Molecular Imaging Center, Department of Radiology, University of Southern California, Los Angeles, California 90033, USA.
J Nucl Med. 2011 Dec;52(12):1979-86. doi: 10.2967/jnumed.111.091256. Epub 2011 Nov 7.
The overexpression of integrin α(2)β(1) has been demonstrated to correlate with prostate tumor aggressiveness and metastatic potential. Recently, we reported that the DGEA peptide is a promising targeting ligand for near-infrared fluorescence and microPET imaging of integrin α(2)β(1) expression in prostate cancers. Here, we aimed to further improve the targeting efficacy of this peptide by incorporating a series of cell-penetrating peptides (CPPs) into the DGEA sequence.
After the conjugation with appropriate fluorescent dyes, the CPP-DGEA peptides were evaluated in human prostate cell lines (PC-3, CWR-22, and LNCaP) that contain different integrin α(2)β(1) expression levels. In addition, to reduce excess kidney uptake, a carboxypeptidase-specific sequence Gly-Lys was incorporated into the probe design, allowing for cleavage by the kidney brush border enzymes of the CPP before uptake by proximal tubule cells.
Although the CPP motif greatly facilitated the translocation of CPP-DGEA without affecting binding specificity in vitro, fluorescent dye-labeled CPP-DGEA demonstrated extremely high kidney uptake in vivo. Kidney uptake was dramatically decreased after a carboxypeptidase-specific peptide linker (Gly-Lys) had been incorporated into the probe design. The optimized probe demonstrated a prominent accumulation of activity in PC-3 tumor (integrin α(2)β(1)-positive). Receptor specificity was confirmed with blocking experiments and evaluation in a CWR-22 control tumor model with low α(2)β(1) expression.
This study demonstrated that the introduction of a CPP sequence can facilitate the internalization of an integrin-targeted peptide probe in vitro. Moreover, a cleavable peptide linker successfully reduced kidney uptake while preserving good tumor uptake in vivo.
整合素 α(2)β(1) 的过表达已被证明与前列腺肿瘤侵袭性和转移潜能相关。最近,我们报道 DGEA 肽是一种很有前途的靶向配体,可用于近红外荧光和微 PET 成像检测前列腺癌中整合素 α(2)β(1) 的表达。在这里,我们旨在通过将一系列细胞穿透肽 (CPP) 整合到 DGEA 序列中,进一步提高该肽的靶向效果。
与适当的荧光染料缀合后,评估 CPP-DGEA 肽在含有不同整合素 α(2)β(1) 表达水平的人前列腺癌细胞系 (PC-3、CWR-22 和 LNCaP) 中的作用。此外,为了减少肾脏摄取过多,设计探针时掺入羧肽酶特异性序列 Gly-Lys,允许 CPP 被肾脏刷状缘酶切割,然后被近端肾小管细胞摄取。
尽管 CPP 基序极大地促进了 CPP-DGEA 的易位,但不影响体外结合特异性,但荧光染料标记的 CPP-DGEA 在体内显示出极高的肾脏摄取。在探针设计中掺入羧肽酶特异性肽接头 (Gly-Lys) 后,肾脏摄取量显著降低。优化后的探针在整合素 α(2)β(1 阳性)的 PC-3 肿瘤中表现出明显的活性积累。通过阻断实验和在低 α(2)β(1) 表达的 CWR-22 对照肿瘤模型中的评估,证实了受体特异性。
本研究表明,引入 CPP 序列可以促进体外整合素靶向肽探针的内化。此外,可切割肽接头成功降低了肾脏摄取,同时保持了体内良好的肿瘤摄取。
