Abstract
Several key functions of the androgen receptor (AR) such as hormone recognition and co-regulator recruitment converge in the ligand binding domain (LBD). Loss- or gain-of-function of the AR contributes to pathologies such as the androgen insensitivity syndrome and prostate cancer. Here, we describe a gain-of-function mutation of the surface-exposed threonine at position 850, located at the amino-terminus of Helix 10 (H10) in the AR LBD. Since T850 phosphorylation was reported to affect AR function, we created the phosphomimetic mutation T850D. The AR T850D variant has a 1.5- to 2-fold increased transcriptional activity with no effect on ligand affinity. In the androgen responsive LNCaP cell line grown in medium with low androgen levels, we observed a growth advantage for cells in which the endogenous AR was replaced by AR T850D. Despite the distance to the AF2 site, the AR T850D LBD displayed an increased affinity for coactivator peptides as well as the 23FQNLF27 motif of AR itself. Molecular Dynamics simulations confirm allosteric transmission of the T850D mutation towards the AF2 site via extended hydrogen bond formation between coactivator peptide and AF2 site. This mechanistic study thus confirms the gain-of-function character of T850D and T850 phosphorylation for AR activity and reveals details of the allosteric communications within the LBD.
Highlights
Introduction published maps and institutional affilThe androgen receptor (AR) is a ligand-activated transcription factor that belongs to the steroid receptor family [1]
We observed that the transcriptional activation by AR T850D is higher than the activity of AR WT at all DHT concentrations
Similar findings of AR gain of function through T850D were observed in PC3 cells where the maximal activity of AR increased more than 2-fold (Figure 1B, Table S1)
Summary
The androgen receptor (AR) is a ligand-activated transcription factor that belongs to the steroid receptor family [1]. Similar to other steroid receptors, it contains three domains: the amino-terminal domain (NTD), the DNA binding domain (DBD) and the ligand binding domain (LBD) [2]. Each domain has specific functions but communication as well as dimerization between different domains are required for full receptor activity [2,3,4,5]. AF2 can engage in the so-called N/C interaction with the 23 FQNLF27 motif of the NTD which has been proposed to stabilize hormone binding and to affect co-regulator interactions [14,15]
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