Characterization and functional properties of the A and B forms of human progesterone receptors synthesized in a baculovirus system

MicroRNAs and Progesterone Receptor Signaling in Endometriosis Pathophysiology

Endometriosis is a significant disease characterized by infertility and pelvic pain in which endometrial stromal and glandular tissue grow in ectopic locations. Altered responsiveness to progesterone is a contributing factor to endometriosis pathophysiology, but the precise mechanisms are poorly understood. Progesterone resistance influences both the eutopic and ectopic (endometriotic lesion) endometrium. An inability of the eutopic endometrium to properly respond to progesterone is believed to contribute to the infertility associated with the disease, while an altered responsiveness of endometriotic lesion tissue may contribute to the survival of the ectopic tissue and associated symptoms. Women with endometriosis express altered levels of several endometrial progesterone target genes which may be due to the abnormal expression and/or function of progesterone receptors and/or chaperone proteins, as well as inflammation, genetics, and epigenetics. MiRNAs are a class of epigenetic modulators proposed to play a role in endometriosis pathophysiology, including the modulation of progesterone signaling. In this paper, we summarize the role of progesterone receptors and progesterone signaling in endometriosis pathophysiology, review miRNAs, which are over-expressed in endometriosis tissues and fluids, and follow this with a discussion on the potential regulation of key progesterone signaling components by these miRNAs, concluding with suggestions for future research endeavors in this area.

Extranuclear signaling by sex steroid receptors and clinical implications in breast cancer

Estrogen and progesterone play essential roles in the development and progression of breast cancer. Over 70% of breast cancers express estrogen receptors (ER) and progesterone receptors (PR), emphasizing the need for better understanding of ER and PR signaling. ER and PR are traditionally viewed as transcription factors that directly bind DNA to regulate gene networks. In addition to nuclear signaling, ER and PR mediate hormone-induced, rapid extranuclear signaling at the cell membrane or in the cytoplasm which triggers downstream signaling to regulate rapid or extended cellular responses. Specialized membrane and cytoplasmic proteins may also initiate hormone-induced extranuclear signaling. Rapid extranuclear signaling converges with its nuclear counterpart to amplify ER/PR transcription and specify gene regulatory networks. This review summarizes current understanding and updates on ER and PR extranuclear signaling. Further investigation of ER/PR extranuclear signaling may lead to development of novel targeted therapeutics for breast cancer management.

Homologous steroid receptors assemble at identical promoter architectures with unique energetics of cooperativity

Steroid receptors comprise a homologous family of ligand-activated transcription factors. The receptors bind largely identical response elements in vitro, yet regulate distinct gene networks in vivo. This paradox raises the issue of how transcriptional specificity is achieved, particularly if multiple receptor populations are competing for identical sites. Noting that receptor-DNA energetics are a primary force in driving transcriptional activity, differences in interaction energetics among the receptors might underlie receptor-specific transcriptional control. Thermodynamic dissections support this premise-upon assembling at an identical promoter architecture, individual receptors exhibit vast differences in cooperative and self-association energetics. More intriguingly, these parameters distribute in a way that mirrors the evolutionary divergence of the steroid receptor family. For example, the closely related progesterone and glucocorticoid receptors (PR and GR) display little or no self-association but strong intersite cooperativity, whereas the more distantly related estrogen receptor (ER-α) shows inverse behavior. These findings suggest that receptors view genomic promoter architectures as a collection of affinity landscapes; receptors select from this landscape via their unique interaction energetics. To test this idea, we analyzed the cooperative binding energetics of the above three receptors using an array of promoters. We find that cooperativity is not only receptor-specific but also highly promoter-specific. Thus PR shows maximal cooperativity at promoters with closely spaced and in phase binding sites. GR cooperativity is maintained over greater distances, is larger energetically, and shows markedly different phase dependency. Finally, ER-α appears incapable of cooperativity regardless of promoter architecture, consistent with its more distant phylogeny.

Analysis of a glucocorticoid-estrogen receptor chimera reveals that dimerization energetics are under ionic control

Steroid receptors assemble at DNA response elements as dimers, resulting in coactivator recruitment and transcriptional activation. Our work has focused on dissecting the energetics associated with these events and quantitatively correlating the results with function. A recent finding is that different receptors dimerize with large differences in energetics. For example, estrogen receptor-α (ER-α) dimerizes with a ΔG=-12.0 kcal/mol under conditions in which the glucocorticoid receptor (GR) dimerizes with a ΔG≤-5.1 kcal/mol. To determine the molecular forces responsible for such differences, we created a GR/ER chimera, replacing the hormone-binding domain (HBD) of GR with that of ER-α. Cellular and biophysical analyses demonstrate that the chimera is functionally active. However, GR/ER dimerization energetics are intermediate between the parent proteins and coupled to a strong ionic linkage. Since the ER-α HBD is the primary contributor to dimerization, we suggest that GR residues constrain an ion-regulated HBD assembly reaction.

