Division of Nuclear Medicine, Department of Radiology, University of Massachusetts Medical School, 55 Lake Avenue North, Worcester, Massachusetts 01655, USA.
Mol Pharm. 2010 Aug 2;7(4):1118-24. doi: 10.1021/mp9002909.
Pretargeting with bivalent effectors capable of bridging antitumor antibodies (affinity enhancement pretargeting) has been reported to provide superior results by affinity enhancement. Phosphorodiamidate morpholinos (MORFs) and other DNA analogues used for pretargeting are ideally suited as bivalent effectors since they are easily synthesized and the distance between binding regions, a determinant of binding, may be adjusted simply by lengthening the chain. We have shown by surface plasmon resonance that bivalent MORFs will provide superior affinity enhancement provided that suitable spacing exists between the binding regions. The goals of this study were to synthesize a bivalent MORF with a MAG(3) group attached for technetium-99m ((99m)Tc) radiolabeling, investigate whether the bivalent MORF showed improved cell accumulation in culture compared to its corresponding monovalent MORF and compare biodistributions in normal mice and in pretargeted tumored mice. An excess of an amine derivatized 18 mer MORF with 6 nonbinding bases for spacing was reacted with Fmoc-l-beta-homoglutamic acid to form duplexes via their carboxylate groups and, after deprotection, conjugated with NHS-MAG(3) to attach the chelator. The anti-CEA antibody MN14 was conjugated with a 12 mer complementary MORF (i.e., cMORF). The binding behavior between radiolabeled monovalent and bivalent MORFs was compared in LS174T tumor cells at 4 degrees C pretargeted with MN14-cMORF. Biodistributions of radiolabeled monovalent and bivalent MORFs at 3 h postadministration were measured in normal mice and in tumor mice pretargeted with MN14-cMORF. In the pretargeted cells in culture, the accumulation of the bivalent MORF was significantly higher than the monovalent MORF (p = 0.002), thus providing strong evidence for affinity enhancement. In normal mice, whole body clearance of the bivalent and monovalent MORFs was equally rapid. In tumored mice, tumor accumulation of the radiolabeled bivalent MORF was significantly higher than that of the monovalent MORF. In conclusion, a bivalent MAG(3)-MORF was successfully synthesized and radiolabeled with (99m)Tc. While a pharmacokinetic effect for the higher tumor accumulations in pretargeted mice of the radiolabeled bivalent MORF cannot be excluded, the results may be best explained by affinity enhancement. Thus two monovalent MORFs were covalently conjugated into a bivalent MORF effector to improve tumor targeting by both pharmacokinetics and affinity enhancement influences.
双价效应物的预靶向作用能够桥接抗肿瘤抗体(亲和力增强预靶向),通过亲和力增强提供了更好的结果。磷酰胺酯吗啉(MORFs)和其他用于预靶向的 DNA 类似物非常适合作为双价效应物,因为它们易于合成,并且结合区域之间的距离(决定结合的因素)可以通过简单地延长链来调节。我们通过表面等离子体共振表明,只要结合区域之间存在适当的间隔,双价 MORFs 将提供更好的亲和力增强。本研究的目的是合成一种带有 MAG(3)基团的双价 MORF,用于锝-99m ((99m)Tc) 放射性标记,研究其双价 MORF 是否比相应的单价 MORF 在培养物中显示出更好的细胞积累,并比较正常小鼠和预靶向肿瘤小鼠中的生物分布。过量的带有 6 个非结合碱基用于间隔的胺衍生的 18 个碱基 MORF 与 Fmoc-l-beta-高谷氨酸反应,通过它们的羧酸盐形成双链体,然后脱保护,与 NHS-MAG(3)缀合以连接螯合剂。抗 CEA 抗体 MN14 与 12 个碱基互补 MORF(即 cMORF)缀合。在 MN14-cMORF 预靶向的 LS174T 肿瘤细胞中,在 4 摄氏度下比较放射性标记的单价和双价 MORF 的结合行为。在正常小鼠和 MN14-cMORF 预靶向的肿瘤小鼠中,在给药后 3 小时测量放射性标记的单价和双价 MORF 的生物分布。在培养的预靶向细胞中,双价 MORF 的积累明显高于单价 MORF(p=0.002),因此为亲和力增强提供了有力证据。在正常小鼠中,双价和单价 MORF 的全身清除速度相同。在肿瘤小鼠中,放射性标记的双价 MORF 的肿瘤积累明显高于单价 MORF。总之,成功合成了带有 (99m)Tc 的双价 MAG(3)-MORF。虽然不能排除放射性标记的双价 MORF 在预靶向小鼠中更高肿瘤积累的药代动力学效应,但结果可能最好通过亲和力增强来解释。因此,将两个单价 MORF 共价连接成双价 MORF 效应物,以通过药代动力学和亲和力增强的影响来改善肿瘤靶向性。