Abstract
The nuclear hormone receptor superfamily is composed of a group of hormone-dependent transcription factors that play prominent roles in homeostatic events in vertebrates. A prerequisite for steroid hormone receptor activity is the binding of co-activator molecules to the activation function-2 domain of the receptor. The LXXLL motif/nuclear receptor box, contained within a number of co-activator molecules, mediates the interaction with nuclear hormone receptors. Tip60 (Tat-interactive protein 60 kDa), previously shown to bind to and enhance androgen receptor (AR)-mediated transactivation, contains a single nuclear receptor box at its extreme C terminus. We demonstrate that unlike members of the p160 co-activator family that interact predominantly with the N terminus of the AR in an LXXLL motif-independent manner, the LXXLL motif of Tip60 is required and is sufficient for AR interaction. Furthermore, by using the mammalian two-hybrid system and transient transfection experiments, we show that Tip60 preferentially interacts with and up-regulates class I nuclear receptors, suggesting that Tip60 is a steroid hormone receptor-specific co-activator. We conclude that Tip60 may specifically regulate a subset of nuclear hormone receptors, giving an indication to how regulated nuclear receptor activation can be achieved.
Highlights
The androgen receptor (AR),1 a member of the steroid hormone receptor family, is a ligand-inducible transcription factor that plays a key role in the growth, development, and transformation of the prostate gland [1, 2]
Whereas many co-activator-nuclear hormone receptor (NR) interactions are mediated via LXXLL motifs, numerous lines of evidence have indicated that p160 co-activators interact with and enhance AR-mediated transactivation in an LXXLL motif-independent manner [27, 28, 32], suggesting that co-activators may interact with the AR in a distinct fashion to that of other NRs
Like other co-activators, the hydrophobic integrity of the LXXLL motif was demonstrated to be vital for AR ligand-binding domain (LBD) binding; substitution of the individual leucine residues to alanine resulted in abrogation of AR LBD interaction
Summary
The androgen receptor (AR),1 a member of the steroid hormone receptor family, is a ligand-inducible transcription factor that plays a key role in the growth, development, and transformation of the prostate gland [1, 2]. The LXXLL motif/nuclear receptor box, contained within a number of co-activator molecules, mediates the interaction with nuclear hormone receptors.
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