Progestin regulated miRNAs that mediate progesterone receptor action in breast cancer

Progesterone receptors (PRs) mediate response to progestins in the normal breast and breast cancer. To determine if liganded PR regulate microRNAs (miRNAs) as a component of their action, we profiled mature miRNA levels following progestin treatment. Indeed, 28 miRNAs are significantly altered by 6h of progestin treatment. Many progestin-responsive genes are putative targets of progestin-regulated miRNAs; for example, progestin treatment decreases miR-29, thereby relieving repression of one of its direct targets, the gene encoding ATPase, Na(+)/K(+) transporting, beta 1 polypeptide (ATP1B1). Thus, liganded PR regulates ATP1B1 through sites in the promoter and the 3'UTR, to achieve maximal tight hormonal regulation of ATP1B1 protein via both transcriptional and translational control. We find that ATP1B1 serves to limit migration and invasion in breast cancer cells. Lastly, we demonstrate that PR itself is regulated by a progestin-upregulated miRNA, miR-513a-5p, providing a novel mechanism for tight control of PR protein expression.

Na(+) and K(+) allosterically regulate cooperative DNA binding by the human progesterone receptor

Cooperativity is a common mechanism used by transcription factors to generate highly responsive yet stable gene regulation. For the two isoforms of human progesterone receptor (PR-A and PR-B), differences in cooperative DNA binding energetics may account for their differing transcriptional activation properties. Here we report on the molecular origins responsible for cooperativity, finding that it can be activated or repressed with Na(+) and K(+), respectively. We demonstrate that PR self-association and DNA-dependent cooperativity are linked to a monovalent cation binding event and that this binding is coupled to modulation of receptor structure. K(+) and Na(+) are therefore allosteric effectors of PR function. Noting that the apparent binding affinities of Na(+) and K(+) are comparable to their intracellular concentrations and that PR isoforms directly regulate the genes of a number of ion pumps and channels, these results suggest that Na(+) and K(+) may additionally function as physiological regulators of PR action.

Progestin receptor is transiently expressed perinatally in neurons of the rat isocortex

Steroid hormones influence the development of numerous brain regions, including some that are not classically considered steroid-sensitive. For example, nuclear receptors for both androgen and estrogen have been detected in neonatal cortical cells. High levels of progestin binding and progestin receptor (PR) mRNA have also been reported in early perinatal isocortex. PR expression coincides with high levels of de novo progesterone produced within the cortex, suggesting that PR and its ligand influence the important developmental cortical processes occurring shortly after birth. In order to better understand the role PR plays in cortical development, we used the cellular-level resolution of immunohistochemistry and in situ hybridization (ISH) to characterize changes in perinatal PR expression within specific cortical lamina. PR immunoreactivity (PR-ir) was examined at embryonic days (E) 18, 20, 21, 22, and postnatal days (P) 1, 3, 6, 9, 13, and 27. We find that PR-ir is transiently expressed in specific lamina of frontal, parietal, temporal, and occipital cortex. PR-ir was observed in subplate cells on E18, in increasingly superficial lamina (primarily lamina V, then II/III) during early postnatal development, and was absent by P27. Double-labeling immunohistochemistry indicated that PR-ir colocalizes with the neuronal marker, microtubule associated protein-2, but not with the glial marker, nestin, nor with gamma-aminobutyric acid. These results suggest that specific subpopulations of cortical neurons may be transiently sensitive to progesterone, and that progesterone and its receptor may play a critical role in the fundamental mechanisms underlying normal cortical development.

Comparison of progesterone and glucocorticoid receptor binding and stimulation of gene expression by progesterone, 17-alpha hydroxyprogesterone caproate, and related progestins

OBJECTIVE

This study was undertaken to determine whether the reduction in premature birth attributable to 17-alpha hydroxyprogesterone caproate occurs because of a greater affinity for progesterone or glucocorticoid receptors or by enhanced stimulation of progestogen responsive genes when compared with progesterone.

STUDY DESIGN

We performed competitive steroid hormone receptor binding assays using cytosols expressing either recombinant human progesterone receptor-A or -B or rabbit uterine or thymic cytosols. We used 4 different carcinoma cell lines to assess transactivation of reporter genes or induction of alkaline phosphatase.

