Abstract
We constructed 18 single amino acid mutants of the adipocyte fatty acid-binding protein (A-FABP) and 17 of the intestinal fatty acid-binding protein (I-FABP), at locations in the fatty acid (FA) binding sites. For each mutant protein, we measured thermodynamic parameters that characterize FA binding. Binding affinities ranged from about 200-fold smaller to 30-fold larger than the wild type (WT) proteins. Thermodynamic parameters revealed that binding affinities often inaccurately reported changes in protein-FA interactions because changes in the binding entropy and enthalpy were usually compensatory and larger than the binding free energy. FA-FABP interactions were quite different for I-FABP and A-FABP proteins. Binding affinities were larger and decreased to a greater degree with increasing FA solubility for most of the I-FABP as compared with the A-FABP proteins, consistent with a more hydrophobic binding site for the I-FABP proteins. In A-FABP, Ala substitutions for Arg106 and Arg126, which interact with the FA carboxylate, reduce affinities by about 100-fold, but in I-FABP, R106A increases affinities up to 30-fold. Moreover, in A-FABP, the thermodynamic parameters predict that the FA carboxylate location switches from the 126-position in R106A to the 106 position in R126A. Finally, the A-FABP proteins, in contrast to the I-FABP proteins, reveal significant heat capacity changes (DeltaCp) upon FA binding, and substitutions at residues Arg106 and Arg126 reduce the magnitude of DeltaCp.
Highlights
4) Ala substitutions for Lys[58] in A-FABP and Arg[56] in I-FABP, which are located on the surface near their respective portal regions, result in small
Summary—These studies reveal substantial differences in the interaction of FA with adipocyte and intestinal FABPs. Their amino acid sequences are the basis for this difference, how the different amino acid residue-FA interactions contribute to the binding affinity is not apparent from a simple inspection of the two structures, primarily because of entropy/enthalpy compensation
III, roughly equivalent amino acid residue-FA interactions can be compared in A-FABP and I-FABP
Summary
X-ray crystallography and NMR studies indicate that the dominant feature of the FABP structure is a “clam shell” formed by orthogonal b-strands (Fig. 1A) These studies reveal that the FA binds to a site that is internal to the protein (5–11). We have extended this investigation to the adipocyte protein and several additional I-FABP mutants both to understand the interactions in A-FABP and to attempt to relate the differences in FA conformation and binding affinities in these two proteins. We measured binding affinities for FA to each mutant as a function of temperature and used van’t Hoff analysis to obtain the thermodynamic parameters of binding These results revealed enthalpy-entropy compensation effects in the adipocyte proteins as observed previously for mutants of the intestinal protein, and in addition, mutants of the adipocyte protein reveal substantial changes in heat capacity for single amino acid substitutions
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