Abstract
The nuclear receptor nurr1 is a transcription factor involved in the development and maintenance of neurons synthesizing the neurotransmitter dopamine. Although the lack of nurr1 expression has dramatic consequences for these cells either in terms of differentiation or survival, the mechanisms by which nurr1 controls gene transcription still remain unclear. In the intent to understand better the modalities of action of this nuclear receptor, we have undertaken a systematic analysis of the transcriptional effects and DNA binding properties of nurr1 as a monomer or when forming dimers with the different isotypes of the retinoic X receptor (RXR). Here, we show that nurr1 acts as a gene activator independently of RXR and through an AF2-independent mechanism. In addition, heterodimerization with RXR is isotype-specific, involves multiple domains in the C-terminal region of nurr1, and requires RXR binding to DNA. RXR(alpha)-nurr1 and RXRgamma-nurr1 heterodimers bind direct repeat response elements and display no specific requirements with respect to half-site spacing. However, the retinoid responsiveness of DNA-bound heterodimers requires the reiteration of at least three nurr1 binding sites, thereby limiting retinoid-induced nurr1 transcriptional activity to specific direct response elements.
Highlights
The nuclear receptor nurr1 (NR4A2) is a brain-specific transcription factor [1], member of the superfamily of nuclear receptors (NR)1 that plays a major role in the development and maintenance of a specific subset of neuronal cells
In the intent to characterize the transcriptional activity of nurr1 acting as monomer or as a heterodimer with retinoic X receptor (RXR), we used the rat pheochromocytoma PC12 cells because they exhibit neuronal-like characteristics and can be stimulated to induce expression of nurr1 [1]
Data available on the expression of the RXR isotypes show a different spatial distribution of these receptors in adult brain [29, 30], with high protein expression levels of RXR␥ concentrated in the corpus striatum, the hypothalamus, and the anterior pituitary and a lower but more ubiquitous expression of RXR␣ throughout the brain [29]
Summary
The nuclear receptor nurr1 (NR4A2) is a brain-specific transcription factor [1], member of the superfamily of nuclear receptors (NR)1 that plays a major role in the development and maintenance of a specific subset of neuronal cells. We characterized the dimerization process between nurr1 and RXR by analyzing transcriptional activities and DNA binding properties of these receptors in PC12 cells, a pheochromocytoma cell line with neuronal characteristics and the ability to express nurr1 [1].
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