Striatin-3G Inhibits Estrogen Receptor Activity by Recruiting a Protein Phosphatase

Striatin-3G Inhibits Estrogen Receptor Activity by Recruiting a Protein Phosphatase

199 Striatin-3g inhibits estrogen receptor activity by recruiting a protein phosphatase Bailin Tan, Xinghua Long1, Harikrishna Nakshatri2, Kenneth P Nephew1 and Robert M Bigsby Department of Obstetrics and Gynecology University School of Medicine, 975 West Walnut Street (IB360), Indianapolis, Indiana 46202, USA 1Department of Medical Sciences Program, Indiana University School of Medicine, Bloomington, Indianapolis, Indiana 47405, USA 2Department of Surgery, Indiana University School of Medicine, Indianapolis, Indiana 46202, USA (Correspondence should be addressed to R M Bigsby; Email: [email protected]) Abstract A splicing variant of rat striatin-3 (rSTRN3g) was found to associate with estrogen receptor-a (ERa) in a ligand-dependent manner. In two-hybrid and pull-down analyses, estradiol induced an interaction between rSTRN3g and ERa. STRN3g protein was found in nuclear extracts from rat uterus and human cell lines. Overexpression of rSTRN3g induced a decrease in ERa transcriptional activity but had no effect on ERb activity. Immunoprecipitation analyses showed that rSTRN3g interacts with both the ERa and the catalytic subunit of protein phosphatase 2A (PP2A(C)). The transrepressor action of rSTRN3g was overcome by okadaic acid, an inhibitor of PP2A(C), and by cotransfection of PP2A(C) siRNA. rSTRN3g caused dephosphorylation of ERa at serine 118 and this was abrogated by okadaic acid. ERa lacking phosphorylation sites at either serine 118 or 167 was insensitive to the corepressor action of rSTRN3g. These observations suggest that an rSTRN3g-PP2A(C) complex is recruited to agonist-activated ERa, thereby leading to its dephosphorylation and inhibiting transcription. Journal of Molecular Endocrinology (2008) 40, 199–210 Introduction occurs early after stimulation and is maintained through at least 24 h. It is not known how some genes Estrogen receptors (ERa and ERb) are the ligand- are down-regulated by estrogen while others are activated, phosphorylated transcription factors up-regulated. Furthermore, the mechanisms respon- (McKenna & O’Malley 2002, Edwards 2005). Like sible for quickly shutting down E2-induced transactiva- other nuclear receptors, ERa exerts its transactivational tion of some genes, but not others, are unknown. function through interaction with coregulatory Transactivational effects of ERa are regulated via proteins, coactivators and corepressors. Recent proteins that become associated with the receptor. advances with cDNA microarrays have allowed an Upon activation with ligand and/or phosphorylation via appreciation of the magnitude of the genomic response growth factor signaling pathways, ERa binds to estrogen to 17b-estradiol (E2). In the estrogen-responsive breast response elements or to other transcription factors, cancer cells, MCF-7, 438 out of the 12 000 genes thereby tethering it to the promoter region in target examined were regulated by E2; 70% of these 438 DNA; simultaneously, there is a conformational change in genes were down-regulated (Frasor et al. 2003). About ERa, permitting it to interact with a wide array of nuclear one-third of the genes that were up-regulated by E2 receptor coregulatory proteins (McKenna & O’Malley responded transiently, i.e., their mRNA levels increased 2002, Smith & O’Malley 2004, Edwards 2005). Coactivator dramatically within the first few hours following the proteins have intrinsic enzymatic activity or they recruit addition of E2 but then decreased to near pre-stimula- other proteins with enzymatic action that modifies tion levels over the course of the next few hours, even histones, thereby changing the chromatin structure and though E2 remained in the culture medium (Frasor allowing the formation of a complex of proteins, which et al. 2003). This type of transient transactivational directly or indirectly interacts with the pre-initiation response was observed previously for the early response complex (McKenna & O’Malley 2002, White et al.2004). genes, c-fos, c-myc, and c-jun (Loose-Mitchell et al. 1988, One of the major coactivator proteins, steroid receptor Weisz & Bresciani 1988, Bigsby & Li 1994). On the other coactivator-3 (SRC-3), is active only if it is in its fully hand, the E2-induced increase in mRNA levels for pS2 phosphorylated state (Wu et al. 2004). Corepressor (Brown et al. 1984, Cavailles, et al. 1989, Metivier et al. proteins, such as silencing mediator of the retinoid and 2003), cathepsin D (Cavailles et al. 1989), and growth thyroid hormone receptor (SMRT) and nuclear receptor factors, amphiregulin and SDF-1 (Frasor et al. 2003), corepressor (NCoR), negatively regulate ERa activity Journal of Molecular Endocrinology (2008) 40, 199–210 DOI: 10.1677/JME-07-0132 0952–5041/08/040–199 q 2008 Society for Endocrinology Printed in Great Britain Online version via http://www.endocrinology-journals.org Downloaded from Bioscientifica.com at 10/01/2021 07:53:52PM via free access 200 B TAN and others . Striatin-3g represses estrogen action when an antagonist occupies the receptor’s ligand 2001); briefly, it was generated