The X-ray crystal structure of an anti-leukotriene (LT) C4 monoclonal antibody (mAbLTC) in complex with LTC4 was determined, however, crystallographic studies alone are not enough to fully understand the structures of the antigen-binding site. To elucidate the individual contribution of Tyr-54 and Asn-58 in the light chain of mAbLTC, both of which formed a hydrogen bond with glutamic acid of LTC4, we examined whether substitution of the residues affects the antigen binding affinity and specificity using an anti-LTC4 single chain variable fragment (scFvLTC). Among the Tyr-54(L) mutants, Y54(L)W showed a dramatic increase in the affinity to LTE4 which was comparable to that to LTD4 Essentially the same results were obtained using the Y54(L)W mutant expressed in Escherichia coli and Pichia pastoris. The structural modeling suggested the formation of a novel hydrogen bond between the substituted tryptophan in the antibody and the cysteine residue in LTE4 The affinity of Y54(L)R, Y54(L)E and Y54(L)L to LTC4 was markedly reduced, whereas other tested Tyr-54(L) mutants as well as Asn-58(L) mutants did not show significant change in LT binding. The results may provide an insight into the molecular basis of specific LT recognition by the antibody.
Keywords: Leukotriene; Monoclonal antibody; Recombinant protein expression; Single-chain variable fragment; Site-directed mutagenesis.
© The Authors 2016. Published by Oxford University Press on behalf of the Japanese Biochemical Society. All rights reserved.