Rosik Daniel, Thibblin Alf, Antoni Gunnar, Honarvar Hadis, Strand Joanna, Selvaraju Ram Kumar, Altai Mohamed, Orlova Anna, Eriksson Karlström Amelie, Tolmachev Vladimir
Division of Protein Technology, School of Biotechnology, KTH Royal Institute of Technology , Stockholm, Sweden.
Bioconjug Chem. 2014 Jan 15;25(1):82-92. doi: 10.1021/bc400343r. Epub 2013 Dec 27.
Affibody molecules are a class of affinity agents for molecular imaging based on a non-immunoglobulin protein scaffold. Previous studies have demonstrated high contrast for in vivo imaging of cancer-associated molecular abnormalities using Affibody molecules. Using the radionuclide (18)F for labeling and PET as the imaging modality, the sensitivity of molecular imaging using Affibody molecules can be further increased. The use of oxime formation between an aminooxy-functionalized peptide and (18)F-fluorobenzaldehyde ((18)F-FBA) is a promising way of radiolabeling of targeting peptides. However, previous studies demonstrated that application of this method to Affibody molecules is associated with high liver uptake. We hypothesized that incorporation of a triglutamyl spacer between the aminooxy moiety and the N-terminus of a synthetic Affibody molecule would decrease the hepatic uptake of the (18)F-N-(4-fluorobenzylidine)oxime) ((18)F-FBO)-labeled tracer. To verify this, we have produced two variants of the HER2-targeting ZHER2:342 Affibody molecule by peptide synthesis: OA-PEP4313, where aminooxyacetic acid was conjugated directly to the N-terminal alanine, and OA-E3-PEP4313, where a triglutamyl spacer was introduced between the aminooxy moiety and the N-terminus. We have found that the use of the spacer is associated with a minor decrease of affinity, from KD = 49 pM to KD = 180 pM. Radiolabeled (18)F-FBO-E3-PEP4313 demonstrated specific binding to HER2-expressing ovarian carcinoma SKOV-3 cells and slow internalization. Biodistribution studies in mice demonstrated that the use of a triglutamyl linker decreased uptake of radioactivity in liver 2.7-fold at 2 h after injection. Interestingly, radioactivity uptake in kidneys was also reduced (2.4-fold). Experiments in BALB/C nu/nu mice bearing SKOV-3 xenografts demonstrated HER2-specific uptake of (18)F-FBO-E3-PEP4313 in tumors. At 2 h pi, the tumor uptake (20 ± 2% ID/g) exceeded uptake in liver 5-fold and uptake in kidneys 3.6-fold. The tumor-to-blood ratio was 21 ± 3. The microPET/CT imaging experiment confirmed the biodistribution data. In conclusion, the use of a triglutamyl spacer is a convenient way to improve the biodistribution profile of Affibody molecules labeled at the N-terminus using (18)F-FBA. It provides a tracer capable of producing high-contrast images of HER2-expressing tumors.
亲和体分子是一类基于非免疫球蛋白蛋白质支架的分子成像亲和剂。先前的研究已证明使用亲和体分子对癌症相关分子异常进行体内成像具有高对比度。使用放射性核素(18)F进行标记并以PET作为成像方式,可进一步提高使用亲和体分子进行分子成像的灵敏度。在氨基氧基官能化肽与(18)F-氟苯甲醛((18)F-FBA)之间形成肟是对靶向肽进行放射性标记的一种有前景的方法。然而,先前的研究表明,将该方法应用于亲和体分子时会出现肝脏摄取率高的情况。我们推测,在合成亲和体分子的氨基氧基部分与N端之间引入一个三谷氨酰胺间隔基会降低(18)F-N-(4-氟亚苄基)肟((18)F-FBO)标记示踪剂的肝脏摄取。为了验证这一点,我们通过肽合成制备了两种靶向HER2的ZHER2:342亲和体分子变体:OA-PEP4313,其中氨基氧基乙酸直接与N端丙氨酸偶联;以及OA-E3-PEP4313,其中在氨基氧基部分与N端之间引入了一个三谷氨酰胺间隔基。我们发现,使用间隔基会使亲和力略有下降,从KD = 49 pM降至KD = 180 pM。放射性标记的(18)F-FBO-E3-PEP4313显示出与表达HER2的卵巢癌SKOV-3细胞特异性结合且内化缓慢。在小鼠体内进行的生物分布研究表明,使用三谷氨酰胺连接体可使注射后2小时肝脏中的放射性摄取降低2.7倍。有趣的是,肾脏中的放射性摄取也有所降低(2.4倍)。在携带SKOV-3异种移植瘤的BALB/C nu/nu小鼠中进行的实验表明,(18)F-FBO-E3-PEP4313在肿瘤中具有HER2特异性摄取。注射后2小时,肿瘤摄取率(20±2% ID/g)超过肝脏摄取率5倍,超过肾脏摄取率3.6倍。肿瘤与血液的比值为21±3。微型PET/CT成像实验证实了生物分布数据。总之,使用三谷氨酰胺间隔基是改善使用(18)F-FBA在N端标记的亲和体分子生物分布情况的一种简便方法。它提供了一种能够对表达HER2的肿瘤产生高对比度图像的示踪剂。
