Androgen-regulated miR-32 targets BTG2 and is overexpressed in castration-resistant prostate cancer.

The androgen receptor (AR) signaling pathway is involved in the emergence of castration-resistant prostate cancer (CRPC). Here, we identified several androgen-regulated microRNAs (miRNAs) that may contribute to the development of CRPC. Seven miRNAs, miR-21, miR-32, miR-99a, miR-99b, miR-148a, miR-221 and miR-590-5p, were found to be differentially expressed in CRPC compared with benign prostate hyperplasia (BPH) according to microarray analyses. Significant growth advantage for LNCaP cells transfected with pre-miR-32 and pre-miR-148a was found. miR-32 was demonstrated to reduce apoptosis, whereas miR-148a enhanced proliferation. Androgen regulation of miR-32 and miR-148a was confirmed by androgen stimulation of the LNCaP cells followed by expression analyses. The AR-binding sites in proximity of these miRNAs were demonstrated with chromatin immunoprecipitation (ChIP). To identify target genes for the miRNAs, mRNA microarray analyses were performed with LNCaP cells transfected with pre-miR-32 and pre-miR-148a. Expression of BTG2 and PIK3IP1 was reduced in the cells transfected with pre-miR-32 and pre-miR-148a, respectively. Also, the protein expression was reduced according to western blot analysis. BTG2 and PIK3IP1 were confirmed to be targets by 3'UTR-luciferase assays. Finally, immunostainings showed a statistically significant (P<0.0001) reduction of BTG2 protein in CRPCs compared with untreated prostate cancer (PC). The lack of BTG2 staining was also associated (P<0.01) with a short progression-free time in patients who underwent prostatectomy. In conclusion, androgen-regulated miR-32 is overexpressed in CRPC, leading to reduced expression of BTG2. Thus, miR-32 is a potential marker for aggressive disease and is a putative drug target in PC.

Overexpression of androgen receptor enhances the binding of the receptor to the chromatin in prostate cancer.

Androgen receptor (AR) is overexpressed in the majority of castration-resistant prostate cancers (CRPCs). Our goal was to study the effect of AR overexpression on the chromatin binding of the receptor and to identify AR target genes that may be important in the emergence of CRPC. We have established two sublines of LNCaP prostate cancer (PC) cell line, one overexpressing AR 2-3-fold and the other 4-5-fold compared with the control cells. We used chromatin immunoprecipitation (ChIP) and deep-sequencing (seq) to identify AR-binding sites (ARBSs). We found that the number of ARBSs and the AR-binding strength were positively associated with the level of AR when cells were stimulated with low concentrations of androgens. In cells overexpressing AR, the chromatin binding of the receptor took place in 100-fold lower concentration of the ligand than in control cells. We confirmed the association of AR level and chromatin binding in two PC xenografts, one containing AR gene amplification with high AR expression, and the other with low expression. By combining the ChIP-seq and expression profiling, we identified AR target genes that are upregulated in PC. Of them, the expression of ZWINT, SKP2 (S-phase kinase-associated protein 2 (p45)) and FEN1 (flap structure-specific endonuclease 1) was demonstrated to be increased in CRPC, while the expression of SNAI2 was decreased in both PC and CRPC. FEN1 protein expression was also associated with poor prognosis in prostatectomy-treated patients. Finally, the knock-down of FEN1 with small interfering RNA inhibited the growth of LNCaP cells. Our data demonstrate that the overexpression of AR sensitizes the receptor binding to chromatin, thus, explaining how AR signaling pathway is reactivated in CRPC cells.

Serum glucocorticoids and adiponectin associate with insulin resistance in children born small for gestational age.

