Vugts Danielle J, Klaver Chris, Sewing Claudia, Poot Alex J, Adamzek Kevin, Huegli Seraina, Mari Cristina, Visser Gerard W M, Valverde Ibai E, Gasser Gilles, Mindt Thomas L, van Dongen Guus A M S
Department of Radiology & Nuclear Medicine, VU University Medical Center, De Boelelaan 1085, loc. Radionuclide Center, 1081HV, Amsterdam, The Netherlands.
Department of Chemistry, University of Zurich, Zurich, Switzerland.
Eur J Nucl Med Mol Imaging. 2017 Feb;44(2):286-295. doi: 10.1007/s00259-016-3499-x. Epub 2016 Aug 30.
All clinical Zr-immuno-PET studies are currently performed with the chelator desferrioxamine (DFO). This chelator provides hexadentate coordination to zirconium, leaving two coordination sites available for coordination with, e.g., water molecules, which are relatively labile ligands. The unsaturated coordination of DFO to zirconium has been suggested to result in impaired stability of the complex in vivo and consequently in unwanted bone uptake of Zr. Aiming at clinical improvements, we report here on a bifunctional isothiocyanate variant of the octadentate chelator DFO* and the in vitro and in vivo comparison of its Zr-DFO*-mAb complex with Zr-DFO-mAb.
The bifunctional chelator DFO*-pPhe-NCS was prepared from previously reported DFO* and p-phenylenediisothiocyanate. Subsequently, trastuzumab was conjugated with either DFO*-pPhe-NCS or commercial DFO-pPhe-NCS and radiolabeled with Zr-89 according to published procedures. In vitro stability experiments were carried out in saline, a histidine/sucrose buffer, and blood serum. The in vivo performance of the chelators was compared in N87 tumor-bearing mice by biodistribution studies and PET imaging.
In 0.9 % NaCl Zr-DFO*-trastuzumab was more stable than Zr-DFO-trastuzumab; after 72 h incubation at 2-8 °C 95 % and 58 % intact tracer were left, respectively, while in a histidine-sucrose buffer no difference was observed, both products were ≥ 92 % intact. In vivo uptake at 144 h post injection (p.i.) in tumors, blood, and most normal organs was similar for both conjugates, except for skin, liver, spleen, ileum, and bone. Tumor uptake was 32.59 ± 11.95 and 29.06 ± 8.66 % ID/g for Zr-DFO*-trastuzumab and Zr-DFO-trastuzumab, respectively. The bone uptake was significantly lower for Zr-DFO*-trastuzumab compared to Zr-DFO-trastuzumab. At 144 h p.i. for Zr-DFO*-trastuzumab and Zr-DFO-trastuzumab, the uptake in sternum was 0.92 ± 0.16 and 3.33 ± 0.32 % ID/g, in femur 0.78 ± 0.11 and 3.85, ± 0.80 and in knee 1.38 ± 0.23 and 8.20 ± 2.94 % ID/g, respectively. The uptake in bone decreased from 24 h to 144 h p.i. about two fold for the DFO* conjugate, while it increased about two fold for the DFO conjugate.
Zr-DFO*-trastuzumab showed superior in vitro stability and in vivo performance when compared to Zr-DFO-trastuzumab. This makes the new octadentate DFO* chelator a candidate successor of DFO for future clinical Zr-immuno-PET.
目前所有临床锆免疫正电子发射断层显像(Zr-immuno-PET)研究均使用螯合剂去铁胺(DFO)进行。这种螯合剂与锆形成六齿配位,留下两个配位位点可用于与相对不稳定的配体如水分子配位。有人认为DFO与锆的不饱和配位会导致体内复合物稳定性受损,从而导致锆在骨骼中出现不必要的摄取。为了实现临床改进,我们在此报告八齿螯合剂DFO的双功能异硫氰酸酯变体,以及其Zr-DFO-单克隆抗体(mAb)复合物与Zr-DFO-mAb的体外和体内比较。
双功能螯合剂DFO*-对苯丙氨酸-NCS由先前报道的DFO和对苯二异硫氰酸酯制备。随后,将曲妥珠单抗与DFO-对苯丙氨酸-NCS或市售的DFO-对苯丙氨酸-NCS偶联,并根据已发表的程序用Zr-89进行放射性标记。在生理盐水、组氨酸/蔗糖缓冲液和血清中进行体外稳定性实验。通过生物分布研究和PET成像比较螯合剂在荷N87肿瘤小鼠体内的性能。
在0.9%氯化钠中,Zr-DFO*-曲妥珠单抗比Zr-DFO-曲妥珠单抗更稳定;在2-8°C孵育72小时后,分别有95%和58%的完整示踪剂留存,而在组氨酸-蔗糖缓冲液中未观察到差异,两种产品的完整性均≥92%。两种偶联物在注射后144小时(p.i.)在肿瘤、血液和大多数正常器官中的体内摄取相似,但皮肤、肝脏、脾脏、回肠和骨骼除外。Zr-DFO*-曲妥珠单抗和Zr-DFO-曲妥珠单抗在肿瘤中的摄取分别为32.59±11.95和29.06±8.66% ID/g。与Zr-DFO-曲妥珠单抗相比,Zr-DFO*-曲妥珠单抗的骨骼摄取显著降低。在注射后144小时,Zr-DFO*-曲妥珠单抗和Zr-DFO-曲妥珠单抗在胸骨中的摄取分别为0.92±0.16和3.33±0.32% ID/g,在股骨中分别为0.78±0.11和3.85±0.80% ID/g,在膝关节中分别为1.38±0.23和8.20±2.94% ID/g。对于DFO*偶联物,骨骼摄取从注射后24小时到144小时下降约两倍,而对于DFO偶联物则增加约两倍。
与Zr-DFO-曲妥珠单抗相比,Zr-DFO*-曲妥珠单抗显示出优异的体外稳定性和体内性能。这使得新型八齿DFO*螯合剂成为未来临床Zr-immuno-PET中DFO的候选替代物。
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