralpha. In comparison, HuTac prolonged the retention of 125I-labeled sIL-2Ralpha in the circulation, and the avidin chase decreased 125I-labeled sIL-2Ralpha to <18% of control. Although the two-step antigen-clearing system effectively cleared the antigen from the circulation and improved the biodistribution of 125I-labeled dsFv, the HuTac preinjection method had a similar but longer lasting beneficial effect on 125I-labeled dsFv biodistribution.

CONCLUSION

Preinjection of either HuTac or bt-HuTac with avidin chase improved the biodistribution of subsequently administered 125I-labeled antiTac dsFv by preventing the dsFv from binding to the sIL-2Ralpha, but the HuTac blocking method is simpler and longer lasting.

摘要

未标记

循环抗原的存在可能会对放射性标记抗体的生物分布产生不利影响。白细胞介素-2受体（IL-2Rα）的α亚基是一种细胞表面受体，在各种血液系统恶性肿瘤和良性疾病中过度表达。该受体从细胞表面裂解，可在血清中高浓度发现。放射性标记的抗Tac抗体正在被评估用于靶向该受体。先前的研究表明，循环可溶性IL-2Rα（slL-2Rα）对放射性标记的抗Tac二硫键稳定化（ds）Fv的生物分布产生不利影响。在本研究中，我们比较了阻断和清除sIL-2Rα，以确定哪种方法能更好地最小化其对放射性标记的抗Tac dsFv生物分布的干扰。

方法

使用了两种sIL-2Rα模型：一种是给小鼠静脉注射sIL-2Rα，另一种是携带SP2/Tac肿瘤异种移植物（IL-2Rα阳性）的小鼠，其会释放sIL-2Rα。我们将人源化抗Tac单克隆抗体（bt-HuTac）生物素化并用125I进行放射性标记。然后将其生物分布与人类化抗Tac单克隆抗体IgG（HuTac）的生物分布进行比较。我们在预先注射HuTac以阻断sIL-2Rα表位后以及预先注射bt-HuTac并随后进行抗生物素蛋白追踪后，检查了注射剂量的125I标记的抗Tac dsFv的生物分布。

结果

125I标记的bt-HuTac从血清中清除的速率与HuTac相似。抗生物素蛋白追踪在20分钟内有效清除了>92%的循环125I标记的bt-HuTac，并且在清除sIL-2Rα方面也有效。相比之下，HuTac延长了125I标记的sIL-2Rα在循环中的保留时间，而抗生物素蛋白追踪将125I标记的sIL-2Rα降低至对照的<18%。虽然两步抗原清除系统有效地从循环中清除了抗原并改善了125I标记的dsFv的生物分布，但预先注射HuTac的方法对125I标记的dsFv生物分布有类似但持续时间更长的有益作用。