Abstract
HMGB-1/-2 are coregulatory proteins that facilitate the DNA binding and transcriptional activity of steroid receptor members of the nuclear receptor family of transcription factors. We investigated the influence and mechanism of action of HMGB-1/-2 (formerly known as HMG-1/-2) on estrogen receptor alpha (ERalpha) and ERbeta. Both ER subtypes were responsive to HMGB-1/-2 with respect to enhancement of receptor DNA binding affinity and transcriptional activity in cells. Responsiveness to HMGB-1/-2 was dependent on the C-terminal extension (CTE) region of the ER DNA binding domain (DBD) and correlated with a direct protein interaction between HMGB-1/-2 and the CTE. Thus the previously reported higher DNA binding affinity and transcription activity of ERalpha as compared with ERbeta is not due to a lack of ERbeta interaction with HMGB-1/-2. Using chimeric receptor DBDs, the higher intrinsic DNA binding affinity of ERalpha than ERbeta was shown to be due to a unique property of the ERalpha CTE, independent of HMGB-1/-2. The CTE of both ER subtypes was also shown to be required for interaction with ERE half-sites. These studies reveal the importance of the CTE and HMGB-1/-2 for ERalpha and ERbeta interaction with their cognate target DNAs.
Highlights
Nuclear hormone receptors comprise a superfamily of liganddependent transcription factors that regulate gene expression through interaction with specific hormone response elements (HREs)1 in target genes
The nuclear receptors are related through a common domain structure including conserved C-terminal ligand binding (LBD) and centrally located DNA binding domains (DBD), and a variable N-terminal domain that is required in many nuclear receptors for maximal transcription activity (Refs. 1 and 2, reviews)
The C-terminal extension (CTE) of class II receptors (TR and VDR) forms an ␣-helix that projects across the minor groove between HRE half-sites, making extensive contacts along the phosphate backbone required for high affinity DNA binding and correct spacing with the RXR heterodimer [8, 9]
Summary
Nuclear hormone receptors comprise a superfamily of liganddependent transcription factors that regulate gene expression through interaction with specific hormone response elements (HREs)1 in target genes. The mechanism for the higher DNA affinity of ER␣ is not known, but is likely due to differences in the CTE or other regions outside the highly conserved core DBDs. The only member of the steroid class of nuclear receptors that has not been analyzed for interaction with HMGB-1/-2 is ER.
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