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Engineered reversible inhibition of SpyCatcher reactivity enables rapid generation of bispecific antibodies

Christian Hentrich, Mateusz Putyrski, Hanh Hanuschka, Waldemar Preis, Sarah-Jane Kellmann, Melissa Wich, Manuel Cavada, Sarah Hanselka, Victor S. Lelyveld, Francisco Ylera

2024Nature Communications12 citationsDOIOpen Access PDF

Abstract

The precise regulation of protein function is essential in biological systems and a key goal in chemical biology and protein engineering. Here, we describe a straightforward method to engineer functional control into the isopeptide bond-forming SpyTag/SpyCatcher protein ligation system. First, we perform a cysteine scan of the structured region of SpyCatcher. Except for two known reactive and catalytic residues, none of these mutations abolish reactivity. In a second screening step, we modify the cysteines with disulfide bond-forming small molecules. Here we identify 8 positions at which modifications strongly inhibit reactivity. This inhibition can be reversed by reducing agents. We call such a reversibly inhibitable SpyCatcher "SpyLock". Using "BiLockCatcher", a genetic fusion of wild-type SpyCatcher and SpyLock, and SpyTagged antibody fragments, we generate bispecific antibodies in a single, scalable format, facilitating the screening of a large number of antibody combinations. We demonstrate this approach by screening anti-PD-1/anti-PD-L1 bispecific antibodies using a cellular reporter assay.

Topics & Concepts

AntibodyCysteineReactivity (psychology)ChemistryComputational biologyProtein engineeringCombinatorial chemistryBiochemistryBiologyGeneticsEnzymeMedicinePathologyAlternative medicineBiochemical and Structural CharacterizationMonoclonal and Polyclonal Antibodies ResearchGlycosylation and Glycoproteins Research