Abstract
Additional sex comb-like 1 (ASXL1, 170 kDa), a mammalian homolog of Drosophila ASX, was identified as a protein that interacts with retinoic acid receptor (RAR) in the presence of retinoic acid (RA). Systematic binding assays showed that the C-terminal nuclear receptor box (LVMQLL) of ASXL1 and the activation function-2 activation domain (AF-2 AD) core of the RAR are critical for ligand-dependent interaction. The interaction was confirmed using in vitro glutathione S-transferase pulldown and in vivo immunoprecipitation (IP) assays. Confocal microscopy revealed that ASXL1 localizes in the nucleus. In addition to the intrinsic transactivation function of ASXL1, its cotransfection together with an RA-responsive luciferase reporter increased the RAR activity. This ASXL1 activity appears to be mediated through the functional cooperation with SRC-1, as shown by GST pulldown, IP, chromatin IP, and transcription assays. In the presence of ASXL1, more acetylated histone H3 was accumulated on the RA-responsive promoter in response to RA. Finally, stable expression of ASXL1 increased the expression of endogenous RA-regulated genes and enhanced the antiproliferative potential of RA. Overall, these results suggest that ASXL1 is a novel coactivator of RAR that cooperates with SRC-1 and implicates it as a potential antitumor target of RA in RA-resistant cancer cells.
Highlights
We demonstrate that mammalian Additional sex comb-like 1 (ASXL1) interacts with the activation function-2 activation domain (AF-2 AD) core of retinoic acid receptor (RAR) through a novel, promiscuous NR box (LVMQLL) and enhances transcriptional activity of the receptors in certain cells
The longest fragment corresponded to amino acids 659 –1541 of human ASXL1 For further studies, we used the mouse full-length cDNA that was kindly provided as a KIAA clone from the Kazusa DNA Research Institute (Japan)
A similar pattern of interaction was observed with SRC-1. These results suggest that the activation functions (AFs)-2 AD core of RAR/RXR is involved in the interaction with ASXL1
Summary
We demonstrate that mammalian ASXL1 interacts with the AF-2 AD core of RAR (and RXR) through a novel, promiscuous NR box (LVMQLL) and enhances transcriptional activity of the receptors in certain cells. The yeast two-hybrid assays indicated that like SRC-1, the fragments of ASXL1 interact with RAR in an AtRA-dependent manner (Fig. 2B).
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