Probing protein conformational changes in living cells by using designer binding proteins: Application to the estrogen receptor

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The National Academy of Sciences

RESUMO

A challenge in understanding the mechanism of protein function in biology is to establish the correlation between functional form in the intracellular environment and high-resolution structures obtained with in vitro techniques. Here we present a strategy to probe conformational changes of proteins inside cells. Our method involves: (i) engineering binding proteins to different conformations of a target protein, and (ii) using them to sense changes in the surface property of the target in cells. We probed ligand-induced conformational changes of the estrogen receptor α (ERα) ligand-binding domain (LBD). By using yeast two-hybrid techniques, we first performed combinatorial library screening of “monobodies” (small antibody mimics using the scaffold of a fibronectin type III domain) for clones that bind to ERα and then characterized their interactions with ERα in the nucleus, the native environment of ERα, in the presence of various ligands. A library using a highly flexible loop yielded monobodies that specifically recognize a particular ligand complex of ERα, and the pattern of monobody specificity was consistent with the structural differences found in known crystal structures of ERα-LBD. A more restrained loop library yielded clones that bind both agonist- and antagonist-bound ERα. Furthermore, we found that a deletion of the ERα F domain that is C-terminally adjacent to the LBD increased the crossreactivity of monobodies to the apo-ERα-LBD, suggesting a dynamic nature of the ERα-LBD conformation and a role of the F domain in restraining the LBD in an inactive conformation.

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