通过体内噬菌体展示实现针对ERBB2的单光子发射计算机断层显像（SPECT）成像肽的亲和力成熟

Affinity maturation of an ERBB2-targeted SPECT imaging peptide by in vivo phage display.

作者信息

Larimer Benjamin M, Thomas William D, Smith George P, Deutscher Susan L

机构信息

Research Service, Harry S. Truman Veterans Memorial Hospital, Columbia, MO, USA.

出版信息

Mol Imaging Biol. 2014 Aug;16(4):449-58. doi: 10.1007/s11307-014-0724-5.

DOI:10.1007/s11307-014-0724-5

PMID:24550054

Abstract

PURPOSE

The goal of this study was to improve the pharmacokinetic properties and specificity of an ERBB2-targeted peptide for SPECT imaging.

PROCEDURES

Bacteriophages (phages) displaying the ERBB2 targeting sequence, KCCYSL, flanked by additional random amino acids were used for in vivo selections in mice-bearing ERBB2-expressing MDA-MB-435 human breast xenografts. Phage-displayed peptides were evaluated for ERBB2 and cancer cell binding affinity and specificity in vitro, and one peptide was radiolabeled with (111)In-DOTA and biodistribution and SPECT imaging properties were compared to the first generation peptide, (111)In-DOTA-KCCYSL.

RESULTS

In vivo phage display selected two peptides, 1-D03 (MEGPSKCCYSLALSH) and 3-G03 (SGTKSKCCYSLRRSS), with higher breast carcinoma cell specificity and similar ErbB2 affinity (236 and 289 nM, respectively) to the first generation peptide. The corresponding radiolabeled probes bound with higher affinity to target cancer cells than (111)In-DOTA-KCCYSL; however, only (111)In-DOTA-1-D03 demonstrated higher specificity for MDA-MB-435 cells. Biodistribution analysis demonstrated that although (111)In-DOTA-1-D03 had slightly reduced tumor uptake (0.661 % ID/g) in comparison to (111)In-DOTA-KCCYSL (0.78 %/ID/g), its dramatic improvement in blood clearance led to a significantly higher tumor/blood ratio (6.02:1). Non-specific uptake was also reduced in most organs including heart, lung, muscle, bone, and kidneys. SPECT imaging revealed tumor-specific uptake of (111)In-DOTA-1-D03, which was confirmed by blocking with unlabeled 1-D03 peptide.

CONCLUSIONS

This is the first evidence that SPECT imaging peptides with improved tumor specificity and pharmacokinetics can be obtained by in vivo phage display affinity maturation. The combination of ERBB2-specific binding, rapid clearance, and tumor specificity may make 1-D03 a viable candidate for clinical imaging studies.

摘要

目的

本研究的目标是改善用于单光子发射计算机断层扫描（SPECT）成像的靶向ERBB2的肽的药代动力学特性和特异性。

程序

使用展示ERBB2靶向序列KCCYSL且两侧带有额外随机氨基酸的噬菌体在表达ERBB2的MDA-MB-435人乳腺异种移植瘤小鼠中进行体内筛选。对噬菌体展示的肽进行体外ERBB2和癌细胞结合亲和力及特异性评估，并用（111）铟-四氮杂环十二烷四乙酸（In-DOTA）对一种肽进行放射性标记，将其生物分布和SPECT成像特性与第一代肽（111）In-DOTA-KCCYSL进行比较。

结果

体内噬菌体展示筛选出两种肽，1-D03（MEGPSKCCYSLALSH）和3-G03（SGTKSKCCYSLRRSS），它们对乳腺癌细胞具有更高的特异性，且与第一代肽的表皮生长因子受体2（ErbB2）亲和力相似（分别为236和289 nM）。相应的放射性标记探针与靶癌细胞的结合亲和力高于（111）In-DOTA-KCCYSL；然而，只有（111）In-DOTA-1-D03对MDA-MB-435细胞表现出更高的特异性。生物分布分析表明，尽管（111）In-DOTA-1-D03与（111）In-DOTA-KCCYSL相比肿瘤摄取略有降低（0.661%注射剂量/克），但其血液清除的显著改善导致肿瘤/血液比值显著更高（6.02:1）。在包括心脏、肺、肌肉、骨骼和肾脏在内的大多数器官中，非特异性摄取也有所降低。SPECT成像显示（111）In-DOTA-1-D03的肿瘤特异性摄取，未标记的1-D03肽阻断实验证实了这一点。

结论

这是首个证据表明通过体内噬菌体展示亲和力成熟可获得具有改善的肿瘤特异性和药代动力学的SPECT成像肽。ERBB2特异性结合、快速清除和肿瘤特异性的结合可能使1-D03成为临床成像研究的可行候选物。

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通过体内噬菌体展示实现针对ERBB2的单光子发射计算机断层显像（SPECT）成像肽的亲和力成熟

Affinity maturation of an ERBB2-targeted SPECT imaging peptide by in vivo phage display.

作者信息

机构信息

出版信息

PURPOSE

PROCEDURES

RESULTS

CONCLUSIONS

目的

程序

结果

结论

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