by ligating two consensus pocket; SMRT and NCoR bring proteins with histone ERE sites into the minimal promoter region of the pS2 deacetlyase (HDAC) activity into the complex, thereby gene and ligating this into the pGL3 luciferase (firefly) shutting down transactivation (Smith & O’Malley 2004, reporter plasmid (Promega, Madison, WI, USA). The White et al.2004). Negative regulation in the presence of ERa expression vector (HEGO) was obtained from agonist is achieved through recruitment of corepressors, Dr P Chambon (Institut de Ge´ne´tique et de Biologie LCoR, RIP140, and HDAC proteins (Metivier et al.2003, Mole´culaire et Cellulaire, Strasbourg, France). Phospho-- White et al.2004). In addition, ERa protein levels are mutants of ERa were the generous gift of Dr Simala Ali down-regulated by E2-induced interactions between the (Imperial College, London) and are described earlier receptor and the members of the proteosomal pathway (Ali et al.1993, Campbell et al.2001). Control reporter (Fan et al. 2002, 2003). Elegant experiments using plasmids, pCMV-b-galactosidase (pCMV-b-gal) and immunoprecipitation (IP) and chromatin immuno- pRL-tk-renilla-luciferase (pRL-TK), were purchased precipitation techniques have shown that the recruitment from Promega. of regulatory proteins occurs in an ordered and cyclical fashion (Shang, et al.2000, Metivier et al.2003). In a recent report, striatin (STRN) was described as an Yeast two-hybrid reporter assays ERa-interacting protein (Lu et al.2004). STRN is a member of a family of multimodal proteins that include The yeast two-hybrid screening was performed as striatin-3 (STRN3) and striatin-4 (STRN4). Striatins have described previously (Fan et al.2002). Briefly, a triple several putative functional domains, such as caveolin- and selection system was used. The yeast strain J69-4A was calmodulin-binding domains and protein-interacting cotransformed with the GAL4 DNA-binding domain motifs (Muro et al. 1995, Castets et al. 1996, Castets et al. plasmid containing the ERa hybrid, pBD-GAL4-ERaAF2 2000, Moreno et al. 2000). Shang et al.(2000)and Lu et al. (amino acid residues 290–600 of rat ERa) and the rat (2003) found that the ERa–STRN interaction plays a role uterine cDNA library cloned into the GAL4 activation in the non-genomic effects of estrogen in endothelial cells domain plasmid, pAD-Gal4. Yeast transformants were (Lu et al.2004). Herein, we describe the agonist-induced plated onto synthetic minimal medium agar lacking interaction between the ERa and an isoform of STRN3, leucine, tryptophan, histidine, and adenine for 6 days at rSTRN3g, isolated from the rat uterus. Evidence is 30 8C. ERa-interacting clones were identified by their presented indicating that rSTRN3g represses ERa ability to grow in the selective plates and to activate LacZ transactivational activity through a novel mechanism reporter gene as indicated by blue colonies when X-Gal involving a protein phosphatase (PP2A). (Boehringer Mannheim, Indianapolis, IN, USA) was added to the culture. To further investigate the ligand- dependent and -independent interactions between rSTRN3g with the AF2 domain of ER, we used the yeast Materials and methods two-hybrid system in solution culture, also as described previously (Fan et al.2002). Yeast transformed with pBD- Chemicals and cells GAL4-ERaAF2 and pAD-GAL4-rSTRN3g was grown in K8 K6 liquid culture containing 10 ME2,10 M Tam, or Treatmentchemicals, E2, 4-hydroxytamoxifen (Tam), and okadaic acid (OA), were purchased from Sigma Corp. vehicle. The b-gal expression levels were determined Human breast cancer cell lines, MDA-MB-231 and MCF-7; using a chemiluminescent reporter assay (PE Applied the human cervical carcinoma cell line, HeLa; the human Biosystems, Foster City, CA, USA). ovarian cancer cell line, BG-1; and immortalized monkey kidneycells,Cos-1,werepurchasedfromATCC GST pull-down assay (Manassas, VA, USA). The cell lines were maintained in DMEM supplemented with 10% FBS. Experimental Glutathione S-transferase (GST) fusion pull-down experi- stimulation with hormone was performed in media free ments were performed as described previously (Fan et al. of phenol red and supplemented with 3% charcoal- 2002). 35S-labeled full-length ERa or -b was incubated stripped serum (HyClone Laboratories Inc., Logan, UT, with GST–rSTRN3g bound to glutathione–Sepharose K8 USA). beads in the absence or presence of 10 ME2.After washing four times, specific interactingprotein waseluted and analyzed by SDS–PAGE and autoradiography. Plasmids g rSTRN3 cDNA was cloned into the expression vectors, Transient transfection reporter assays pcDNA3 and pcDNA3-His/myc tag, purchased from Invitrogen. The estrogen-responsive luciferase reporter HeLa, MDA-MB-231, and BG-1 cells were maintained in gene, 2XERE-pS2-luc, was reported earlier (Long et al. DMEM with 5% FBS. Two days before transfection, the Journal of Molecular Endocrinology (2008) 40, 199–210 www.endocrinology-journals.org Downloaded from Bioscientifica.com at 10/01/2021 07:53:52PM via free access Striatin-3g represses estrogen action . B TAN and others 201 cells were seeded onto 12-well dishes (105 cells/well) in extracts.

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