Functional Interaction of a Novel Cellular Protein with the Papillomavirus E2 Transactivation Domain

Breiding, David E.; Sverdrup, Francis M.; Grossel, Martha J.; Moscufo, Nicola; Boonchai, Waranya; Androphy, Elliot J.

doi:10.1128/mcb.17.12.7208

Cited by 80 publications

(107 citation statements)

References 46 publications

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“…The mechanism of cell death induction by E2 is probably mediated by novel function(s) of E2. Few molecular partners, thought to play a role in E2 transcriptional activation, have been described (Rank and Lambert, 1995;Steger et al, 1995;Benson et al, 1997;Breiding et al, 1997;Yao et al, 1998). These include TFIID, TFIIB and an additional cellular protein of unknown function.…”

Section: Discussionmentioning

confidence: 99%

Papillomavirus E2 induces p53-independent apoptosis in HeLa cells

et al. 1999

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We have previously shown that expression of the papillomavirus E2 protein in HeLa cells induces p53 accumulation and causes both cell cycle arrest and apoptosis. In contrast to growth arrest, onset of apoptosis was not correlated with an increase of p53 transcriptional activity. In the present study, we conducted biochemical and genetic experiments in order to determine whether E2-induced apoptosis was independent of p53 induction. We showed that E2 did not alter the transcription of Bax, a known p53-activated cell death inducer. The time course of apoptotic cell death preceded p53 induction by several hours. Overexpression of the HPV18 E6 oncogene prevented E2-mediated p53 accumulation, but did not alter the rate of cell death. Finally, point mutants of the HPV18 E2 transactivation domain induced apoptosis, although they were unable to induce high p53 accumulation or cell cycle arrest. In addition, the results obtained with these mutants indicated that both transcriptional activation and replication functions of E2 were dispensable for the induction of cell death. These observations show that E2-induced apoptosis is an early event, independent of p53 accumulation and unrelated to downstream p53-dependent transcriptional events.

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Section: Discussionmentioning

confidence: 99%

Papillomavirus E2 induces p53-independent apoptosis in HeLa cells

et al. 1999

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“…Overexpression of GPS2 in mammalian cells has been shown to potently suppress JNK1 activation by serum factors or TNFa (Spain et al, 1996;Jin et al, 1997) and promote the transactivation activities of bovine papillomavirus E2 and tumor suppressor p53 proteins (Breiding et al, 1997;Peng et al, 2001). Within the N-CoR complex, GPS-2 interacts directly with N-CoR and TBL1 and may aid the assembly and stabilization of the complex (Zhang et al, 2002).…”

Section: Hdac3 Complexesmentioning

confidence: 99%

HDAC3: taking the SMRT-N-CoRrect road to repression

2007

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Known histone deacetylases (HDACs) are divided into different classes, and HDAC3 belongs to Class I. Through forming multiprotein complexes with the corepressors SMRT and N-CoR, HDAC3 regulates the transcription of a plethora of genes. A growing list of nonhistone substrates extends the role of HDAC3 beyond transcriptional repression. Here, we review data on the composition, regulation and mechanism of action of the SMRT/ N-CoR-HDAC3 complexes and provide several examples of nontranscriptional functions, to illustrate the wide variety of physiological processes affected by this deacetylase. Furthermore, we discuss the implication of HDAC3 in cancer, focusing on leukemia. We conclude with some thoughts about the potential therapeutic efficacies of HDAC3 activity modulation.

