UNLABELLED: Epidermal growth factor receptor (EGFR) is often overexpressed in a variety of human cancers, and its expression is associated with poor prognosis for many cancer types. However, an accurate technique to noninvasively image EGFR expression in vivo is not available in the clinical setting. In this research, an Affibody analog, anti-EGFR Ac-Cys-Z(EGFR:1907), was successfully site-specifically (18)F-labeled for PET of EGFR expression. METHODS: The prosthetic group N-[2-(4-(18)F-fluorobenzamido) ethyl] maleimide ((18)F-FBEM) was conjugated to Ac-Cys-Z(EGFR:1907) under mild conditions (pH 7) to produce the probe (18)F-FBEM-Cys-Z(EGFR:1907). The binding affinity and specificity tests of (18)F-FBEM-Cys-Z(EGFR:1907) to EGFR were conducted using A431 cancer cells. Small-animal PET and biodistribution studies were conducted on various mice tumor xenograft models with EGFR overexpression (6 types) after injection of approximately 2.0 MBq of (18)F-FBEM-Cys-Z(EGFR:1907) with or without coinjection of unlabeled Ac-Cys-Z(EGFR:1907) for up to 3 h after injection. A correlation study between (18)F-FBEM-Cys-Z(EGFR:1907) small- animal PET quantification and ex vivo Western blot analysis of tumor EGFR expression was conducted in those 6 types of tumor models. RESULTS: (18)F-FBEM-Cys-Z(EGFR:1907) binds to EGFR with low nanomolar affinity (37 nM) in A431 cells. (18)F-FBEM-Cys-Z(EGFR:1907) rapidly accumulated in the tumor and cleared from most of the normal organs except the liver and kidneys at 3 h after injection, allowing excellent tumor-to-normal tissue contrast to be obtained. In the A431 tumor xenograft model, coinjection of the PET probe with 45 μg of Ac-Cys-Z(EGFR:1907) was able to improve the tumor uptake (3.9 vs. 8.1 percentage of the injected radioactive dose per gram of tissue, at 3 h after injection) and tumor imaging contrast, whereas coinjection with 500 μg of Ac-Cys-Z(EGFR:1907) successfully blocked the tumor uptake significantly (8.1 vs. 1.0 percentage of the injected radioactive dose per gram of tissue, at 3 h after injection, 88% inhibition, P < 0.05). Moderate correlation was found between the tumor tracer uptake at 3 h after injection quantified by PET and EGFR expression levels measured by Western blot assay (P = 0.007, R = 0.59). CONCLUSION: (18)F-FBEM-Cys-Z(EGFR:1907) is a novel protein scaffold-based PET probe for imaging EGFR overexpression of tumors, and its ability to differentiate tumors with high and low EGFR expression in vivo holds promise for future clinical translation.
UNLABELLED: Epidermal growth factor receptor (EGFR) is often overexpressed in a variety of humancancers, and its expression is associated with poor prognosis for many cancer types. However, an accurate technique to noninvasively image EGFR expression in vivo is not available in the clinical setting. In this research, an Affibody analog, anti-EGFRAc-Cys-Z(EGFR:1907), was successfully site-specifically (18)F-labeled for PET of EGFR expression. METHODS: The prosthetic group N-[2-(4-(18)F-fluorobenzamido) ethyl] maleimide ((18)F-FBEM) was conjugated to Ac-Cys-Z(EGFR:1907) under mild conditions (pH 7) to produce the probe (18)F-FBEM-Cys-Z(EGFR:1907). The binding affinity and specificity tests of (18)F-FBEM-Cys-Z(EGFR:1907) to EGFR were conducted using A431cancer cells. Small-animal PET and biodistribution studies were conducted on various micetumor xenograft models