RESULTS

Relative binding affinity of 17-alpha hydroxyprogesterone caproate for recombinant human progesterone receptor-B, recombinant human progesterone receptor-A, and rabbit progesterone receptors was 26-30% that of progesterone. Binding of progesterone to rabbit thymic glucocorticoid receptors was weak. 17-alpha hydroxyprogesterone caproate was comparable to progesterone in eliciting gene expression in all cell lines studied.

CONCLUSION

Binding to progesterone receptors, glucocorticoid receptors, or expression of progesterone-responsive genes is no greater with 17-alpha hydroxyprogesterone caproate than with progesterone. Other mechanisms must account for the beneficial effect of 17-alpha hydroxyprogesterone caproate on preterm birth rates.

Clinical implications and utility of field cancerization

Cancer begins with multiple cumulative epigenetic and genetic alterations that sequencially transform a cell, or a group of cells in a particular organ. The early genetic events might lead to clonal expansion of pre-neoplastic daughter cells in a particular tumor field. Subsequent genomic changes in some of these cells drive them towards the malignant phenotype. These transformed cells are diagnosed histopathologically as cancers owing to changes in cell morphology. Conceivably, a population of daughter cells with early genetic changes (without histopathology) remain in the organ, demonstrating the concept of field cancerization. With present technological advancement, including laser capture microdisection and high-throughput genomic technologies, carefully designed studies using appropriate control tissue will enable identification of important molecular signatures in these genetically transformed but histologically normal cells. Such tumor-specific biomarkers should have excellent clinical utility. This review examines the concept of field cancerization in several cancers and its possible utility in four areas of oncology; risk assessment, early cancer detection, monitoring of tumor progression and definition of tumor margins.

Rapid inhibition of Ca2+ influx by neurosteroids in murine embryonic sensory neurones

The non-genomic role of neuroactive steroids on [Ca2+]i transients induced by GABA receptor activation was investigated in cultured dorsal root ganglia (DRG) neurones at embryonic stage E13. [Ca2+]i measurements were performed with Fura-2 fast fluorescence microfluorimetry. Application of the GABAA receptor agonist muscimol (Musci) evoked an increase in [Ca2+]i, confirming the excitatory effect of GABA at this embryonic stage. The muscimol-induced [Ca2+]i response was inhibited by progesterone (Proges) and its primary metabolite allopregnanolone (Allo) in a rapid, reversible and dose-dependent manner. These calcium transients were suppressed in the absence of external Ca2+ or in the presence of Ni2+ + Cd2+ suggesting an involvement of voltage-activated Ca2+ channels. In contrast, none of these steroids affected the resting [Ca2+]i nor exhibited any inhibitory effect on 50 mM KCl-induced [Ca2+]i increases. In view of the well-established potentiation of GABAA receptor by direct binding of neurosteroids, the inhibitory effects described in this study seem to involve distinct mechanisms. This new inhibitory effect of progesterone is observed at low and physiological concentrations, is rapid and independent of RU38486, an antagonist of the classic progesterone receptor, probably involving a membrane receptor. Using RT-PCR, we demonstrated the expression of progesterone receptor membrane component 1 (Pgrmc1), encoding 25-Dx, a membrane-associated progesterone binding protein in DRG neurones at different stages of development. In conclusion, we describe for the first time a rapid effect of progestins on embryonic DRG neurones involving an antagonistic effect of progesterone and allopregnanolone on GABAA receptors.

Progesterone receptor isoforms A and B differentially regulate MUC1 expression in uterine epithelial cells

MUC1 expression responds differently to changes in progesterone (P) levels in mouse vs. human uterine epithelium. Two isoforms of progesterone receptor, PRA and PRB, mediate the physiological effects of P. Using transient transfection of a human uterine epithelial cell line, HEC-1A, we showed that liganded PRB stimulated MUC1 gene activity. PRA alone had little effect on MUC1 promoter activity, but antagonized the PRB-mediated stimulation. The region from 523 to 570 bp upstream of the transcriptional start site was shown to be required for the P response. Mutation of two potential P-responsive element (PRE) half-sites in this region partially inhibited the PRB-mediated response, and one PRE half-site disrupted binding of both PRB and PRA to a consensus PRE in an EMSA. These along with other studies indicated that multiple cis elements in the -523- to -570-bp region cooperate to mediate P responsiveness, and that PR interaction with other transcription factors in this region is likely. Using ovariectomized wild-type, PR knockout (PRKO), PRAKO, and PRBKO mice, P antagonism of estrogen-stimulated Muc1 protein and mRNA expression was shown to be dependent on PRA. In summary, these data show that liganded PRB stimulates MUC1 expression in human uterine epithelial cells, whereas liganded PRA antagonizes MUC1 expression in both human and mouse uterine epithelial cells. The differential MUC1 response to P in these two species may be due to dissimilar expression of the two PR isoforms in the uterine epithelium.