OBJECTIVES: Altered glucocorticoid activity is one possible mechanism linking fetal growth restriction with later insulin resistance (IR) and type 2 diabetes. We aimed to investigate whether serum glucocorticoid parameters are related to IR in children born small for gestational age (SGA). DESIGN: A total of 110 children (55 age- and gender-matched pairs born SGA or appropriate for gestational age (AGA) in a case-control setting) were studied at the mean age of 12.2 (s.d. 0.2) years. METHODS: Serum cortisol, corticosteroid-binding globulin (CBG), free cortisol index (FCI=cortisol/CBG), and glucocorticoid bioactivity (GBA, transactivation assay) were analyzed and related to serum adiponectin and insulin-like growth factor-binding protein 1 (IGFBP1) concentrations and homeostasis model assessment for IR (HOMA-IR) and QUICKI indices. RESULTS: In the pooled study population, GBA correlated well with cortisol and FCI (r=0.681 and 0.586 respectively; P<0.001 for both). Serum cortisol, CBG, FCI, GBA, HOMA-IR, or QUICKI did not differ between the SGA and AGA subjects, but the SGA children had lower body mass index (P=0.005) and waist circumference (WC) (P=0.001). The mean GBA in the highest GBA quartile was higher among the SGA subjects than among the AGA subjects (138.6 vs 96.4 nmol/l cortisol equivalents, P<0.001). In the SGA children, GBA correlated positively with HOMA-IR (r=0.522, P<0.001) and inversely with adiponectin (r=-0.278, P=0.042) (WC/height ratio adjustments), and in logistic regression analysis, higher GBA (odds ratio (OR) 1.3; P=0.013), lower adiponectin (OR 1.4; P=0.038), and lower IGFBP1 (OR 1.9; P=0.010) associated independently with higher HOMA-IR. CONCLUSIONS: These findings suggest that increased glucocorticoid activity and low serum adiponectin concentrations associate with IR in SGA children.

Methylprednisolone exposure in pediatric renal transplant patients.

Glucocorticoid (GC) dosing is commonly based on body mass or surface area in children, although the drug effects appear to correlate with steroid exposure, rather than dose. We compared the area under the serum concentration-time curve (AUC) of methylprednisolone (MP) with a recombinant cell bioassay measuring serum glucocorticoid bioactivity (GBA), in prediction of side effects in 16 pediatric patients (5.4-18.4 years of age) 2.0-14.9 years after renal transplantation (TX). They received 0.3 mg/kg of MP orally and timed blood samples were drawn up to 8 h postdose. Serum MP concentrations correlated moderately with GBA (r= 0.65, p < 0.0001) with best linear fit at 6 and 8 h (r= 0.72, 0.79, respectively, p < 0.001). MP-AUC(t = 0-8) and GBA(t = 6) were significantly greater in patients who gained excessive weight soon after TX. Change in growth after TX was inversely correlated with MP-AUC (r= 0.73, p < 0.05) and GBA(t = 6) (r= 0.62, p < 0.05). No correlation of MP-AUC or GBA was found with blood glucose or serum lipid concentrations, glomerular filtration rate, bone mineral density or graft histology. In conclusion, GC exposure varies individually and dosing should be adjusted accordingly to control the adverse effects. GBA might provide a complementary tool for monitoring GC exposure but further studies are needed.

Disruption of the murine PIASx gene results in reduced testis weight.

PIASx belongs to the PIAS protein family, the members of which modulate activities of several transcription factors and act as E3 ligases in the sumoylation pathway. The PIASx gene is highly expressed in testis, suggesting a role in spermatogenesis. To investigate the function of PIASx in vivo, we have disrupted the PIASx gene in mice. Interestingly, the knockout mice were viable and fertile. Despite the normal fertility, the testis weight of the mutant animals was reduced and their number of apoptotic testicular cells was increased. Also, the sperm count of mutant mice tended to be reduced, but the quality of their sperm cells was normal. No significant changes were observed in the serum levels of LH and FSH or in the intratesticular testosterone concentration between the knockout animals and their wild-type littermates. Compensatory increases in other PIAS protein mRNAs were not observed in the knockout mice. These results imply that PIASx is required quantitatively rather than qualitatively for normal spermatogenesis.

Transcriptional coregulator SNURF (RNF4) possesses ubiquitin E3 ligase activity.

