Mol Imaging. 2013 Nov-Dec;12(8). doi: 10.2310/7290.2013.00066.
The extracellular domain of human carbonic anhydrase IX (CA IX) is extended by a proteoglycan-like region (PGLR). The aim of the present study was the development of novel molecules with specificity for PGLR, which may be used for tumor targeting and imaging. PGLR was chemically synthesized, and phage display biopanning was performed. The identified ligand PGLR-P1 was labeled with 125I and characterized for target binding and metabolic stability. In vitro characterization included kinetic, competition, and internalization studies on CA IX-positive renal cell carcinoma SKRC 52 cells. The CA IX-negative cell lines HEK293 wt and BxPC3 were used as negative controls. In vitro binding experiments revealed an increasing affinity of 125I-PGLR-P1 to SKRC 52 cells but not to negative control HEK293 wt and BxPC3 cells. Internalization studies indicated an exclusive cell membrane binding. Biodistribution analysis demonstrated a higher accumulation in SKRC 52 tumors than in most normal tissues after perfusion. In vivo blocking led to a significant decrease in tumor uptake. Our findings indicate that PGLR-P1 is a promising lead structure for the development of new peptide-based ligands targeting the PGLR of CA IX and reveal challenges that need to be considered for peptide-related molecular imaging.
人碳酸酐酶 IX(CA IX)的细胞外结构域通过糖胺聚糖样区域(PGLR)延伸。本研究的目的是开发针对 PGLR 的新型特异性分子,这些分子可用于肿瘤靶向和成像。PGLR 经化学合成,并进行噬菌体展示生物淘选。鉴定的配体 PGLR-P1 被 125I 标记,并对靶结合和代谢稳定性进行了表征。体外特性包括 CA IX 阳性肾癌细胞 SKRC 52 细胞的动力学、竞争和内化研究。CA IX 阴性细胞系 HEK293 wt 和 BxPC3 被用作阴性对照。体外结合实验显示,125I-PGLR-P1 与 SKRC 52 细胞的亲和力增加,但与阴性对照 HEK293 wt 和 BxPC3 细胞没有亲和力。内化研究表明,它只与细胞膜结合。生物分布分析表明,在灌注后,PGLR-P1 在 SKRC 52 肿瘤中的积累明显高于大多数正常组织。体内阻断导致肿瘤摄取显著减少。我们的研究结果表明,PGLR-P1 是一种很有前途的新型肽基配体的先导结构,可用于开发针对 CA IX 的 PGLR 的新型肽基配体,并揭示了与肽类相关的分子成像相关的挑战。