Cooperative DNA binding by the B-isoform of human progesterone receptor: thermodynamic analysis reveals strongly favorable and unfavorable contributions to assembly

Progesterone receptors (PR) play critical roles in eukaryotic gene regulation, yet the mechanisms by which they assemble at multisite promoters are poorly understood. Here we present a thermodynamic analysis of the interactions of the PR B-isoform (PR-B) with promoters containing either one or two progesterone response elements (PREs). Utilizing quantitative footprinting, we have resolved the microscopic energetics of PR-B binding, including cooperativity terms. The results of this analysis challenge a number of assumptions found in traditional models of receptor function. First, PR-B interactions at a single PRE can be equally well described by mechanisms invoking either the receptor monomer or the dimer as the active DNA binding species. If, as is commonly accepted, PR-B interacts with response elements only as a preformed dimer, then its intrinsic binding affinity is not the typically observed nanomolar but is rather picomolar. This high affinity binding is opposed, however, by a large energetic penalty. The penalty presumably pays for costly structural rearrangements of the receptor dimer and/or response element that are needed to form the protein-DNA complex. If PR-B assembles at a single response element via successive monomer binding reactions, then this penalty minimizes cooperative interactions between adjacent monomers. When binding to two response elements, the receptor exhibits strong intersite cooperativity. Although this phenomenon has been observed before, the present work demonstrates that the energetics reach levels seen in highly cooperative systems such as lambda cI repressor. This first quantitative dissection of cooperative receptor-promoter interactions suggests that PR-B function is more complex than traditionally envisioned.

Regulation of BCRP/ABCG2 expression by progesterone and 17beta-estradiol in human placental BeWo cells

The breast cancer resistance protein (BCRP) is abundant in the placenta and protects the fetus by limiting placental drug penetration. We hypothesize that pregnancy-specific hormones regulate BCRP expression. Hence, we examined the effects of progesterone (P4) and 17beta-estradiol (E2) on BCRP expression in the human placental BeWo cells. P4 and E2 significantly increased and decreased BCRP protein and mRNA, respectively. Likewise, treatment with P4 and E2 increased and decreased, respectively, fumitremorgin C-inhibitable mitoxantrone efflux activity of BeWo cells. Reduction in BCRP expression by E2 was abrogated by the estrogen receptor (ER) antagonist ICI-182,780. However, the progesterone receptor (PR) antagonist RU-486 had no effect on P4-mediated induction of BCRP. P4 together with E2 further increased BCRP protein and mRNA compared with P4 treatment alone. This combined effect on BCRP expression was abolished by RU-486, ICI-182,780, or both. Further analysis revealed that E2 significantly decreased ER beta mRNA and strongly induced PR(B) mRNA in a dose-dependent manner but had no effect on PR(A) and ER alpha. P4 alone had no significant effect on mRNA of ER alpha, ER beta, PR(A), and PR(B). E2 in combination with P4 increased PR(B) mRNA, but the level of induction was significantly reduced compared with E2 treatment alone. Taken together, these results indicate that E2 by itself likely downregulates BCRP expression through an ER, possibly ER beta. P4 alone upregulates BCRP expression via a mechanism other than PR. P4 in combination with E2 further increases BCRP expression, presumably via a nonclassical PR- and/or E2-mediated synthesis of PR(B).

In vitro antiprogestational/antiglucocorticoid activity and progestin and glucocorticoid receptor binding of the putative metabolites and synthetic derivatives of CDB-2914, CDB-4124, and mifepristone