SNURF/RNF4 has been implicated in transcriptional regulation and growth inhibition in a RING finger-dependent fashion. In this work, we show that SNURF mediates its own ubiquitination in vitro in a ubiquitin-conjugating enzyme (E2)-selective manner: SNURF acts as an E3 ligase with UbcH5A and B, HHR6B (RAD6B), E2-25K, MmUbc7 and UbcH13, but not with UbcH3, UbcM4, MmUbc6 or E2-20K. In contrast, the well-characterized RING E3, AO7, functions only with members of the UbcH5 family. Furthermore, depending on the E2 used, the ubiquitin modification manifests as mono- or multi-ubiquitination. Mutation of conserved cysteine residues within the RING finger motif of SNURF abolishes the ubiquitination in vitro and in intact cells. Size fractionation of murine embryonal carcinoma F9 cell proteins shows that the majority of endogenous SNURF resides in salt-resistant > or =500-kDa complexes, suggesting that SNURF functions as a RING component in a multiprotein complex. Taken together, SNURF/RNF4 functions as an E3 ligase and this activity is closely linked to its transcription regulatory functions.

Pure antiandrogens disrupt the recruitment of coactivator GRIP1 to colocalize with androgen receptor in nuclei.

We have used confocal microscopy to elucidate the effects of antiandrogens on nuclear localization of the androgen receptor (AR) with its transcriptional coactivator GRIP1. We show that the agonist-activated AR recruits GRIP1 to colocalize with the receptor in the nucleoplasm. By contrast, AR complexed to the antiandrogens hydroxyflutamide and bicalutamide fails to influence nuclear distribution of GRIP1. Likewise, the non-steroidal antiandrogens prevent the agonist-induced AR-GRIP1 colocalization from occurring. Androgen antagonists affect nuclear redistribution of AR-GRIP1 in a fashion that parallels their effects on the transcriptional activity of AR, in that the pure antagonists block GRIP1-dependent activation of AR function, whereas the mixed antagonist/agonist cyproterone acetate promotes both AR-driven redistribution of GRIP1 and activation of AR by GRIP1.

The development and regression of deciduosarcomas and other lesions caused by estrogens and progestins in rabbits.

A series of experiments were conducted to study the histopathological effects of a combination of exogenous estrogens and progestins in mature rabbits. Estradiol (14-45 microg/day) and levonorgestrel (30-233 microg/day) were administered by intravaginal or subdermal Silastic devices for various time intervals to study the development of lesions with time and to determine if lesions regressed following withdrawal of the steroids. The origin of splenic decidual tumors (primary or metastasis from the uterus) was determined by administering the same steroid combination to castrated male rabbits. It was determined that uterine decidualization is present after 7 days of steroid treatment and that neoplasms of decidual cells may appear in the uterus after only 30 days of steroid administration. Decidual changes were observed frequently in uterine arteries, often concurrent with infarct-like areas of necrosis of the uterine wall. Withdrawal of contraceptive steroids for 14-120 days after 60 days' administration resulted in atrophy and disappearance of decidual cells and decidual tumors. Decidual neoplasms developed in the spleen of all castrated male rabbits given subdermal steroids, demonstrating that these tumors can arise as primary neoplasms of the spleen. The foregoing lesions appear to be peculiar to the rabbit and, together with previous data, suggest the rabbit to be a poor model for evaluating the effects of contraceptive steroids in other species.

The roles of estrogen and progestin in producing deciduosarcoma and other lesions in the rabbit.

