基于(甲基吡啶基)tacn的生物偶联螯合物:合成、64Cu标记及前列腺癌靶向的体外评价

IF 2.9 3区生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY

Metallomics Pub Date : 2022-06-01 DOI:10.1093/mtomcs/mfac036

Axia Marlin, Ina Hierlmeier, A. Guillou, M. Bartholomä, Raphäel Tripier, Véronique Patinec

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引用次数: 1

摘要

合成了3种基于1,4,7-三氮杂环壬烷(tacn)平台的新型双功能铜螯合剂，并将其偶联到肽上。第一个环由两个甲基吡啶基和一个甲基噻唑基羧酸垂臂组成，而在第二个和第三个环中，大环由三个甲基吡啶基官能团组成，在一个或两个吡啶环的碳上附加一个己酸链。这三种双功能螯合剂已与拮抗剂JMV594肽偶联，靶向在前列腺癌中过表达的胃泌素释放肽受体(GRP-r)。所得到的单体生物偶联物可以用β+发射体64Cu进行放射性标记，并研究了这些放射性标记的偶联物的亲水性和PC-3细胞内化特性。通过IC50测量评估了单、二聚体无金属和natCu金属偶联物的PC-3细胞结合亲和力。结果表明，这些甲基吡啶酰基tacn衍生物具有放射性药物应用的潜力。

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Bioconjugated chelates based on (methylpyridinyl)tacn: synthesis, 64Cu labeling and in vitro evaluation for prostate cancer targeting.

Three new bifunctional copper chelators based on the 1,4,7-triazacyclononane (tacn) platform have been synthesized and conjugated to peptide. The first one is constituted of the tacn with two methylpyridinyl and one methylthiazolyl carboxylic acid pendant arms, while, in the second and third ones, the macrocycle is functionalized by three methylpyridinyl groups, with an additional hexynoic acid chain on a carbon of one or two pyridine rings. These three bifunctional chelators have been conjugated to the antagonist JMV594 peptide for targeting the gastrin releasing peptide receptor (GRP-r), which is overexpressed in prostate cancer. The resulting monomeric bioconjugates have shown their efficiency to be radiolabeled with β+ emitter 64Cu, and the hydrophilicity and PC-3 cell internalisation properties of these radiolabeled conjugates have been studied. PC-3 cell binding affinity of mono- and dimeric metal-free and natCu metallated conjugates have been evaluated by IC50 measurements. The results demonstrate the potential of these methylpyridinyl tacn derivatives for radiopharmaceutical applications.

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