Abstract
The nuclear hormone 1alpha,25-dihydroxyvitamin D3(VD) mainly functions through a heterodimer formed between the VD receptor (VDR) and the retinoid X receptor (RXR). This transcription factor complex specifically recognizes DNA sequences, referred to as VD response elements (VDREs), that are formed by two hexameric core binding motifs arranged either as direct repeats spaced by 3 nt (DR3) or inverted palindromes with nine intervening nucleotides (IP9). Gel shift clipping assays provided the first evidence that VDR-RXR heterodimers form different conformations on these two types of VDREs. Since the T-box within the C-terminal extension of the receptor DNA binding domain (DBD) was previously shown to form a dimerization interface with the partner receptor DBD when bound to DR-type response elements, all six amino acid residues of the VDR T-box were investigated for their role in VDR-RXR heterodimer complex formation on DR3- and IP9-type VDREs. Interestingly, the residue Phe93 (F93) was found to be critical on both types of VDREs, whereas the role of the residue Ile94 (I94) was found to depend on ionic strength of the binding reaction and the nature of the VDRE. However, under physiological conditions I94 was also shown to be critical on both VDRE types. The monitored differences between the two VDR-containing protein-DNA complexes helps in an understanding of the differential action of the nuclear hormone VD and its therapeutically important analogues.
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