The interactions of estrogens and progestins in producing decidualization, deciduosarcoma. and other lesions in the rabbit were explored. Steroids were delivered by silicone elastomer implants placed subdermally except for oral dosing in 1 experiment. Varying doses of levonorgestrel (LNG) were given with and without estradiol (E2) and varying doses of E2 with and without LNG. LNG alone delivered at an estimated mean dose of 233 microg/day did not result in endometrial decidualization or deciduosarcoma. Both conditions occurred when E2 was added to the regimen and increased as the dose of E2 was increased. Sixty microg of E2 per day produced endometrial decidualization in all test animals in a 2-month exposure, but deciduosarcoma occurred only when LNG was also supplied and increased as the LNG dose was increased. Progesterone given with E2 resulted in deciduosarcoma in most rabbits. Ethynylestradiol alone at 30 microg/day delivered by implants produced splenic and ovarian deciduosarcomas in 1 of 5 test animals. Adding LNG resulted in more numerous and widespread deciduosarcomas. These experiments indicate that exogenous estrogen is necessary for decidualization of the endometrium and to production of deciduosarcoma in the nonpregnant rabbit. Exogenous progestin promotes the process. Necrosis of the uterine wall tended to increase with increasing dose of estrogens.

Cyclin D1 binds the androgen receptor and regulates hormone-dependent signaling in a p300/CBP-associated factor (P/CAF)-dependent manner.

The androgen receptor (AR) is a ligand-regulated member of the nuclear receptor superfamily. The cyclin D1 gene product, which encodes the regulatory subunit of holoenzymes that phosphorylate the retinoblastoma protein (pRB), promotes cellular proliferation and inhibits cellular differentiation in several different cell types. Herein the cyclin D1 gene product inhibited ligand-induced AR- enhancer function through a pRB-independent mechanism requiring the cyclin D1 carboxyl terminus. The histone acetyltransferase activity of P/CAF (p300/CBP associated factor) rescued cyclin D1-mediated AR trans-repression. Cyclin D1 and the AR both bound to similar domains of P/CAF, and cyclin D1 displaced binding of the AR to P/CAF in vitro. These studies suggest cyclin D1 binding to the AR may repress ligand-dependent AR activity by directly competing for P/CAF binding.

Disrupted amino- and carboxyl-terminal interactions of the androgen receptor are linked to androgen insensitivity.

We have compared the functional consequences of seven single-point mutations in the ligand-binding domain (LBD) of the androgen receptor (AR). The mutations span helices 3 to 11 and are present in patients suffering from androgen insensitivity syndromes (AIS) and other male-specific disorders. The mutants, except M742V, bound to androgen response elements in vivo and in vitro and showed a testosterone-dependent conformational change. With regard to functional activity, the mutant M742V had severely blunted ability to transactivate or exhibit the androgen-dependent amino/carboxyl-terminal (N/C) interaction; mutants F725L, G743V, and F754L showed reduced transactivation potential and attenuated N/C interaction; and mutants V715M, R726L, and M886V had minor functional impairments. The mutants belonging to the first two groups also displayed reduced response to coexpressed GRIP1. In addition, mutations of amino acids M894 and A896 in the putative core activation domain 2 (AF2) in helix 12 confirmed that this helix is important for N/C interactions. Thus, amino acids located between helices 3 and 4 (F725 and R726), in helix 5 (M742, G743, and F754), and in helix 12 (M894 and A896) play critical roles in mediating the N/C interaction of AR. The data also show that disrupted N/C interaction is a potential molecular abnormality in AIS cases in which LBD mutations have not resulted in markedly impaired ability to bind androgen.

The RING finger protein SNURF is a bifunctional protein possessing DNA binding activity.

The small nuclear C(3)HC(4) finger protein (SNURF), RNF4, acts as transcriptional coactivator for both steroid-dependent and -independent promoters such as those driven by androgen response elements and GC boxes, respectively. However, SNURF does not possess intrinsic transcription activation function, and the precise molecular mechanism of its action is unknown. We have studied herein the interaction of SNURF with DNA in vitro. SNURF binds to linear double-stranded DNA with no apparent sequence specificity in a cooperative fashion that is highly dependent on the length of the DNA fragment used. SNURF interacts efficiently with both supercoiled circular and four-way junction DNA, and importantly, it also recognizes nucleosomes. An intact RING structure of SNURF is not mandatory for DNA binding, whereas mutations of specific positively charged residues in the N terminus (amino acids 8-11) abolish DNA binding. Interestingly, the ability of SNURF to interact with DNA is associated with its capability to enhance transcription from promoters containing GC box elements. Because SNURF can interact with both DNA and protein (transcription) factors, it may promote assembly of nucleoprotein structures.