In determining the biological profiles of various antiprogestins, it is important to assess the hormonal and antihormonal activity, selectivity, and potency of their proximal metabolites. The early metabolism of mifepristone is characterized by rapid demethylation and hydroxylation. Similar initial metabolic pathways have been proposed for CDB-2914 (CDB: Contraceptive Development Branch of NICHD) and CDB-4124, and their putative metabolites have been synthesized. We have examined the functional activities and potencies, in various cell-based assays, and relative binding affinities (RBAs) for progesterone receptors (PR) and glucocorticoid receptors (GR) of the putative mono- and didemethylated metabolites of CDB-2914, CDB-4124, and mifepristone and of the 17alpha-hydroxy and aromatic A-ring derivatives of CDB-2914 and CDB-4124. The binding affinities of the monodemethylated metabolites for rabbit uterine PR and human PR-A and PR-B were similar to those of the parent compounds. Monodemethylated mifepristone bound to rabbit thymic GR with higher affinity than monodemethylated CDB-2914 or CDB-4124. T47D-CO cells were used to assess inhibition of R5020-stimulated endogenous alkaline phosphatase activity and transactivation of the PRE(2)-thymidine kinase (tk)-luciferase (LUC) reporter plasmid in transient transfections. The antiprogestational potency was as follows: mifepristone/CDB-2914/CDB-4124/monodemethylated metabolites (IC(50)'s approximately 10(-9)M) > aromatic A-ring derivatives (IC(50)'s approximately 10(-8)M) > didemethylated/17alpha-hydroxy derivatives (IC(50)'s approximately 10(-7)M). Antiglucocorticoid activity was determined by inhibition of dexamethasone-stimulated transcriptional activity in HepG2 cells. The mono- and didemethylated metabolites of CDB-2914 and CDB-4124 had less antiglucocorticoid activity (IC(50)'s approximately 10(-6)M) than monodemethylated mifepristone (IC(50) approximately 10(-8)M) or the other test compounds. At 10(-6)M in transcription assays, none of these compounds showed progestin agonist activity, whereas mifepristone and its monodemethylated metabolite manifested slight glucocorticoid agonist activity. The reduced antiglucocorticoid activity of monodemethylated CDB-2914 and CDB-4124 was confirmed in vivo by the thymus involution assay in adrenalectomized male rats. The aromatic A-ring derivatives-stimulated transcription of an estrogen-responsive reporter plasmid in MCF-7 and T47D-CO human breast cancer cells but were much less potent than estradiol. Taken together, these data suggest that the proximal metabolites of mifepristone, CDB-2914, and CDB-4124 contribute significantly to the antiprogestational activity of the parent compounds in vivo. Furthermore, the reduced antiglucocorticoid activity of CDB-2914 and CDB-4124 compared to mifepristone in vivo may be due in part to decreased activity of their putative proximal metabolites.

Molecular cloning and baculovirus expression of the rabbit corneal aldehyde dehydrogenase (ALDH1A1) cDNA

Most mammalian species express high concentrations of ALDH3A1 in corneal epithelium with the exception of the rabbit, which expresses high amounts of ALDH1A1 rather than ALDH3A1. Several hypotheses that involve catalytic and/or structural functions have been postulated regarding the role of these corneal ALDHs. The aim of the present study was to characterize the biochemical properties of the rabbit ALDH1A1. We have cloned and sequenced the rabbit ALDH1A1 cDNA, which is 2,073 bp in length (excluding the poly(A+) tail), and has 5' and 3' nontranslated regions of 46 and 536 bp, respectively. This ALDH1A1 cDNA encodes a protein of 496 amino acids (Mr = 54,340) that is: 86-91% identical to mammalian ALDH1A1 proteins, 83-85% identical to phenobarbital-inducible mouse and rat ALDH1A7 proteins, 84% identical to elephant shrew ALDH1A8 proteins (eta-crystallins), 69-73% identical to vertebrate ALDH1A2 and ALDH1A3 proteins, 65% identical to scallop ALDH1A9 protein (omega-crystallin), and 55-57% to cephalopod ALDH1C1 and ALDH1C2 (omega-crystallins). Recombinant rabbit ALDH1A1 protein was expressed using the baculovirus system and purified to homogeneity with affinity chromatography. We found that rabbit ALDH1A1 is catalytically active and efficiently oxidizes hexanal (Km = 3.5 microM), 4-hydroxynonenal (Km = 2.1 microM) and malondialdehyde (Km = 14.0 microM), which are among the major products of lipid peroxidation. Similar kinetic constants were observed with the human recombinant ALDH1A1 protein, which was expressed and purified using similar experimental conditions. These data suggest that ALDH1A1 may contribute to corneal cellular defense against oxidative damage by metabolizing toxic aldehydes produced during UV-induced lipid peroxidation.

Messenger RNA for progesterone receptor isoforms in the late-gestation rat uterus

The progesterone receptor (PR) has three isoforms, PR-A, PR-B, and PR-C, which have different physiological effects. PR-A may inhibit PR-B-mediated transcription. Parturition requires withdrawal of progesterone (P4). This could occur through decreased P4 concentrations and/or a change in PR isoforms to diminish the effect of P4. We measured mRNA for PR isoforms in rat uterine tissues through late gestation and investigated the effects of antagonists to estrogen (tamoxifen) and P4 (RU-486). Two specific probes were used for ribonuclease protection assays; one (PR-total) measured PR-A, PR-B, and PR-C, and the other recognized only PR-B. PR-total mRNA increased significantly through late gestation, whereas PR-B was unchanged. The ratio of PR-total to PR-B peaked on the day before parturition. Tamoxifen delayed parturition and inhibited the increase in PR-total without affecting PR-B mRNA. RU-486 caused early parturition associated with increased PR-total mRNA, with no change in PR-B. We conclude that there are significant changes in PR isoforms in late-gestation rat uterus. These changes may be regulated by estrogen and P4 and may influence the timing of parturition.

