Litcius/Paper detail

Next generation Fc scaffold for multispecific antibodies

Bram Estes, Athena Sudom, Danyang Gong, Douglas A. Whittington, Vivian Li, Christopher Mohr, Danqing Li, Timothy P. Riley, Stone D.‐H. Shi, Jun Zhang, Fernando Garcés, Zhulun Wang

2021iScience13 citationsDOIOpen Access PDF

Abstract

Bispecific antibodies (Bispecifics) demonstrate exceptional clinical potential to address some of the most complex diseases. However, Bispecific production in a single cell often requires the correct pairing of multiple polypeptide chains for desired assembly. This is a considerable hurdle that hinders the development of many immunoglobulin G (IgG)-like bispecific formats. Our approach focuses on the rational engineering of charged residues to facilitate the chain pairing of distinct heavy chains (HC). Here, we deploy structure-guided protein design to engineer charge pair mutations (CPMs) placed in the CH3-CH3' interface of the fragment crystallizable (Fc) region of an antibody (Ab) to correctly steer heavy chain pairing. When used in combination with our stable effector functionless 2 (SEFL2.2) technology, we observed high pairing efficiency without significant losses in expression yields. Furthermore, we investigate the relationship between CPMs and the sequence diversity in the parental antibodies, proposing a rational strategy to deploy these engineering technologies.

Topics & Concepts

PairingRational designAntibodyProtein engineeringFragment crystallizable regionEffectorComputational biologyScaffoldBiologyComputer scienceCell biologyChemistryImmunologyPhysicsGeneticsBiochemistrySuperconductivityEnzymeQuantum mechanicsDatabaseMonoclonal and Polyclonal Antibodies ResearchGlycosylation and Glycoproteins ResearchGalectins and Cancer Biology