• Three NDV-mimetic peptides (NDV-1, NDV-2, NDV-3) are selected by Phage Display. • NDV-1 exhibits strong residue reactivity and high structural stability. • NDV-1 may serve as a promising candidate for immunogenic applications. • NDV-2 displayed lower free energy values and affinity scores. • NDV-3 shows the highest free energy and potential for oncological applications. Recent advances in precision medicine and virotherapy have expanded the search for novel biomolecules with therapeutic potential. In this study, we employed a phage display-based platform to identify and characterize mimetic peptides of the Newcastle Disease Virus (NDV), a promising agent in oncolytic virotherapy and veterinary vaccinology. Following the immunization of Gallus gallus domesticus (White Leghorn) and the high-performance liquid chromatography (HPLC) purification of specific IgY antibodies, a Ph.D.-7™ phage library was screened against anti-NDV targets. We identified three high-affinity mimotopes (NDV-1, NDV-2, and NDV-3) that were further characterized through an integrated in silico workflow involving AlphaFold2 and PEP-FOLD3. Structural analysis revealed that NDV-3 exhibits a stable helical conformation, which correlates with its superior binding affinity observed in Phage-ELISA assays. Furthermore, B-cell epitope predictions (BepPred-3.0) highlighted the immunogenic potential of NDV-1. Our findings demonstrate a robust proof-of-concept for the identification of NDV-mimetic leads, providing a structural basis for the future development of targeted oncolytic strategies and next-generation avian vaccines. Further functional assays are required to validate the translational efficacy of these candidates in clinical and veterinary settings. After isolating IgY from hens immunized with Newcastle disease virus, the antibodies were purified and subjected to phage display screening, through which three mimetic peptides of the Newcastle virus with affinity for the antibodies were selected. Bioinformatics analyses indicated the potential application of these peptides in cancer virotherapy and in vaccines for poultry.
Moreira et al. (Wed,) studied this question.