300 s. The dissociation of the interaction was subsequently measured for 300 s. Systematic baseline drift correction was done by subtracting the shift recorded for sensors loaded with ligand but incubated without analyte. Data analysis and curve fitting were done using Octet software version 11.0. Experimental data were fitted with the binding equations available for a 1:1 interaction with local fitting and the mean ± standard error of the mean (SEM) values of k on and k off were calculated from the data of five different concentrations of an analyte. The K D was calculated as the ratio of k off /k on. cell immunostaining. The human cervical cancer cell line HeLa and human gastric cancer cell line N87 or human breast cancer cells expressing firefly luciferase SK-BR-3/Luc were obtained from the RIKEN Bio-Resource Center (Tsukuba, Japan) or JCRB Cell Bank (Osaka, Japan), respectively, and maintained at 37 °C in 5% FBS-DMEM (Nacalai Tesque, Kyoto, Japan) supplemented with penicillin (100 U/ml) and streptomycin (100 µg/ml) (Nacalai Tesque). The cells (1.0 × 10 4 cells/well) were seeded on a slide chamber plate, cultured for 16 h and fixed by treatment with a 4% paraformaldehyde solution (Nacalai Tesque) for 10 min at 25 °C. The cells were blocked with 1% BSA/PBS for 1 h at 25 °C. After the addition of 50 nM purified His-tagged FLAPs or 5 nM trastuzumab in 1% BSA/PBS to the chamber, the cells were incubated for 16 h at 4 °C. Thousand-fold diluted Alexa Fluor 488-conjugated mouse anti-His tag secondary antibody (Medical & Biological Laboratories, Aichi, Japan) or Alexa Fluor 488-conjugated mouse anti-human IgG Fc secondary antibody in 1% BSA/PBS were used to fluorescently label the His-tagged FLAPs or trastuzumab, respectively. After washing three times with PBS, the stained cells were mounted with Fluoromount (Diagnostic ByoSystems, CA, USA) containing 1/1000 Hoechst 33342 (Nacalai Tesque). All photos were taken using a BZ-X700 microscope (Keyence, Osaka, Japan). Statistical analysis. Data are presented as means ± SEM and were statistically analysed with a two-sided Student's t-test; p values of < 0.05 were considered statistically significant.
Small antibody mimetics that contain high-affinity target-binding peptides can be lower cost alternatives to monoclonal antibodies (mAbs). We have recently developed a method to create small antibody mimetics called FLuctuation-regulated Affinity Proteins (FLAPs), which consist of a small protein scaffold with a structurally immobilized target-binding peptide. In this study, to further develop this method, we established a novel screening system for FLAPs called monoclonal antibody-guided peptide identification and engineering (MAGPIE), in which a mAb guides selection in two manners. First, antibody-guided design allows construction of a peptide library that is relatively small in size, but sufficient to identify high-affinity binders in a single selection round. Second, in antibody-guided screening, the fluorescently labeled mAb is used to select mammalian cells that display FLAP candidates with high affinity for the target using fluorescence-activated cell sorting. We demonstrate the reliability and efficacy of MAGPIE using daclizumab, a mAb against human interleukin-2 receptor alpha chain (CD25). Three FLAPs identified by MAGPIE bound CD25 with dissociation constants of approximately 30 nM as measured by biolayer interferometry without undergoing affinity maturation. MAGPIE can be broadly adapted to any mAb to develop small antibody mimetics.
Target-binding small proteins are promising alternatives to conventional monoclonal antibodies (mAbs), offering advantages in terms of tissue penetration and manufacturing costs. Recently, a design strategy to create small proteins called fluctuation-regulated affinity proteins (FLAPs) consisting of a structurally immobilized peptide from the complementarity-determining region (CDR) loops of mAbs (CDR-derived peptide) and a protein scaffold was developed. Because mAb paratopes are usually composed of multiple CDRs, FLAPs with multiple binding peptides may have an enhanced target-binding capability. Here, a strategy to create FLAPs bearing dual CDR-derived peptides (D-FLAPs) using the anti-human epithelial growth factor receptor type 2 (HER2) mAb trastuzumab as a basis is developed. Computationally selected CDR-derived peptides are first grafted onto two adjacent loops of the fibronectin type III domain (FN3) scaffold, yielding 80 D-FLAP candidates. After computational screening based on their similarity to the parental mAb with regard to the conformation of paratope residues, two candidates are selected. After further evaluation with ELISA, one D-FLAP with HYTTPP and GDGFYA peptides from CDR-L3 and CDR-H3 of the parental mAb, respectively, is found to bind HER2 with a dissociation constant of 58 nm. This method applies to various mAb drugs and allows the rational design of small protein alternatives.
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