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“…GPS2 is also involved in transcription regulation through its association with the papillomavirus E2 and E6 proteins (18,19), the human T-cell lymphotrophic viral oncoprotein Tax (20), p53 and p300 (18,19,21), and regulatory factor X4 variant transcript 3 (RFX4_v3) (22). GPS2 was also found in the N-CoR corepressor complex and is capable of repressing basal transcription when forcibly bound to a promoter (23).…”

Section: Transcriptional Regulation By Estrogen Receptor ␣ (Er␣)mentioning

confidence: 99%

G Protein Pathway Suppressor 2 (GPS2) Is a Transcriptional Corepressor Important for Estrogen Receptor α-mediated Transcriptional Regulation

Cheng

Kao

2009

Journal of Biological Chemistry

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We have identified G protein suppressor 2 (GPS2) as a stable component of the SMRT corepressor complexes. GPS2 potently represses basal transcription, with the repression domain mapped to the N-terminal silencing mediator of retinoic acid and thyroid hormone receptor (SMRT)-interacting domain. Knockdown of GPS2 abrogates, whereas overexpression potentiates, SMRT-mediated repression activity. The SMRT complexes are involved in 4-hydroxyl-tamoxifen (4OHT)-mediated gene repression by estrogen receptor ␣ (ER␣). We show that 4OHT recruits SMRT and GPS2 to the promoter of pS2, an ER␣ target gene, in a dynamic manner. Unexpectedly, we also found that estradiol (E2) promotes promoter recruitment of the SMRT complexes. While knockdown of GPS2 compromised 4OHT-mediated repression, it enhanced E2-induced expression of a reporter gene and several endogenous ER␣ target genes, including pS2, cyclin D1 (CCND1), progesterone receptor (PR), and c-MYC. Finally, we show that depletion of GPS2 or SMRT by siRNA promotes cell proliferation in MCF-7 breast cancer cells. Thus, we concluded that GPS2 is an integral component of the SMRT complexes, important for ligand-dependent gene regulations by ER␣ and a suppressor for MCF-7 cell proliferation. Transcriptional regulation by estrogen receptor ␣ (ER␣)2 is mediated by transcriptional coactivators and corepressors. SMRT and N-CoR are two closely related transcriptional corepressors that mediate transcriptional repression by many nuclear hormone receptors including ER␣ (1-5). Both SMRT and N-CoR are large nuclear proteins that contain multiple functional domains, including four repression domains (RDs) (2, 4, 6, 7). Transcriptional repression by SMRT or N-CoR is manifested through their recruitment of a histone deacetylase (HDAC) complex containing mSin3A and HDAC1 (6 -8). In addition, SMRT and N-CoR also interact with HDAC3 (9 -11) and with class II HDACs including HDAC4, -5, and -7 (12, 13). TBL1 and TBRL1 are also common stable components of the SMRT and N-CoR complexes (9,14). Despite this long list, SMRT and N-CoR are large proteins, and other components of their complexes undoubtedly exist but have not yet been identified.GPS2 (G protein suppressor 2) was first identified as a suppressor of G protein-activated MAPK signaling in both yeast and mammalian cells (16,17). GPS2 is also involved in transcription regulation through its association with the papillomavirus E2 and E6 proteins (18,19), the human T-cell lymphotrophic viral oncoprotein Tax (20), p53 and p300 (18,19,21), and regulatory factor X4 variant transcript 3 (RFX4_v3) (22). GPS2 was also found in the N-CoR corepressor complex and is capable of repressing basal transcription when forcibly bound to a promoter (23). Besides transcription regulation, previous studies suggested that GPS2 is involved in cell cycle regulation, DNA repair, cytoskeleton architecture, brain development, and metabolism (22, 24 -29). These data indicate that GPS2 is involved in multiple cellular pathways.To better understand the mechanisms by which SM...

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Functional Interaction of a Novel Cellular Protein with the Papillomavirus E2 Transactivation Domain

Cited by 80 publications

References 46 publications

Papillomavirus E2 induces p53-independent apoptosis in HeLa cells

Papillomavirus E2 induces p53-independent apoptosis in HeLa cells

HDAC3: taking the SMRT-N-CoRrect road to repression

G Protein Pathway Suppressor 2 (GPS2) Is a Transcriptional Corepressor Important for Estrogen Receptor α-mediated Transcriptional Regulation

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