Novel FXXFF and FXXMF Motifs in Androgen Receptor Cofactors Mediate High Affinity and Specific Interactions with the Ligand-binding Domain

Dennis J Van De Wijngaart,Martin E Van Royen,Remko Hersmus,Ashley C.W Pike,Adriaan B Houtsmuller,Guido Jenster,Jan Trapman,Hendrikus J Dubbink

doi:10.1074/jbc.m602567200

Dennis J Van De Wijngaart, Martin E Van Royen + Show 6 more

Open Access

https://doi.org/10.1074/jbc.m602567200

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Abstract

Upon hormone binding, a hydrophobic coactivator binding groove is induced in the androgen receptor (AR) ligand-binding domain (LBD). This groove serves as high affinity docking site for alpha-helical FXXLF motifs present in the AR N-terminal domain and in AR cofactors. Study of the amino acid requirements at position +4 of the AR FXXLF motif revealed that most amino acid substitutions strongly reduced or completely abrogated AR LBD interaction. Strong interactions were still observed following substitution of Leu+4 by Phe or Met residues. Leu+4 to Met or Phe substitutions in the FXXLF motifs of AR cofactors ARA54 and ARA70 were also compatible with strong AR LBD binding. Like the corresponding FXXLF motifs, interactions of FXXFF and FXXMF variants of AR and ARA54 motifs were AR specific, whereas variants of the less AR-selective ARA70 motif displayed increased AR specificity. A survey of currently known AR-binding proteins revealed the presence of an FXXFF motif in gelsolin and an FXXMF motif in PAK6. In vivo fluorescence resonance energy transfer and functional protein-protein interaction assays showed direct, efficient, and specific interactions of both motifs with AR LBD. Mutation of these motifs abrogated interaction of gelsolin and PAK6 proteins with AR. In conclusion, we have demonstrated strong interaction of FXXFF and FXXMF motifs to the AR coactivator binding groove, thereby mediating specific binding of a subgroup of cofactors to the AR LBD.

Highlights

Ligand-inducible transcription factor of the nuclear receptor (NR) superfamily
Alanine scan mutagenesis of the androgen receptor (AR) FXXLF motif demonstrated that amino acid residues at positions ϩ1, ϩ4, and ϩ5 are essential for interaction with the coactivator groove (21)
FXXLF motifs has been described (17, 21, 26), little is known about that FXXLF motifs, including those of AR and ARA54, disthe amino acid requirements at ϩ4 for AR ligandbinding domain (LBD) binding

Summary

AR Interaction with FXXFF and FXXMF Motifs

Shiga, Japan), pM-B/E (17), or in the BglII and EcoRI sites of pEYFP-C2 (Takara Bio) as described previously (17). Mutagenesis of position ϩ4 in the AR FXXLF motif was performed in oligonucleotides encoding AR18–30. Yeast expression construct pGalDBD-AR LBD (AR661–919) has been described previously (33). Tides and directed mutagenesis studies of the AR FXXLF motif GCAGCCAGCTC-3Ј (EcoRI sites in bold) on pOTB7-Gelsolin demonstrated that Phe and Met, Tyr, and Trp (IMAGp958I211459Q; RZPD). Phe and Leu to Met substitutions in the AR FXXLF motif are site of pECFP-C2 (Takara Bio). The (ARE)2TATA-LUC reporter construct has interaction assays, and mutagenesis, the AR partners gelsolin been previously described as (PRE)2-E1b-LUC (36). The and PAK6 were found to contain an FXXFF and FXXMF motif, (UAS)4TATA-LUC reporter construct was kindly provided respectively, necessary and sufficient for AR LBD interaction.

EXPERIMENTAL PROCEDURES

FRET Measurement by Acceptor

Western blot analysis of transformed yeast cells demonstrated that all

RESULTS

Phe and Leu to Met substitution variants of FXXLF motifs remain

DISCUSSION