Differences in Electrostatic Properties at Antibody-Antigen Binding Sites: Implications for Specificity and Cross-Reactivity

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Differences in Electrostatic Properties at Antibody-Antigen Binding Sites: Implications for Specificity and Cross-Reactivity

Neeti Sinha, Srinivasan Mohan, Claudia A. Lipschultz, and Sandra J. Smith-Gill

Basic Research Laboratory, National Cancer Institute at Frederick, National Institutes of Health, Frederick, Maryland 21702 USA

Antibodies HyHEL8, HyHEL10, and HyHEL26 (HH8, HH10, and HH26, respectively) recognize highly overlapping epitopes on hen egg-whitelysozyme (HEL) with similar affinities, but with different specificities.HH8 binding to HEL is least sensitive toward mutations in theepitope and thus is most cross-reactive, HH26 is most sensitive,whereas the sensitivity of HH10 lies in between HH8 and HH26.Here we have investigated intra- and intermolecular interactionsin three antibody-protein complexes: theoretical models of HH8-HELand HH26-HEL complexes, and the x-ray crystal structure of HH10-HELcomplex. Our results show that HH8-HEL has the lowest number andHH26-HEL has the highest number of intra- and intermolecular hydrogenbonds. The number of salt bridges is lowest in HH8-HEL and highestin HH26-HEL. The binding site salt bridges in HH8-HEL are notnetworked, and are weak, whereas, in HH26-HEL, an intramolecularsalt-bridge triad at the binding site is networked to an intermoleculartriad to form a pentad. The pentad and each salt bridge of thispentad are exceptionally stabilizing. The number of binding-sitesalt bridges and their strengths are intermediate in HH10-HEL,with an intramolecular triad. Our further calculations show thatthe electrostatic component contributes the most to binding energyof HH26-HEL, whereas the hydrophobic component contributes themost in the case of HH8-HEL. A "hot-spot" epitope residue Lys-97forms an intermolecular salt bridge in HH8-HEL, and participatesin the intermolecular pentad in the HH26-HEL complex. Mutant modelingand surface plasmon resonance (SPR) studies show that this hot-spotepitope residue contributes significantly more to the bindingthan an adjacent epitope residue, Lys-96, which does not forma salt bridge in any of the three HH-HEL complexes. Furthermore,the effect of mutating Lys-97 is most severe in HH26-HEL. Lys-96,being a charged residue, also contributes the most in HH26-HELamong the three complexes. The SPR results on these mutants alsohighlight that the apparent "electrostatic steering" on net onrates actually act at post-collision level stabilization of thecomplex. The significance of this work is the observed variationsin electrostatic interactions among the three complexes. Our workdemonstrates that higher electrostatics, both as a number of short-rangeelectrostatic interactions and their contributions, leads to higherbinding specificity. Strong salt bridges, their networking, andelectrostatically driven binding, limit flexibilities throughgeometric constrains. In contrast, hydrophobic driven bindingand low levels of electrostatic interactions are associated withconformational flexibility and cross-reactivity.

Biophys J, December 2002, p. 2946-2968, Vol. 83, No. 6
© 2002 by the Biophysical Society 0006-3495/02/12/2946/23 $2.00

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