with EGFR overexpression (6 types) after injection of approximately 2.0 MBq of (18)F-FBEM-Cys-Z(EGFR:1907) with or without coinjection of unlabeled Ac-Cys-Z(EGFR:1907) for up to 3 h after injection. A correlation study between (18)F-FBEM-Cys-Z(EGFR:1907) small- animal PET quantification and ex vivo Western blot analysis of tumorEGFR expression was conducted in those 6 types of tumor models. RESULTS: (18)F-FBEM-Cys-Z(EGFR:1907) binds to EGFR with low nanomolar affinity (37 nM) in A431 cells. (18)F-FBEM-Cys-Z(EGFR:1907) rapidly accumulated in the tumor and cleared from most of the normal organs except the liver and kidneys at 3 h after injection, allowing excellent tumor-to-normal tissue contrast to be obtained. In the A431tumor xenograft model, coinjection of the PET probe with 45 μg of Ac-Cys-Z(EGFR:1907) was able to improve the tumor uptake (3.9 vs. 8.1 percentage of the injected radioactive dose per gram of tissue, at 3 h after injection) and tumor imaging contrast, whereas coinjection with 500 μg of Ac-Cys-Z(EGFR:1907) successfully blocked the tumor uptake significantly (8.1 vs. 1.0 percentage of the injected radioactive dose per gram of tissue, at 3 h after injection, 88% inhibition, P < 0.05). Moderate correlation was found between the tumor tracer uptake at 3 h after injection quantified by PET and EGFR expression levels measured by Western blot assay (P = 0.007, R = 0.59). CONCLUSION: (18)F-FBEM-Cys-Z(EGFR:1907) is a novel protein scaffold-based PET probe for imaging EGFR overexpression of tumors, and its ability to differentiate tumors with high and low EGFR expression in vivo holds promise for future clinical translation.
Authors: H E Jones; L Goddard; J M W Gee; S Hiscox; M Rubini; D Barrow; J M Knowlden; S Williams; A E Wakeling; R I Nicholson Journal: Endocr Relat Cancer Date: 2004-12 Impact factor: 5.678
Authors: Michael P DiGiovanna; David F Stern; Susan M Edgerton; Steve G Whalen; Dan Moore; Ann D Thor Journal: J Clin Oncol Date: 2005-02-20 Impact factor: 44.544
Authors: Vladimir Tolmachev; Fredrik Y Nilsson; Charles Widström; Karl Andersson; Daniel Rosik; Lars Gedda; Anders Wennborg; Anna Orlova Journal: J Nucl Med Date: 2006-05 Impact factor: 10.057
Authors: Anna Orlova; Mikaela Magnusson; Tove L J Eriksson; Martin Nilsson; Barbro Larsson; Ingmarie Höidén-Guthenberg; Charles Widström; Jörgen Carlsson; Vladimir Tolmachev; Stefan Ståhl; Fredrik Y Nilsson Journal: Cancer Res Date: 2006-04-15 Impact factor: 12.701
Authors: M Wikman; A-C Steffen; E Gunneriusson; V Tolmachev; G P Adams; J Carlsson; S Ståhl Journal: Protein Eng Des Sel Date: 2004-06-18 Impact factor: 1.650
Authors: Mohammad Namavari; Omayra Padilla De Jesus; Zhen Cheng; Abhijit De; Ernest Kovacs; Jelena Levi; Rong Zhang; Joshua K Hoerner; Hans Grade; Faisal A Syud; Sanjiv S Gambhir Journal: Mol Imaging Biol Date: 2008-05-15 Impact factor: 3.488
Authors: A Cuartero-Plaza; E Martínez-Miralles; R Rosell; C Vadell-Nadal; M Farré; F X Real Journal: Clin Cancer Res Date: 1996-01 Impact factor: 12.531
Authors: Max A Kruziki; Brett A Case; Jie Y Chan; Elizabeth J Zudock; Daniel R Woldring; Douglas Yee; Benjamin J Hackel Journal: Mol Pharm Date: 2016-10-10 Impact factor: 4.939
Authors: Lemonitsa H Mammatas; Henk M W Verheul; N Harry Hendrikse; Maqsood Yaqub; Adriaan A Lammertsma; C Willemien Menke-van der Houven van Oordt Journal: Cell Oncol (Dordr) Date: 2014-09-24 Impact factor: 6.730