Characterization of the Two Coactivator-interacting Surfaces of the Androgen Receptor and Their Relative Role in Transcriptional Control*

Christiaens, Valerie; Bevan, Charlotte L.; Callewaert, Leen; Haelens, Anna; Verrijdt, Guy; Rombauts, Wilfried; Claessens, Frank

doi:10.1074/jbc.m209322200

Cited by 73 publications

(57 citation statements)

References 53 publications

(56 reference statements)

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“…We found that HEYL can repress the activity of AF1 in isolation, and furthermore, GST-HEYL was able to interact with AR through the AF1 domain (although it is not yet clear whether this interaction is direct). A characteristic of AR-AF1 is the ability of this domain to interact with the coactivator SRC1, and this interaction may be more functionally relevant than well characterized interactions of coactivators with AF2 (via LXXLL interaction motifs) as described for other nuclear receptors (41). We previously showed that HEY1 interacts with the bHLH-PAS domain of SRC1 and hypothesized that HEY1 can repress AR activity by blocking SRC1e/AR interactions and/or sequestering SRC1e from functional transcriptional complexes (25).…”

Section: Discussionmentioning

confidence: 99%

Repression of Androgen Receptor Activity by HEYL, a Third Member of the Hairy/Enhancer-of-split-related Family of Notch Effectors

Lavery

Villaronga

Walker

et al. 2011

Journal of Biological Chemistry

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The Hairy/Enhancer-of-split-related with YRPW-like motif (HEY) family of proteins are transcriptional repressors and downstream effectors of Notch signaling. We previously reported that HEY1 and HEY2 selectively repress androgen receptor (AR) signaling in mammalian cell lines and have shown that in human tissue HEY1 is excluded from the nuclei in prostate cancer but not benign prostatic hyperplasia. We have now characterized a third member of this family, HEYL, which is a more potent repressor of AR activity. HEYL interacted with and repressed AR activation function-1 domain and competitively inhibited SRC1e activation of AR transcriptional activity. Using a cell line inducibly expressing exogenous HEYL, we showed that HEYL represses endogenous AR-regulated genes and reduces androgen-dependent prostate cancer cell growth. Using a transrepression assay, we identified both trichostatin-sensitive and -insensitive domains within HEYL; however, analysis of endogenous AR target genes suggested that HEYL represses AR activity through histone deacetylase I/II-independent mechanisms. Immunohistochemical analyses of tissue indicated that, in a fashion similar to that previously reported for HEY1, HEYL is excluded from the nuclei in prostate cancer but not adjacent benign tissue. This suggests that nuclear exclusion of HEY proteins may be an important step in the progression of prostate cancer.

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Section: Discussionmentioning

confidence: 99%

Repression of Androgen Receptor Activity by HEYL, a Third Member of the Hairy/Enhancer-of-split-related Family of Notch Effectors

Lavery

Villaronga

Walker

et al. 2011

Journal of Biological Chemistry

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“…The DAF1-hinge mutants were created by exchanging HindIII/PsyI inserts. VP16-NTD and VP16-DFQNLF are pSNATCH-II constructs described earlier as hAR and hAR 1-529 DFQNLF (16,21). The DFQNLF plasmid was described before Figure 1.…”

Section: Methodsmentioning

confidence: 99%

“…Unlike other nuclear receptors, the AR AF2 is almost not active, probably because the AR AF2-coactivator interactions are weaker if compared with, for example, the estrogen receptor (16). Instead, AF1 is the major transactivation function of the AR, and the AR-NTD is the main recruiting surface for coactivators (16,17).…”

Section: Introductionmentioning

confidence: 99%

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The Hinge Region Regulates DNA Binding, Nuclear Translocation, and Transactivation of the Androgen Receptor

et al. 2007

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The androgen receptor (AR) encoding gene can undergo mutations during the development and treatment of prostate cancer. Even in hormone-independent stages, mutations in the receptor paradoxically seem to result in an increased AR function. Two such point mutations have been described in the part of the AR involved in DNA binding and nuclear translocation, namely the hinge region. Despite a decreased nuclear translocation, these mutant ARs display increased transactivating potencies. Through detailed analysis of the hinge region, we found that deletion of residues 629 to 636 resulted in a stronger androgen response on different reporters, although this mutant displays an extremely low in vitro affinity for androgen response elements. This superactivity is independent of nuclear localization and can be inhibited by antiandrogens. Surprisingly, the AR activation functions, AF1 and AF2, are not dramatically affected when the inhibitory region (629-RKLKKLGN-636) is deleted, although cotransfected p160 coactivator TIF2 had a stronger potentiating effect in the absence of this motif. The liganddependent interaction between the amino-terminal domain and the ligand-binding domain (N/C interaction) plays an important role in transactivation by the AR. We found that this interaction is strongly enhanced by deletion of the inhibitory region. In conclusion, the description of prostate cancer mutations has led to the discovery of a complex role of the hinge region in nuclear localization, DNA binding, coactivator recruitment, and N/C interaction of the AR. [Cancer Res 2007;67(9):4514-23]

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“…The pGEX-2TK-RBD, -RBD-LXXAA, -RBD1, and -RBD2 bacterial expression vectors were described previously (24). pSG5-FLAG-AR-wt, -⌬NTD, -⌬Tau5, -⌬Tau1, -⌬cTau1, -⌬F, and -G21E were described previously (16,19,37). Transfer vectors baculovirusexpressing for HA-MED1-wt, -C⌬454, -C⌬690, -C⌬918, -C⌬1215, -ERK mutant (T1032A and T1457A), and full-length FLAG-AR were generated by subcloning the corresponding epitope-tagged open reading frames into plasmids pAcSG2 or pVL1392 (BD Biosciences).…”

Section: Methodsmentioning

confidence: 99%

Regulation of Androgen Receptor-dependent Transcription by Coactivator MED1 Is Mediated through a Newly Discovered Noncanonical Binding Motif

Jin¹,

Claessens

Fondell³

2012

Journal of Biological Chemistry

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Background: MED1 is a key coactivator for androgen receptor (AR)-dependent transcription in prostate cancer cells. Results: The mechanisms and binding motifs through which the MED1-Mediator complex functionally interact with AR were determined. Conclusion: MED1 functionally interacts with the Tau-1 domain of AR via a newly discovered noncanonical binding motif. Significance: Our findings provide new insights into the molecular mechanisms of AR-mediated transcriptional activation in prostate cancer cells.

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Characterization of the Two Coactivator-interacting Surfaces of the Androgen Receptor and Their Relative Role in Transcriptional Control*

Cited by 73 publications

References 53 publications

Repression of Androgen Receptor Activity by HEYL, a Third Member of the Hairy/Enhancer-of-split-related Family of Notch Effectors

Repression of Androgen Receptor Activity by HEYL, a Third Member of the Hairy/Enhancer-of-split-related Family of Notch Effectors

The Hinge Region Regulates DNA Binding, Nuclear Translocation, and Transactivation of the Androgen Receptor

Regulation of Androgen Receptor-dependent Transcription by Coactivator MED1 Is Mediated through a Newly Discovered Noncanonical Binding Motif

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