Comparison of different antibodies for detection of progesterone receptor in breast cancer

Monoclonal antibodies directed against human estrogen receptor (ER) and progesterone receptor (PR) have been used extensively for biochemical and immunohistochemical detection of receptors independent of hormone-binding assays. These antibodies have been valuable both for experimental work and for detection of receptors in clinical breast cancer specimens. The purpose of this study was to characterize the sensitivity and specificity of different antibodies for detection of PR by immunohistochemistry (IHC) of formalin-fixed paraffin breast carcinoma sections. The panel of twelve antibodies included two new ones (PgR636 and PgR1294) produced prospectively to be resistant to formalin fixation and paraffin embedding. Fifty-nine breast carcinomas, having known PR levels by biochemical ligand-binding assay, were used to prepare multitumor paraffin-embedded tissue blocks for characterization of the PR antibodies. Of all the antibodies tested, both PgR636 and PgR1294 stained the highest percentage of breast carcinomas known to be positive by the biochemical assay (95-98%) and they exhibited the highest concordance with the biochemical assay (88-90%). The PgR636 and PgR1294 antibodies, along with one other, PR 88, also gave the highest intensity of nuclear staining, while PgR636 and PgR1294 stained the highest mean percentage of tumor cell nuclei. Antigen retrieval was not necessary for PR immunostaining by PgR636 and PgR1294 in most tumors and other tissues examined, but did slightly increase the staining intensity. The majority of the other antibodies tested were highly dependent on antigen retrieval; only PR 88 and KD 68 antibodies approached the performance of PgR636 and PgR1294 without antigen retrieval. These results indicate that PgR636 and PgR1294 are optimal antibodies for IHC detection of PR in routine paraffin tissue blocks.

CDB-4124 and its putative monodemethylated metabolite, CDB-4453, are potent antiprogestins with reduced antiglucocorticoid activity: in vitro comparison to mifepristone and CDB-2914

To obtain selective antiprogestins, we have examined the in vitro antiprogestational/antiglucocorticoid properties of two novel compounds, CDB-4124 and the putative monodemethylated metabolite, CDB-4453, in transcription and receptor binding assays and compared them to CDB-2914 and mifepristone. All four antiprogestins bound with high affinity to rabbit uterine progestin receptors (PR) and recombinant human PR-A and PR-B (rhPR-A, rhPR-B) and were potent inhibitors of R5020-induced transactivation of the PRE2-tk-luciferase (PRE2-tk-LUC) reporter plasmid and endogenous alkaline phosphatase production in T47D-CO human breast cancer cells. None of these compounds exhibited agonist activity in these cells. Induction of luciferase activity was potentiated about five-fold by 8-Br-cAMP under basal conditions and to the same extent in the presence of the PR antagonists. Mifepristone bound to rabbit thymic glucocorticoid receptors (GR) with approximately twice the avidity of the CDB antiprogestins. Inhibition of GR-mediated transcription of PRE2-tk-LUC was assessed in HepG2 human hepatoblastoma cells. Mifepristone exhibited greater antiglucocorticoid activity than CDB-2914, 4124, and 4453, about 12-, 22-, and 185-fold, respectively. Thus, while there was a good correlation between binding to PR and functional activity of these antiprogestins, GR binding was not predictive of their glucocorticoid antagonist activity. In agreement with our in vivo results, CDB-4124 and CDB-4453, as well as CDB-2914, are potent antiprogestins in vitro, but show considerably less antiglucocorticoid activity than mifepristone.

Progesterone receptor contains a proline-rich motif that directly interacts with SH3 domains and activates c-Src family tyrosine kinases

Steroid hormones have rapid nongenomic effects on cell-signaling pathways, but the receptor mechanisms responsible for this are not understood. We have identified a specific polyproline motif in the amino-terminal domain of conventional progesterone receptor (PR) that mediates direct progestin-dependent interaction of PR with SH3 domains of various cytoplasmic signaling molecules, including c-Src tyrosine kinases. Through this interaction, PR is a potent activator of Src kinases working by an SH3 domain displacement mechanism. By mutagenesis, we also show that rapid progestin-induced activation of Src and downstream MAP kinase in mammalian cells is dependent on PR-SH3 domain interaction, but not on the transcriptional activity of PR. Preliminary evidence for the biological significance of this PR signaling pathway through regulatory SH3 domains was shown with respect to an influence on progestin-induced growth arrest of breast epithelial cells and induction of Xenopus oocyte maturation.

