Sumoylation of the Progesterone Receptor and of the Steroid Receptor Coactivator SRC-1

Chauchereau, Anne; Amazit, Larbi; Quesne, Monique; Guiochon‐Mantel, Anne; Milgröm, Edwin

doi:10.1074/jbc.m207148200

Cited by 131 publications

(127 citation statements)

References 72 publications

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“…Consistent with this hypothesis, it was recently demonstrated that SUMO-1 overexpression markedly enhances progesterone receptor-mediated gene activation. However, despite the fact that the progesterone receptor was sumoylated, the sumoylation of the SRC-1 co-activator increased progesterone receptor-SRC-1 interaction and prolonged SRC-1 retention in the nucleus (39). Another attractive explanation comes from a recent study in which it was demonstrated that PIAS␥ interacts with histone deacetylase 1 and represses transforming growth factor-␤/ Smad-mediated transcription in an histone deacetylasedependent manner (40).…”

Section: Discussionmentioning

confidence: 99%

PIASγ Represses the Transcriptional Activation Induced by the Nuclear Receptor Nurr1

Galleguillos¹,

Vecchiola²,

Fuentealba

et al. 2004

Journal of Biological Chemistry

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Nurr1 is a transcription factor essential for the development of ventral dopaminergic neurons. In search for regulatory mechanisms of Nurr1 function, we identified the SUMO (small ubiquitin-like modifier)-E3 ubiquitinprotein isopeptide ligase, PIAS␥, as an interaction partner of Nurr1. Overexpressed PIAS␥ and Nurr1 co-localize in the nuclei of transfected cells, and their interaction is demonstrated through co-immunoprecipitation and glutathione S-transferase pulldown assays. Co-expression of PIAS␥ with Nurr1 results in a potent repression of Nurr1-dependent transcriptional activation of an artificial NGFI-B response element (NBRE) reporter as well as of a reporter driven by the native tyrosine hydroxylase promoter. We identified two consensus sumoylation sites in Nurr1. The substitution of lysine 91 by arginine in one SUMO site enhanced the transcriptional activity of Nurr1, whereas the substitution of lysine 577 by arginine in the second SUMO site decreased transcriptional activity of Nurr1. Interestingly, PIAS␥-induced repression of Nurr1 activity does not require the two sumoylation sites, because each mutant is repressed as efficiently as the wild type Nurr1. In addition, the mutations do not alter Nurr1 nuclear localization. Finally, we provide evidence that Nurr1 and PIAS␥ co-exist in several nuclei of the rodent central nervous system by demonstrating the co-expression of Nurr1 protein and PIAS␥ mRNA in the same cells. In conclusion, our studies identified PIAS␥ as a transcriptional co-regulator of Nurr1 and suggest that this interaction may have a physiological role in regulating the expression of Nurr1 target genes.

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Section: Discussionmentioning

confidence: 99%

PIASγ Represses the Transcriptional Activation Induced by the Nuclear Receptor Nurr1

Galleguillos¹,

Vecchiola²,

Fuentealba

et al. 2004

Journal of Biological Chemistry

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“…However, there are also opposite examples of SUMO-modified proteins, which lead to transcriptional activation rather than repression. Transcriptional coactivators, such as SRC-1 and GRIP1, are shown to be modified by SUMO-1, thus resulting in enhanced transcriptional coactivator capacities (60,61). Therefore, sumoylation does not necessarily induce transcriptional repression depending on the substrates.…”

Section: Discussionmentioning

confidence: 99%

Ubc9 and Protein Inhibitor of Activated STAT 1 Activate Chicken Ovalbumin Upstream Promoter-Transcription Factor I-mediated Human CYP11B2 Gene Transcription

