The molecular basis of the interaction between the proline-rich SH3-binding motif of PNRC and estrogen receptor alpha

PNRC and PNRC2 are members of a new family of nuclear receptor coactivators. We systematically determined the molecular basis and the structure/function relationship for the PNRC–ERα interaction. PNRC was found to interact with ERα mainly through its C-terminus region, amino acids 270–327, and an SH3-binding motif within this region was shown to be essential for PNRC to interact with and function as coactivator of ERα. The importance of the flanking sequences of SH3-binding motif in the interaction between PNRC and ERα was also investigated. The PNRC-interacting domain(s) on ERα was also mapped. PNRC was found to interact with both AF1 and LBD of ERα, and to function as a coactivator for both AF1 and AF2 transactivation functions. The interaction of ERα mutants, I358R, K362A, V376R, L539R and E542K, with PNRC/PNRC2 was further investigated. ERα/HBD/V376R could bind to PNRC or PNRC2, with similar affinity as wild-type ERα/HBD, and the transactivation activity of ERα/V376R was enhanced 5-fold by PNRC. Since GRIP1, a well-characterized coactivator, was found not to be able to enhance the transactivation function of this mutant, our results indicate that the PNRC–ERα interaction interface is not exactly identical to that of GRIP1–ERα interaction.