取代n -芳基马来酰亚胺和丙烯酰胺生物偶联的评价

Hugh G. Hiscocks, G. Pascali, A. Ung
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摘要

新的含sf5的马来酰亚胺和丙烯酰胺衍生物被合成为潜在的[18F]放射性修复基团,用于放射性标记肽和蛋白质。首先通过与受保护的模型氨基酸衍生物的生物偶联来评估所选假体基团的功效。这些反应通过LC-MS在pH范围内的分析尺度上进行了研究,以定量评估该假体基团的反应性和稳定性。然后使用类似的准取代衍生物复制模型生物偶联反应,以确定-SF5的电子效应的影响。最后,利用含sf5的假体基团与靶向癌症的c-RGD肽进行生物偶联。n -芳基马来酰亚胺与模式氨基酸n -乙酰- l-半胱氨酸反应非常有效。随后得到的共轭物为相应的硫代琥珀酸的区域异构体混合物,收率为80-96%。通过LC-MS监测生物偶联反应显示,中间的sf5 -硫代琥珀酰亚胺偶联物的环水解发生在瞬间,这是减少与非靶向半胱氨酸残基之间不希望发生的硫醇交换反应的有利品质。相反,n -芳基丙烯酰胺在半水介质(<1 mM)中的溶解度较差。然后,在甲醇中进行了与n - α-乙酰赖氨酸的合成规模模型生物偶联,得到了相应的中等至高收率(58-89%)的丙烯酰胺偶联物。包括用于生物偶联的缺电子、氟化假体基团将扩大其在19F-MRI和PET成像领域的适用性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Evaluation of Substituted N-Aryl Maleimide and Acrylamides for Bioconjugation
Novel SF5-bearing maleimide and acrylamide derivatives were synthesised as potential [18F]radio-prosthetic groups for radiolabelling peptides and proteins. The efficacy of selected prosthetic groups was first assessed through bioconjugation with protected model amino acid derivatives. These reactions were investigated on an analytical scale via LC-MS across a pH range to quantitatively evaluate this prosthetic group’s reactivity and stability. Model bioconjugate reactions were then replicated using analogous para-substituted derivatives to determine the influence of the electronic effects of -SF5. Finally, the SF5-bearing prosthetic groups were utilised for bioconjugation with cancer-targeting c-RGD peptides. N-aryl maleimides reacted extremely efficiently with the model amino acid N-acetyl-L-cysteine. The subsequent conjugates were obtained as regio-isomeric mixtures of the corresponding thio-succinamic acids in yields of 80–96%. Monitoring the bioconjugate reaction by LC-MS revealed that ring hydrolysis of the intermediate SF5–thio-succinimide conjugate occurred instantaneously, an advantageous quality in minimising undesirable thiol exchange reactions with non-targeted cysteine residues. In contrast, N-aryl acrylamides demonstrated poor solubility in semi-aqueous media (<1 mM). In turn, synthetic-scale model bioconjugations with Nα-acetyl-L-lysine were performed in methanol, affording the corresponding acrylamide conjugates in modest to high yield (58–89%). Including electron-deficient, fluorinated prosthetic groups for bioconjugation will broaden their applicability within the fields of 19F-MRI and PET imaging.
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