Conformational changes on ligand binding in wild-type and mutants from Spodoptera frugiperda midgut trehalase

Trehalase specifically hydrolyses trehalose into two glucose units and is most important in insects and fungi. Previous evidence suggested that Spodoptera frugiperda midgut trehalase (wild type, WT) has substantial conformational changes on binding different substances. Our goal is to understand this mobility. For this, two deletion mutants were produced, lacking regions supposed to be the cause of mobility [(102 residues from the N-terminus (NT) and this portion plus 31 residues from the C-terminus (NCT)]. Circular dichroism spectra before and after denaturation of the enzymes support the assertion that they are appropriately folded. The overall results show that the removal of 102 or 133 amino acids does not greatly change the interaction with the substrate and competitive inhibitors, but leads to a considerable decrease in kcat/Km values from WT 74,500 M(−1) s(−1) to NT 647 M(−1) s(−1) and NCT 1,044 M(−1) s(−1). Diethyl pyrocarbonate His modification only occurs in wild and truncated trehalases in the presence of some ligands. Looking for changes in folding WT, NT, and NCT were incubated with different compounds in the presence of Sypro Orange, that binds to hydrophobic regions increasing its fluorescence. The dye fluorescence is affected by 2 compounds when WT is present, and at least by 5 compounds when NT or NCT are present, suggesting that conformational changes caused by ligand binding occur only in the vicinity of the active site. These data provide physical evidence in favor of a change in folding around the active site caused by ligand binding, in agreement to prior chemical modification and other kinetic data and challenging the hypothesis that N- and C-terminal are the mobile regions.