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Design and Synthesis of Monobody Variants with Low Immunogenicity

Naoya Iwamoto, Yukino Sato, A. Manabe, Shinsuke Inuki, Hiroaki Ohno, Motohiro Nonaka, Shinya Oishi

2023ACS Medicinal Chemistry Letters13 citationsDOIOpen Access PDF

Abstract

Mirror-image proteins (d-proteins) are promising scaffolds for drug discovery because of their high proteolytic stability and low immunogenic properties. Facile and reproducible processes for the preparation of functional d-proteins are required for their application in therapeutic biologics. In this study, we designed and synthesized a novel monobody variant with two cysteine substitutions that facilitate the synthetic process via sequential native chemical ligations and improve protein stability by disulfide bond formation. The synthetic anti-GFP monobody in this model study exhibited good binding affinity to the target enhanced green fluorescent protein. In vivo administration of the synthetic anti-GFP monobody (l-monobody) to mice induced antidrug antibody (ADA) production, whereas no ADA production was observed following immunization with the mirror-image anti-GFP monobody (d-monobody). These results suggest that the synthetic d-monobody is a non-antibody protein scaffold with low immunogenic properties.

Topics & Concepts

ImmunogenicityGreen fluorescent proteinIn vivoCysteineChemistryAntibodyCombinatorial chemistryDisulfide bondProtein engineeringComputational biologyNative chemical ligationIn vitroBiochemistryChemical synthesisBiologyGeneImmunologyEnzymeBiotechnologyMonoclonal and Polyclonal Antibodies ResearchGlycosylation and Glycoproteins ResearchChemical Synthesis and Analysis
Design and Synthesis of Monobody Variants with Low Immunogenicity | Litcius