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Merck

Fusion to a highly stable consensus albumin binding domain allows for tunable pharmacokinetics.

Protein engineering, design & selection : PEDS (2015-08-16)
Steven A Jacobs, Alan C Gibbs, Michelle Conk, Fang Yi, Diane Maguire, Colleen Kane, Karyn T O'Neil
RESUMEN

A number of classes of proteins have been engineered for high stability using consensus sequence design methods. Here we describe the engineering of a novel albumin binding domain (ABD) three-helix bundle protein. The resulting engineered ABD molecule, called ABDCon, is expressed at high levels in the soluble fraction of Escherichia coli and is highly stable, with a melting temperature of 81.5°C. ABDCon binds human, monkey and mouse serum albumins with affinity as high as 61 pM. The solution structure of ABDCon is consistent with the three-helix bundle design and epitope mapping studies enabled a precise definition of the albumin binding interface. Fusion of a 10 kDa scaffold protein to ABDCon results in a long terminal half-life of 60 h in mice and 182 h in cynomolgus monkeys. To explore the link between albumin affinity and in vivo exposure, mutations were designed at the albumin binding interface of ABDCon yielding variants that span an 11 000-fold range in affinity. The PK properties of five such variants were determined in mice in order to demonstrate the tunable nature of serum half-life, exposure and clearance with variations in albumin binding affinity.

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Sigma-Aldrich
Albumin from mouse serum, lyophilized powder, essentially globulin free, ≥99% (agarose gel electrophoresis)