Enantioselective syntheses of potent retinoid X receptor ligands: differential biological activities of individual antipodes

The synthesis and characterization of chiral RXR selective ligands are described. The enantiomeric acids 2 and 3 were synthesized employing an enantioselective cylopropanation procedure as the key step. Compound 2, with an S,S configuration at C-9 and C-10, is a potent RXR agonist devoid of any RAR activity. The R,R enantiomer 3 is a weak RXR agonist and has demonstrable RAR activity in the receptor transactivation assays. The potent RXR activity of 2 was further confirmed in a hyperglycemic animal model (db/db mice). Compound 2 lowered glucose by 50% by day 7 at 2 mg/kg, whereas 3 had no effect at the same dosage. This further supports the contention that RXR mediated gene transcription is involved in the antidiabetic effects of RXR ligands.

The N-terminal region of human progesterone B-receptors: biophysical and biochemical comparison to A-receptors

To understand the basis for functional differences between the two human progesterone receptors (PR), we have carried out a detailed biochemical and biophysical analysis of the N-terminal region of each isoform. Extending our previous work on the A-isoform (Bain, D. L, Franden, M. A., McManaman, J. L., Takimoto, G. S., and Horwitz, K. B. (2000) J. Biol. Chem. 275, 7313-7320), here we present studies on the N-terminal region of the B-isoform (NT-B) and compare its properties to its A-receptor counterpart (NT-A). As seen previously with NT-A, NT-B is quantitatively monomeric in solution, yet undergoes N-terminal-mediated assembly upon DNA binding. Limited proteolysis, microsequencing, and sedimentation analyses indicate that the B-isoform exists in a non-globular, extended conformation very similar to that of NT-A. Additionally, the 164 amino acids unique to the B-isoform (BUS) appear to be in a more extended conformation relative to sequences common to both receptors and do not exist as an independent structural domain. However, sedimentation studies of NT-A and NT-B show differences in the ensemble distribution of their conformational states. We hypothesize that isoform-specific functional differences are not due to structural differences, per se. Rather, the transcriptional element BUS, or possibly other transcription factors, causes a redistribution of the conformational ensemble by stabilizing a more functionally active set of conformations in NT-B.

Recombinant expression and purification of human androgen receptor in a baculovirus system

A full-length human androgen receptor (hAR) cDNA was used to produce recombinant baculovirus. Spodoptera frugiperda (Sf9) cells infected with this virus expressed protein with an N-terminal hexahistidine tag (His(6)-hAR) in soluble and insoluble forms. The soluble cytosolic His(6)-hAR demonstrated similar association and dissociation half-times for mibolerone, similar binding affinity for mibolerone, and similar steroid specificity as bona fide AR. Under native conditions, the soluble cytosolic His(6)-hAR was purified to apparent homogeneity in the presence of dihydrotestosterone, using metal ion affinity chromatography. The insoluble pellet fraction was solubilized with strong denaturant 6 M guanidine HCl, and His(6)-hAR was purified from it in the presence of 6 M guanidine HCl. Both the solubilized crude pellet fraction and the solubilized/purified His(6)-hAR could be renatured to bind mibolerone. The baculovirus system will therefore provide an efficient means for producing hAR for ligand-binding assays, as well as purifying hAR for detailed molecular analyses.

The opposing transcriptional activities of the two isoforms of the human progesterone receptor are due to differential cofactor binding

The human progesterone receptor (PR) exists as two functionally distinct isoforms, hPRA and hPRB. hPRB functions as a transcriptional activator in most cell and promoter contexts, while hPRA is transcriptionally inactive and functions as a strong ligand-dependent transdominant repressor of steroid hormone receptor transcriptional activity. Although the precise mechanism of hPRA-mediated transrepression is not fully understood, an inhibitory domain (ID) within human PR, which is necessary for transrepression by hPRA, has been identified. Interestingly, although ID is present within both hPR isoforms, it is functionally active only in the context of hPRA, suggesting that the two receptors adopt distinct conformations within the cell which allow hPRA to interact with a set of cofactors that are different from those recognized by hPRB. In support of this hypothesis, we identified, using phage display technology, hPRA-selective peptides which differentially modulate hPRA and hPRB transcriptional activity. Furthermore, using a combination of in vitro and in vivo methodologies, we demonstrate that the two receptors exhibit different cofactor interactions. Specifically, it was determined that hPRA has a higher affinity for the corepressor SMRT than hPRB and that this interaction is facilitated by ID. Interestingly, inhibition of SMRT activity, by either a dominant negative mutant (C'SMRT) or histone deacetylase inhibitors, reverses hPRA-mediated transrepression but does not convert hPRA to a transcriptional activator. Together, these data indicate that the ability of hPRA to transrepress steroid hormone receptor transcriptional activity and its inability to activate progesterone-responsive promoters occur by distinct mechanisms. To this effect, we observed that hPRA, unlike hPRB, was unable to efficiently recruit the transcriptional coactivators GRIP1 and SRC-1 upon agonist binding. Thus, although both receptors contain sequences within their ligand-binding domains known to be required for coactivator binding, the ability of PR to interact with cofactors in a productive manner is regulated by sequences contained within the amino terminus of the receptors. We propose, therefore, that hPRA is transcriptionally inactive due to its inability to efficiently recruit coactivators. Furthermore, our experiments indicate that hPRA interacts efficiently with the corepressor SMRT and that this activity permits it to function as a transdominant repressor.

