Division Radiopharmaceutical Chemistry, German Cancer Research Center (DKFZ), Heidelberg, Germany.
Prostate. 2014 May;74(6):659-68. doi: 10.1002/pros.22784. Epub 2014 Jan 25.
It has recently been reported that metastases of prostate cancer usually show highly heterogeneous or partly lost prostate-specific membrane antigen (PSMA) expression. In order to image and treat both PSMA positive and negative tissues PSMA targeting probes need to be extended by a further specificity. Since prostate cancer cells usually express both PSMA and gastrin-releasing peptide receptor (GRPR) a bispecific low-molecular heterodimeric molecule, addressing both targets at the same time, may significantly improve prostate cancer imaging and therapy.
The nonapeptide BZH3 representing the GRPR binding part was combined with the urea-based PSMA inhibitor Glu-urea-Lys(Ahx)-HBED-CC. The syntheses of the compounds were performed according to standard Fmoc-solid phase peptide synthesis. The binding properties were analyzed by competitive cell binding and internalization experiments. The in vivo targeting properties were investigated by means of biodistribution studies.
Cell binding experiments revealed high binding affinities to both GRPR and PSMA expressing cell lines. The heterodimer bound with IC50 -values essentially matching the IC50 values of the respective monomers (25.0 ± 5.4 nM for PSMA and 9.0 ± 1.8 nM for GRPR, respectively). In vivo, the heterodimer showed dual targeting of PSMA (5.4%ID/g for PSMA-positive tumors) and GRPR receptors (3.3% ID/g for GRPR-positive tumors) while exhibiting fast pharmacokinetic properties. The clearance from background was comparable to the monomeric PSMA-targeting reference.
The heterodimeric molecule is a promising agent for PET imaging of primary and recurrent prostate cancer covering two receptor entities which might lead to an improved diagnostic sensitivity and therapeutic efficiency.
最近有报道称,前列腺癌转移通常表现出高度异质性或部分丧失前列腺特异性膜抗原(PSMA)表达。为了对 PSMA 阳性和阴性组织进行成像和治疗,需要通过进一步的特异性来扩展 PSMA 靶向探针。由于前列腺癌细胞通常表达 PSMA 和胃泌素释放肽受体(GRPR),因此同时针对这两个靶点的双特异性低分子杂二聚体分子可能会显著改善前列腺癌的成像和治疗效果。
非肽 BZH3 代表 GRPR 结合部分,与基于尿素的 PSMA 抑制剂 Glu-urea-Lys(Ahx)-HBED-CC 结合。根据标准的 Fmoc-固相肽合成法进行化合物的合成。通过竞争性细胞结合和内化实验分析结合特性。通过生物分布研究研究体内靶向特性。
细胞结合实验显示对表达 GRPR 和 PSMA 的细胞系具有高结合亲和力。杂二聚体的结合 IC50 值与各自单体的 IC50 值基本匹配(PSMA 的 IC50 值为 25.0±5.4 nM,GRPR 的 IC50 值为 9.0±1.8 nM)。在体内,杂二聚体表现出 PSMA(PSMA 阳性肿瘤为 5.4%ID/g)和 GRPR 受体(GRPR 阳性肿瘤为 3.3%ID/g)的双重靶向,同时表现出快速的药代动力学特性。从背景中的清除速度与单体 PSMA 靶向参考物相当。
杂二聚体分子是一种有前途的用于原发性和复发性前列腺癌的 PET 成像剂,可覆盖两种受体实体,这可能会提高诊断灵敏度和治疗效率。
