1. 68Ga-labeled cyclic NGR peptide for microPET imaging of CD13 receptor expression
Yahui Shao, Wansheng Liang, Fei Kang, Weidong Yang, Xiaowei Ma, Guiyu Li, Shu Zong, Kai Chen, Jing Wang Molecules. 2014 Aug 5;19(8):11600-12. doi: 10.3390/molecules190811600.
Peptides containing the asparagines-glycine-arginine (NGR) motif have been identified as specific ligands binding to CD13/aminopeptidase N (APN) receptor, a tumor neovascular biomarker. In this study, we synthesized a novel NGR-containing peptide (NOTA-G3-NGR), and labeled NOTA-G3-NGR with (68)Ga (t1/2 = 67.7 min). The resulting (68)Ga-NOTA-G3-NGR peptide was subject to in vitro and in vivo characterization. The microPET imaging results revealed that the (68)Ga-NOTA-G3-NGR peptide exhibits rapid and specific tumor uptake, and high tumor-to-background contrast in a subcutaneous HT-1080 fibrosarcoma mouse model. We concluded that the (68)Ga-NOTA-G3-NGR peptide has potential in the diagnosis of CD13-targeted tumor angiogenesis.
2. A comparison of the monomeric [68Ga]NODAGA-NGR and dimeric [68Ga]NOTA-(NGR)2 as aminopeptidase N ligand for positron emission tomography imaging in tumor-bearing mice
Ina Israel, Konstantin Elflein, Andreas Schirbel, Kai Chen, Samuel Samnick Eur J Pharm Sci. 2021 Nov 1;166:105964. doi: 10.1016/j.ejps.2021.105964. Epub 2021 Aug 8.
The aminopeptidase N (APN/CD13) is a key protein specifically expressed on activated endothelial cells and by various tumors, representing a promising target for molecular imaging and therapy of malignant diseases. It is known that the tripeptide NGR is a specific ligand for CD13, therefore radiolabeled NGR peptides are auspicious radiotracers for non-invasive imaging of CD13-positive tumors. From previous studies, it is known that the target affinity could be improved by molecules with multiple ligand sequences. Therefore, the aim of this study was to compare two NGR radioligands [68Ga]NODAGA-NGR (NGR monomer) and [68Ga]NOTA-(NGR)2 (NGR dimer), the latter with two NGR ligand motifs, in vitro and in vivo. CD13 expression was determined by FACS in the human tumor cells A549, SKHep-1, and MDA-MB-231, followed by the investigation of the cell uptake of [68Ga]NODAGA-NGR and [68Ga]NOTA-(NGR)2. For in vivo evaluation of [68Ga]NODAGA-NGR and [68Ga]NOTA-(NGR)2, microPET and biodistribution were carried out in A549- and SKHep-1-bearing mice. After the final examination, tumors were cryo-conserved, cut, and stained against CD13 and CD31. A549 and SKHep-1 cells were identified as CD13 positive, whereas no CD13 expression was detected in MDA-MB-231 cells. The cell uptake study showed relatively low accumulation of both the NGR monomer and dimer in all tumor cell lines examined, with consistently higher cell uptake observed for the dimer than for the monomer. In vivo, [68Ga]NODAGA-NGR and [68Ga]NOTA-(NGR)2 accumulated in the tumors, with slightly higher tumor-to-muscle ratio for the NGR dimer in A549 and SKHep-1. The tumor-to-liver ratio of the NGR dimer was diminished in comparison to the NGR monomer. This finding was confirmed by biodistribution, which revealed higher accumulation in liver and spleen for the NGR dimer. Immunohistochemical staining confirmed the CD13 expression in the tumors and tumor-associated vessels. In conclusion, both the [68Ga]NODAGA-NGR and the [68Ga]NOTA-(NGR)2 were found to be suitable for PET imaging of CD13-positive tumors. Despite slight differences in tumor-to-background ratio and organ accumulation, both radiotracers can be considered comparable.
3. NGR peptide ligands for targeting CD13/APN identified through peptide array screening resemble fibronectin sequences
Rania Soudy, Sahar Ahmed, Kamaljit Kaur ACS Comb Sci. 2012 Nov 12;14(11):590-9. doi: 10.1021/co300055s. Epub 2012 Oct 11.
Peptides containing the Asn-Gly-Arg (NGR) motif are known to bind CD13 isoforms expressed in tumor vessels and have been widely used for tumor targeting. Residues flanking the NGR sequence play an important role in modulating the binding affinity and specificity of NGR for the CD13 receptor. Herein, we have used a rapid, easy, and reliable peptide array-whole cell binding assay for screening a library of NGR peptides with different flanking residues. A peptide array consisting of forty-five NGR containing peptides was synthesized on a cellulose membrane, followed by screening against CD13 positive (HUVEC and HT-1080) and CD13 negative cell lines (MDA-MB-435 and MDA-MB-231). The library screening led to the identification of five cyclic and acyclic NGR peptides that display higher binding (up to 5-fold) to CD13 positive cells with negligible binding to CD13 negative cell lines when compared to the lead sequence cyclic CVLNGRMEC. Peptides with high binding affinity for the CD13 positive cells also showed improved in vitro cellular uptake and specificity using flow cytometry and fluorescence microscopy. Interestingly, the identified peptides resemble the NGR sequences present in the human fibronectin protein. These NGR peptides are promising new ligands for developing tumor vasculature targeted drugs, delivery systems and imaging agents with reduced systemic toxicity.