The two disparate functions of DCoH1 (dimerization cofactor of HNF-1)/PCD (pterin-4a-carbinolamine dehydratase) are associated with a change in oligomeric state. DCoH dimers enhance the activity of the diabetes-associated transcription factor HNF-1α (hepatocyte nuclear factor-1α), while the PCD activity of DCoH1 homotetramers aids in aromatic amino acid metabolism. These complexes compete for the same interface of the DCoH dimer. Formation of the DCoH1/HNF-1α complex requires cofolding. The homotetramer of the DCoH1 paralogue, DCoH2, interacts with HNF-1α through simple mixing. To further investigate regulation of DCoH/HNF-1α complex formation, we measured the stability of the DCoH1 homotetramer through unfolding studies by intrinsic tryptophan fluorescence. DCoH2 unfolding is reversible. Surprisingly, the DCoH1 homotetramer is resistant to guanidine unfolding but refolds at a much lower guanidine concentration. We show that a point mutation at the DCoH1 tetramer interface, Thr 51 Ser, overcomes the dissociation barrier of the homotetramer and increases the interaction with HNF-1α. The 1.8 Ǻ resolution crystal structure of DCoH1 T51S shows the presence of an ordered water molecule at the tetramer interface, as in DCoH2, which may destabilize the homotetramer. The equilibrium unfolding data were fit to a two-state model with no apparent intermediate. Folding intermediates were detectable by size exclusion chromatography. For wild-type DCoH1 the intermediates changed with time, suggesting a kinetic origin for the unfolding barrier of the homotetramer. We propose an unfolding pathway in which the tetramer unfolds slowly, but the dimer folds reversibly. Implications for regulation of DCoH1/HNF-1α complex formation are discussed.
The basic-helix-loop-helix (bHLH) region of the immunoglobulin enhancer binding protein E47 (IEB E47) was prepared in high yield by a solid-phase peptide synthesis methodology. Size-exclusion chromatography, sedimentation equilibrium and cross-linking data showed that the synthetic bHLH protein, 1, was dimeric, and higher-order aggregates of trimer and tetramer were also observed. The circular dichroism spectrum of 1 showed a high helical content, which increased upon addition of DNA containing the K E~ sequence. Gel mobility shift experiments showed that protein 1 bound sequence specifically to the lcE2 sequence with a binding constant of 10lo M~, and had an affinity for other E box sequences as well. Comparisons between the co-crystal structure of IEB E47 with DNA and structural studies in solution showed lower helical contents in solution as would have been predicted from the crystal structure. 0 Munksgaard 1995.
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