Kurihara

Shibata

Kobayashi

et al. 2005

Journal of Biological Chemistry

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Aldosterone synthase (CYP11B2) is involved in the final steps of aldosterone biosynthesis and expressed exclusively in the adrenal zona glomerulosa cells. Using an electrophoretic mobility shift assay, we demonstrate that COUP-TFI binds to the ؊129/؊114 element (Ad5) of human CYP11B2 promoter. Transient transfection in H295R adrenal cells demonstrated that COUP-TFI enhanced CYP11B2 reporter activity. However, the reporter construct with mutated Ad5 sequences showed reduced basal and COUP-TFI-enhanced activity, suggesting that binding of COUP-TFI to Ad5 is important for CYP11B2 transactivation. To elucidate molecular mechanisms of COUP-TFI-mediated activity, we subsequently screened for COUP-TFI-interacting proteins from a human adrenal cDNA library using a yeast twohybrid system and identified Ubc9 and PIAS1, which have small ubiquitin-related modifier-1 (SUMO-1) conjugase and ligase activities, respectively. The coimmunoprecipitation assays confirmed that COUP-TFI forms a complex with Ubc9 and PIAS1 in mammalian cells. Immunohistochemistry showed that Ubc9 and PIAS1 are markedly expressed in rat adrenal glomerulosa cells. Coexpression of Ubc9 and PIAS1 synergistically enhanced the COUP-TFI-mediated CYP11B2 reporter activity, indicating that both proteins function as coactivators of COUP-TFI. However, sumoylation-defective mutants, Ubc9 (C93S) and PIAS1 (C351S), continued to function as coactivators of COUP-TFI, indicating that sumoylation activity are separable from coactivator ability. In addition, chromatin immunoprecipitation assays demonstrated that ectopically expressed COUP-TFI, Ubc9, and PIAS1 were recruited to an endogenous CYP11B2 promoter. Moreover, reduction of Ubc9 or PIAS1 protein levels by small interfering RNA inhibited the CYP11B2 transactivation by COUP-TFI. Our data support a physiological role of Ubc9 and PIAS1 as transcriptional coactivators in COUP-TFI-mediated CYP11B2 transcription.Aldosterone is exclusively produced in adrenal zona glomerulosa cells due to its unique expression of aldosterone synthase cytochrome P450 (CYP11B2), the enzyme required for the final steps of aldosterone biosynthesis. In aldosterone-producing adrenal cortical adenomas of patients with primary aldosteronism, overexpression of CYP11B2 is demonstrated at the transcriptional level (1, 2). Although the reason for aberrant expression of CYP11B2 in these adenomas is not known, mutations in the CYP11B2 gene do not appear to be the cause (3, 4). We therefore postulated that transcription factors and/or coregulators may play important roles in CYP11B2 overexpression in the tumors.The trans-acting factors that regulate CYP11B2 expression remain poorly defined. The orphan nuclear receptor, steroidogenic factor-1 (SF-1), 1 is shown to play a crucial regulator of most steroid hydroxylase genes, including CYP17 and CYP11B1 (5, 6). However, SF-1 actually represses rather than activates expression of hCYP11B2 (7-9). In addition, other transcription factors that are expressed in the adrenal cortex include the NGFI-B family of or...

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“…It is noteworthy, however, that in some contexts, the SUMO system has been shown to activate steroid receptors (Le Drean et al, 2002). This is most likely due to the modification of the nuclear receptor coactivators of the p160 family, such as Grip1/TIF2 and SRC-1 (Jimenez-Lara et al, 2002; Kotaja et al, 2002a;Chauchereau et al, 2003). Modification of these coactivators appears to facilitate interaction with the receptors and thereby enhances their transcriptional activity.…”

Section: Steroid Hormone Signallingmentioning

confidence: 99%

SUMO: a regulator of gene expression and genome integrity

2004

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Post-translational modification with the ubiquitin-like SUMO protein is involved in the regulation of many cellular key processes. The SUMO system modulates signal transduction pathways, including cytokine, Wnt, growth factor and steroid hormone signalling. SUMO frequently restrains the activity of downstream transcription factors in these pathways presumably by facilitating the recruitment of corepressors or mediating the assembly of repressor complexes. Additionally, evidence is accumulating that SUMO controls pathways important for the surveillance of genome integrity. SUMO regulates the PML/p53 tumour suppressor network, a key determinant in the cellular response to DNA damage. Moreover, proteins that maintain genomic stability by functioning at the interface between DNA replication, recombination and repair processes undergo SUMOylation. We will discuss some key findings that exemplify the role of SUMO in transcriptional regulation and genome surveillance.

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Sumoylation of the Progesterone Receptor and of the Steroid Receptor Coactivator SRC-1

Cited by 131 publications

References 72 publications

PIASγ Represses the Transcriptional Activation Induced by the Nuclear Receptor Nurr1

PIASγ Represses the Transcriptional Activation Induced by the Nuclear Receptor Nurr1

Ubc9 and Protein Inhibitor of Activated STAT 1 Activate Chicken Ovalbumin Upstream Promoter-Transcription Factor I-mediated Human CYP11B2 Gene Transcription

SUMO: a regulator of gene expression and genome integrity

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