Novel assay for determination of androgen bioactivity in human serum.

We have developed a mammalian cell (COS-1) bioassay, which can measure androgen bioactivity directly from a small amount (10 microL) of human serum. The recombinant assay is based on androgen-dependent interaction between the ligand-binding domain and the N-terminal region of the androgen receptor (AR), which were fused to Gal4 DNA-binding domain of Saccharomyces cerevisiae and transcriptional activation domain of herpes simplex VP16 protein, respectively. The interaction is amplified by coexpression of AR-interacting protein 3 in the cells. The reporter plasmid contains 5 Gal4-binding sites upstream of the luciferase gene; luciferase activity in cell lysates is derived from androgen bioactivity in human serum. Saturating concentration of testosterone in FCS induced more than 700-fold induction in relative luciferase activity. The sensitivity was less than 1.0 nmol/L testosterone in FCS. The intra- and interassay coefficients of variation were 8.3% and 21%, respectively. Interaction between the AR termini was blocked by nonsteroidal antiandrogens, and the assay exhibited minimal cross-reactivity with 17 beta-estradiol. Serum androgen bioactivity was studied in 23 boys (13.9--16.8 yr old) with constitutional delay of puberty and in 9 prepubertal boys with cryptorchidism (1.0--6.4 yr old). Androgen bioactivity was detectable in 15 boys with constitutional delay of puberty and in all boys with cryptorchidism during treatment with human CG (range, 1.0-14.5 nmol/L testosterone equivalents). Serum androgen bioactivity measured by the bioassay correlated strongly with serum testosterone concentration (r = 0.93, P < 0.0001, n = 22) but not to 5 alpha-dihydrotestosterone, dehydroepiandrosterone, or androstenedione levels. We conclude that our novel bioassay enables quantitation of mammalian cell response to bioactive androgens in human serum, even in pediatric patients with relatively low androgen levels.

ARIP3 (androgen receptor-interacting protein 3) and other PIAS (protein inhibitor of activated STAT) proteins differ in their ability to modulate steroid receptor-dependent transcriptional activation.

Steroid receptors mediate their actions by using various coregulatory proteins. We have recently characterized ARIP3/PIASx alpha as an androgen receptor (AR)-interacting protein (ARIP) that belongs to the PIAS [protein inhibitor of activated STAT (signal transducer and activator of transcription)] protein family implicated in the inhibition of cytokine signaling. We have analyzed herein the roles that four different PIAS proteins (ARIP3/PIASx alpha, Miz1/PIASx beta, GBP/PIAS1, and PIAS3) play in the regulation of steroid receptor- or STAT-mediated transcriptional activation. All PIAS proteins are able to coactivate steroid receptor-dependent transcription but to a differential degree, depending on the receptor, the promoter, and the cell type. Miz1 and PIAS1 are more potent than ARIP3 in activating AR function on minimal promoters. With the natural probasin promoter, PIAS proteins influence AR function more divergently, in that ARIP3 represses, but Miz1 and PIAS1 activate it. Miz1 and PIAS1 possess inherent transcription activating function, whereas ARIP3 and PIAS3 are devoid of this feature. ARIP3 enhances glucocorticoid receptor-dependent transcription more efficiently than Miz1 or PIAS1, and all PIAS proteins also activate estrogen receptor- and progesterone receptor-dependent transcription but to a dissimilar degree. The same amounts of PIAS proteins that modulate steroid receptor-dependent transcription influence only marginally transactivation mediated by various STAT proteins. It remains to be established whether the PIAS proteins play a more significant physiological role in steroid receptor than in cytokine signaling.

Covalent modification of the androgen receptor by small ubiquitin-like modifier 1 (SUMO-1).

