posted on 2016-07-01, 00:00authored byTraian Sulea, Victor Vivcharuk, Christopher R. Corbeil, Christophe Deprez, Enrico O. Purisima
Affinity modulation of antibodies
and antibody fragments of therapeutic
value is often required in order to improve their clinical efficacies.
Virtual affinity maturation has the potential to quickly focus on
the critical hotspot residues without the combinatorial explosion
problem of conventional display and library approaches. However, this
requires a binding affinity scoring function that is capable of ranking
single-point mutations of a starting antibody. We focus here on assessing
the solvated interaction energy (SIE) function that was originally
developed for and is widely applied to scoring of protein–ligand
binding affinities. To this end, we assembled a structure–function
data set called Single-Point Mutant Antibody Binding (SiPMAB) comprising
several antibody–antigen systems suitable for this assessment,
i.e., based on high-resolution crystal structures for the parent antibodies
and coupled with high-quality binding affinity measurements for sets
of single-point antibody mutants in each system. Using this data set,
we tested the SIE function with several mutation protocols based on
the popular methods SCWRL, Rosetta, and FoldX. We found that the SIE
function coupled with a protocol limited to sampling only the mutated
side chain can reasonably predict relative binding affinities with
a Spearman rank-order correlation coefficient of about 0.6, outperforming
more aggressive sampling protocols. Importantly, this performance
is maintained for each of the seven system-specific component subsets
as well as for other relevant subsets including non-alanine and charge-altering
mutations. The transferability and enrichment in affinity-improving
mutants can be further enhanced using consensus ranking over multiple
methods, including the SIE, Talaris, and FOLDEF energy functions.
The knowledge gained from this study can lead to successful prospective
applications of virtual affinity maturation.