首个适用于使用正电子发射断层扫描对表达生长抑素受体的肿瘤进行常规临床成像的（18）F标记示踪剂。

First (18)F-labeled tracer suitable for routine clinical imaging of sst receptor-expressing tumors using positron emission tomography.

作者信息

Schottelius Margret, Poethko Thorsten, Herz Michael, Reubi Jean-Claude, Kessler Horst, Schwaiger Markus, Wester Hans-Jürgen

机构信息

Nuklearmedizinische Klinik und Poliklinik, Klinikum rechts der Isar, Technische Universität München, München, Germany.

出版信息

Clin Cancer Res. 2004 Jun 1;10(11):3593-606. doi: 10.1158/1078-0432.CCR-03-0359.

DOI:10.1158/1078-0432.CCR-03-0359

PMID:15173065

Abstract

PURPOSE

Despite excellent radionuclide characteristics, no (18)F-labeled peptides are available for quantitative peptide receptor mapping using positron emission tomography (PET) so far, mainly due to time-consuming multistep radiosyntheses with limited overall yields. A newly developed two-step chemoselective conjugation method allows rapid and high-yield [(18)F]fluorination of peptides via oxime formation and was applied for the synthesis of new (18)F-labeled carbohydrated Tyr(3)-octreotate (TOCA) analogs with optimized pharmacokinetics suitable for clinical routine somatostatin-receptor (sst) imaging.

EXPERIMENTAL DESIGN

(18)F-labeled glucose (Gluc-S-) and cellobiose (Cel-S-) derivatives of aminooxy-functionalized TOCA were synthesized via oxime formation with 4-[(18)F]fluorobenzaldehyde ([(18)F]FBOA-peptides). Both the in vitro internalization profile of Gluc-S-Dpr([(18)F]FBOA)TOCA and Cel-S-Dpr([(18)F]FBOA)TOCA in hsst(2)-expressing Chinese hamster ovary cells (dual tracer protocol) and their biodistribution in AR42J tumor-bearing mice were investigated and compared with two [(18)F]fluoropropionylated ([(18)F]FP) analogs, Gluc-Lys([(18)F]FP)TOCA and Gluc-S-Dpr([(18)F]FP)TOCA.

RESULTS

In contrast to [(18)F]FP-labeling (3 h), chemo-selective [(18)F]FBOA-formation (50 min) afforded the respective radiopeptides in high yields (65-85%). In vitro, Gluc-S-Dpr([(18)F]FBOA)TOCA and Cel-S-Dpr([(18)F]FBOA)-TOCA showed high internalization (139 +/- 2 and 163 +/- 8 of the reference [(125)I]Tyr(3)-octreotide, respectively), which was reflected by high tumor accumulation in vivo [21.8 +/- 1.4 and 24.0 +/- 2.5% of injected dose/g (1 h), respectively]. How-ever, only Cel-S-Dpr([(18)F]FBOA)TOCA and Gluc-S-Dpr([(18)F]FP)TOCA (tumor: 15.1 +/- 1.5% of injected dose/g) with its very low accumulation in all of the nontarget organs showed improved tumor:organ ratios compared with Gluc-Lys([(18)F]FP)TOCA. For Cel-S-Dpr([(18)F]FBOA)TOCA,tumor:organ ratios (1 h) were 42:1, 27:1, 15:1, 3:1, and 208:1 for blood, liver, intestine, kidney, and muscle, respectively.

CONCLUSION

Due to the fast and high-yield chemoselective radiofluorination strategy and to its excellent pharmacokinetics, Cel-S-Dpr([(18)F]FBOA)TOCA represents the first tracer suitable for routine clinical application in PET somatostatin receptor imaging.

摘要

目的

尽管放射性核素特性优良，但目前尚无用于正电子发射断层扫描（PET）定量肽受体显像的（18）F标记肽，主要原因是多步放射性合成耗时且总产率有限。一种新开发的两步化学选择性偶联方法可通过肟形成实现肽的快速高产率[（18）F]氟化，并应用于合成具有优化药代动力学的新型（18）F标记糖基化酪氨酰-奥曲肽（TOCA）类似物，适用于临床常规生长抑素受体（sst）显像。

实验设计

通过与4-[(18)F]氟苯甲醛（[(18)F]FBOA-肽）形成肟，合成了氨氧基功能化TOCA的（18）F标记葡萄糖（Gluc-S-）和纤维二糖（Cel-S-）衍生物。研究了Gluc-S-Dpr([(18)F]FBOA)TOCA和Cel-S-Dpr([(18)F]FBOA)TOCA在表达hsst(2)的中国仓鼠卵巢细胞中的体外内化情况（双示踪剂方案）及其在荷AR42J肿瘤小鼠中的生物分布，并与两种[(18)F]氟丙酰化（[(18)F]FP）类似物Gluc-Lys([(18)F]FP)TOCA和Gluc-S-Dpr([(18)F]FP)TOCA进行比较。

结果

与[(18)F]FP标记（3小时）相比，化学选择性[(18)F]FBOA形成（50分钟）以高产率（65-85%）得到相应的放射性肽。在体外，Gluc-S-Dpr([(18)F]FBOA)TOCA和Cel-S-Dpr([(18)F]FBOA)-TOCA表现出高内化（分别为参考[(125)I]酪氨酰-奥曲肽的139±2和163±8），这在体内表现为高肿瘤摄取[分别为注射剂量/克的21.8±1.4和24.0±2.5%（1小时）]。然而，只有Cel-S-Dpr([(18)F]FBOA)TOCA和Gluc-S-Dpr([(18)F]FP)TOCA（肿瘤：15.1±1.5%注射剂量/克）在所有非靶器官中的摄取非常低，与Gluc-Lys([(18)F]FP)TOCA相比，肿瘤：器官比值有所改善。对于Cel-S-Dpr([(18)F]FBOA)TOCA，1小时时血液、肝脏、肠道、肾脏和肌肉的肿瘤：器官比值分别为42:1、27:1、15:1、3:1和208:1。