Modification by SUMO-1 is proposed to play a role in protein targeting and/or stability. The SUMO-1-conjugating enzyme Ubc9 interacts with androgen receptor (AR), a ligand-activated transcription factor belonging to the steroid receptor superfamily. We show here that AR is covalently modified by SUMO-1 (sumoylated) in an androgen-enhanced fashion and identify the principal acceptor site in the N-terminal domain of AR. Substitutions of sumoylated Lys residues enhanced transcriptional activity of AR without influencing its transrepressing activity. Interestingly, the same Lys residues form the cores of the recently described transcriptional synergy control motifs in AR [Iñiguez-Lluhi, J. A. & Pearce, D. (2000) Mol. Cell. Biol. 20, 6040-6050]. These motifs, which match perfectly with the sumoylation consensus sequence, are also present in the N-terminal domains of glucocorticoid, mineralocorticoid, and progesterone receptor. Taken together, our data suggest that reversible sumoylation is a mechanism for regulation of steroid receptor function.

c-Jun activation-dependent tumorigenic transformation induced paradoxically by overexpression or block of S-adenosylmethionine decarboxylase.

All mammalian cells absolutely require polyamines (putrescine, spermidine, and spermine) for growth. Here we show that the overexpression of cDNA for S-adenosylmethionine decarboxylase (AdoMetDC), the main regulatory enzyme in the biosynthesis of higher polyamines, induces transformation of rodent fibroblasts when expressed in the sense or the antisense orientation. Both transformants were able to induce invasive tumors in nude mice. Neither transformation was associated with activation of the mitogen-activated protein kinases Erk1 and Erk2. Instead, the AdoMet DC sense, but not antisense, transformants displayed constitutive activation of the c-Jun NH(2)-terminal kinase (JNK) pathway. However, both transformations converged on persistent phosphorylation of endogenous c-Jun at Ser73. The phenotype of the AdoMetDC sense transformants was reversed by expression of dominant-negative mutants of SEK1 (MKK4), JNK1, and c-Jun (TAM-67), which were also found to impair cytokinesis. Similarly, TAM-67 reverted the morphology of the AdoMetDC-antisense expressors. This report is the first demonstration of a protein whose overexpression or block of synthesis can induce cell transformation. In addition, we show that the polyamine biosynthetic enzymes require c-Jun activation for eliciting their biological effects.

Androgen-receptor-interacting nuclear proteins.

Androgen receptor (AR) belongs to the superfamily of nuclear hormone receptors that employ complex molecular mechanisms to guide the development and physiological functions of their target tissues. Our recent work has led to the identification of four novel proteins that recognize AR zinc-finger region (ZFR) both in vivo and in vitro. One is a small nuclear RING-finger protein that possesses separate interaction interfaces for AR and for other transcription activators such as Sp1. The second is a nuclear serine/threonine protein kinase (androgen-receptor-interacting nuclear protein kinase; ANPK); however, the receptor itself does not seem to be a substrate for this kinase. The third one is dubbed androgen-receptor-interacting protein 3 (ARIP3) and is a novel member of the PIAS (protein inhibitor of activated STAT) protein family. The fourth protein, termed ARIP4, is a nuclear ATPase that belongs to the SNF2-like family of chromatin remodelling proteins. All four proteins exhibit a punctate nuclear pattern when expressed in cultured cells. Each protein modulates AR-dependent transactivation in co-transfection experiments; their activating functions are not restricted to AR. Current work is aimed at elucidating the biochemical and functional properties of these AR-interacting proteins and at finding the partner proteins that form complexes with them in vivo.

The RING finger protein SNURF modulates nuclear trafficking of the androgen receptor.

