Abstract
To understand the mechanism of affinity maturation, we examined the antigen-antibody interactions between 4-hydroxy-3-nitrophenylacetyl (NP) caproic acid and the Fab fragments of three anti-NP antibodies, N1G9, 3B44, and 3B62, by isothermal titration calorimetry. The analyses have revealed that all of these interactions are mainly driven by negative changes in enthalpy. The enthalpy changes decreased linearly with temperature in the range of 25-45 degrees C, producing negative changes in heat capacity. On the basis of the dependence of binding constants on the sodium chloride concentration, we have shown that, during the affinity maturation of the anti-NP antibody, the electrostatic effect does not significantly contribute to the increase in the binding affinity. We have found that, as the logarithm of the binding constants increases during the affinity maturation of the anti-NP antibody, the magnitudes of the corresponding enthalpy, heat capacity, and unitary entropy changes increase almost linearly. On the basis of this correlation, we have concluded that, during the affinity maturation of the anti-NP antibody, a better surface complementarity is attained in the specific complex in order to obtain a higher binding affinity.
Highlights
To understand the mechanism of affinity maturation, we examined the antigen-antibody interactions between 4-hydroxy-3-nitrophenylacetyl (NP) caproic acid and the Fab fragments of three anti-NP antibodies, N1G9, 3B44, and 3B62, by isothermal titration calorimetry
We examined the interactions between 4-hydroxy-3-nitrophenylacetyl caproic acid (NP-Cap) antigen and the Fab fragments of three anti-NP antibodies, N1G9, 3B44, and 3B62
In the present study we have carried out the isothermal titration calorimetry (ITC) analyses of the antigen-antibody associations in affinity maturation, in order to understand the mechanism of affinity maturation
Summary
To understand the mechanism of affinity maturation, we examined the antigen-antibody interactions between 4-hydroxy-3-nitrophenylacetyl (NP) caproic acid and the Fab fragments of three anti-NP antibodies, N1G9, 3B44, and 3B62, by isothermal titration calorimetry. As the logarithm of the binding constants increases during the affinity maturation of the anti-NP antibody, the magnitudes of the corresponding enthalpy, heat capacity, and unitary entropy changes increase almost linearly. Thermodynamic aspect of antigen-antibody association is essential in order to understand the mechanism of the high affinity and specificity of antigen-antibody interaction. Thermodynamic parameters such as Gibbs free energy change, ⌬G, enthalpy change, ⌬H, entropy change, ⌬S, and heat capacity change, ⌬Cp, can provide useful information to identify fundamental forces involved in the antigen-antibody interaction. The magnitude of ⌬Cp is usually related to the contribution of the hydrophobic effect to molecular association [13,14,15,16]
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