An anti-CEA affibody showing high-definition staining in human pancreatic cancer tissue sections and selective tumor targeting in vivo.

We report development and characterization of small non-immunoglobulin affibody affinity proteins directed to the highly glycosylated human carcinoembryonic antigen-related adhesion molecule 5 (CEACAM5, CEA), and their use in immunohistochemical (IHC) analyses of human pancreatic cancer samples and for in vivo tumor imaging. A total of nineteen unique anti-CEA affibodies were identified from large phage display libraries constructed using combinatorial protein engineering of a small 58 amino acid three-helix bundle protein domain. Molecular modeling suggested that all enriched clones share a binding surface with several clustered tryptophan residues interacting with a hydrophobic patch in the N1 domain of CEA centered around a phenylalanine residue. One variant, designated as C9, exhibited the highest affinity in biosensor analyses and was reformatted into a 15 kDa homodimer expressed in Escherichia coli. The biotinylated form, C9-C9-Bio, was evaluated for its IHC performance on matched frozen and formalin-fixed, paraffin-embedded (FFPE) sections of human pancreatic cancer samples (n = 7). Compared to clinical-grade monoclonal antibodies II-7 and CEA31, as well as a polyclonal reagent, C9-C9-Bio demonstrated highly sensitive CEA detection with minimal background staining. Statistical analyses including intraclass correlation and Bland-Altman assessments revealed excellent agreement between C9-C9-Bio and the two monoclonal antibodies in FFPE tissue samples. Further, a Tc[Tc]-labeled C9-C9 construct showed CEA-dependent binding to human cancer cell lines in vitro, and selectively bound to CEA-expressing BxPC3 xenografts in mice when investigated as a tracer for in vivo imaging, allowing for a visualization of tumors after four hours. In summary, these findings highlight the potential use of the easily produced CEA-binding C9 affibody for various clinical applications, including IHC and medical imaging, and as a targeting moiety for directing various therapeutic modalities to CEA-expressing tumors.