Stabilisation of the FC fragment of human IgG1 by engineered intradomain disulfide bonds

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Abstract

We report the stabilization of the human IgG1 Fc fragment by engineered intradomain disulfide bonds. One of these bonds, which connects the N-terminus of the CH3 domain with the F-strand, led to an increase of the melting temperature of this domain by 10°C as compared to the CH3 domain in the context of the wild-type Fc region. Another engineered disulfide bond, which connects the BC loop of the CH3 domain with the D-strand, resulted in an increase of T m of 5°C. Combined in one molecule, both intradomain disulfide bonds led to an increase of the T m of about 15°C. All of these mutations had no impact on the thermal stability of the CH2 domain. Importantly, the binding of neonatal Fc receptor was also not influenced by the mutations. Overall, the stabilized CH3 domains described in this report provide an excellent basic scaffold for the engineering of Fc fragments for antigen-binding or other desired additional or improved properties. Additionally, we have introduced the intradomain disulfide bonds into an IgG Fc fragment engineered in C-terminal loops of the CH3 domain for binding to Her2/neu, and observed an increase of the T m of the CH3 domain for 7.5°C for CysP4, 15.5°C for CysP2 and 19°C for the CysP2 and CysP4 disulfide bonds combined in one molecule. © 2012 Wozniak-Knopp et al.

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Wozniak-Knopp, G., Stadlmann, J., & Rüker, F. (2012). Stabilisation of the FC fragment of human IgG1 by engineered intradomain disulfide bonds. PLoS ONE, 7(1). https://doi.org/10.1371/journal.pone.0030083

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