The androgen receptor (AR) is a transcription factor that mediates androgen action. We have used the green fluorescent protein (GFP) technique to investigate dynamics of nuclear trafficking of human AR in living cells. In the absence of ligand, the GFP-AR fusion protein is distributed between cytoplasm and nuclei. Androgen exposure leads to a rapid and complete import of GFP-AR to nuclei of CV-1 cells (>=90% nuclear in 30 minutes), whereas a pure antiandrogen, Casodex, elicits a slower (<40% nuclear in 30 minutes) and incomplete transfer. Unliganded ARs with mutations in the basic amino acids of the bipartite nuclear localization signal (NLS) within the second zinc finger and the hinge region are predominantly cytoplasmic and their androgen-dependent nuclear import is severely compromised ((3/4)20% nuclear in 30 minutes). Interestingly, substitutions of the Leu residues flanking the bipartite NLS lead to inefficient nuclear transfer in response to androgen ((3/4)20% nuclear in 30 minutes). The ligand-binding domain of AR, which represses bipartite NLS activity, contains an agonist-specific NLS. The small nuclear RING finger protein SNURF, which interacts with AR through a region overlapping with the bipartite NLS, facilitates AR import to nuclei and retards its export on hormone withdrawal. More AR is associated with the nuclear matrix in the presence than absence of coexpressed SNURF. We suggest that the SNURF-mediated tethering of AR in nuclei represents a novel mechanism for activating steroid receptor functions.

Cooperation among Stat1, glucocorticoid receptor, and PU.1 in transcriptional activation of the high-affinity Fc gamma receptor I in monocytes.

IFN-gamma and glucocorticoids regulate inflammatory and immune responses through Stat1 and glucocorticoid receptor (GR) transcription factors, respectively. The biological responses to these polypeptides are determined by integration of various signaling pathways in a cell-type and promoter-dependent manner. In this study we have characterized the molecular basis for the functional cooperation between IFN-gamma and dexamethasone (Dex) in the induction of the high-affinity Fc gamma receptor I (Fc gamma RI) in monocytes. Dex did not affect IFN-gamma-induced Stat1 DNA binding activity or induce novel DNA-binding complexes to the Fc gamma RI promoter. By using cell systems lacking functional GR or Stat1, we showed that GR stimulated Stat1-dependent transcription in a ligand-dependent manner, while Stat1 did not influence GR-dependent transcription. The cooperation required phosphorylation of Tyr701, DNA binding, and the trans-activation domain of Stat1, but did not involve Ser727 phosphorylation of Stat1 or physical interaction between GR and Stat1. The costimulatory effect of Dex was not dependent on a consensus glucocorticoid response element in the Stat1-responsive promoters, but required the DNA-binding and trans-activation functions of GR, and Dex-induced protein synthesis. GR activated the natural Fc gamma RI promoter construct, and this response required both Stat1 and the Ets family transcription factor PU.1. Previously, physical association between GR and Stat5 has been shown to enhance Stat5-dependent and suppress GR-dependent transcription. The results shown here demonstrate a distinct, indirect mechanism of cross-modulation between cytokine and steroid receptor signaling that integrates Stat1 and GR pathways with cell type-specific PU.1 transcription factor in the regulation of Fc gamma RI gene transcription.

Coregulator small nuclear RING finger protein (SNURF) enhances Sp1- and steroid receptor-mediated transcription by different mechanisms.

The small nuclear RING finger protein SNURF is not only a coactivator in steroid receptor-dependent transcription but also activates transcription from steroid-independent promoters. In this work, we show that SNURF, via the RING finger domain, enhances protein binding to Sp1 elements/GC boxes and interacts and cooperates with Sp1 in transcriptional activation. The activation of androgen receptor (AR) function requires regions other than the RING finger of SNURF, and SNURF does not influence binding of AR to cognate DNA elements. The zinc finger region (ZFR) together with the hinge region of AR are sufficient for contacting SNURF. The nuclear localization signal in the boundary between ZFR and the hinge region participates in the association of AR with SNURF, and a receptor mutant lacking the C-terminal part of the bipartite nuclear localization signal shows attenuated response to coexpressed SNURF. Some AR ZFR point mutations observed in patients with partial androgen insensitivity syndrome or male breast cancer impair the interaction of AR with SNURF and also render AR refractory to the transcription-activating effect of SNURF. Collectively, SNURF modulates the transcriptional activities of androgen receptor and Sp1 via different domains, and it may act as a functional link between steroid- and Sp1-regulated transcription.