The N-terminal region of the human progesterone A-receptor. Structural analysis and the influence of the DNA binding domain

The role of the N-terminal region in nuclear receptor function was addressed by a biochemical and biophysical analysis of the progesterone receptor A-isoform lacking only the hormone binding domain (NT-A). Sedimentation studies demonstrate that NT-A is quantitatively monomeric, with a highly asymmetric shape. Contrary to dogma, the N-terminal region is structured as demonstrated by limited proteolysis. However, N-terminal structure is strongly stabilized by the DNA binding domain, possibly explaining the lack of structure seen in isolated activation domains. Upon DNA binding, NT-A undergoes N-terminal mediated assembly, suggestive of DNA-induced allostery, and consistent with changes in protease accessibility of sites outside the DNA binding domain. Microsequencing reveals that protease-accessible regions are limited to previously identified phosphorylation motifs and to functional domain boundaries.

Coregulatory proteins in steroid hormone receptor action: the role of chromatin high mobility group proteins HMG-1 and -2

To directly activate specific gene expression, the progesterone receptor must bind to specific hormone response elements in target promoters. We have previously reported that progesterone receptor requires a nuclear factor, high mobility group 1 or 2 (HMG-1/-2) for high-affinity interaction with DNA in vitro and for full transcriptional activity in vivo. We have also observed that HMG-1/-2 selectively influences the activity of the steroid hormone class of nuclear receptors but does not affect other classes of nuclear receptors. This report is a summary of our published and unpublished studies to determine the effects of HMG-1/-2 on a broad range of nuclear receptor supergene family members and to define the mechanism for the specific effect of HMG-1/-2 on the steroid class of receptors. Our studies and available structural data suggest a model where the DNA binding domains of nonsteroid nuclear receptors contain a minor groove DNA interface, termed the C-terminal extension, that contributes to high-affinity DNA binding. Steroid receptors lack such a minor groove interface and therefore require an additional protein, HMG-1/-2, that functionally substitutes for the C-terminal extension to facilitate high-affinity interactions with DNA.

Hormone-dependent interaction between the amino- and carboxyl-terminal domains of progesterone receptor in vitro and in vivo

Full transcriptional activation by steroid hormone receptors requires functional synergy between two transcriptional activation domains (AF) located in the amino (AF-1) and carboxyl (AF-2) terminal regions. One possible mechanism for achieving this functional synergy is a physical intramolecular association between amino (N-) and carboxyl (C-) domains of the receptor. Human progesterone receptor (PR) is expressed in two forms that have distinct functional activities: full-length PR-B and the amino-terminally truncated PR-A. PR-B is generally a stronger activator than PR-A, whereas under certain conditions PR-A can act as a repressor in trans of other steroid receptors. We have analyzed whether separately expressed N- (PR-A and PR-B) and C-domains [hinge plus ligand-binding domain (hLBD)] of PR can functionally interact within cells by mammalian two-hybrid assay and whether this involves direct protein contact as determined in vitro with purified expressed domains of PR. A hormone agonist-dependent interaction between N-domains and the hLBD was observed functionally by mammalian two-hybrid assay and by direct protein-protein interaction assay in vitro. With both experimental approaches, N-C domain interactions were not induced by the progestin antagonist RU486. However, in the presence of the progestin agonist R5020, the N-domain of PR-B interacted more efficiently with the hLBD than the N-domain of PR-A. Coexpression of steroid receptor coactivator-1 (SRC-1) and the CREB binding protein (CBP), enhanced functional interaction between N- and C-domains by mammalian two-hybrid assay. However, addition of SRC-1 and CBP in vitro had no influence on direct interaction between purified N- and C-domains. These results suggest that the interaction between N- and C-domains of PR is direct and requires a hormone agonist-induced conformational change in the LBD that is not allowed by antagonists. Additionally, coactivators are not required for physical association between the N- and C-domains but are capable of enhancing a functionally productive interaction. In addition, the more efficient interaction of the hLBD with the N-domain of PR-B, compared with that of PR-A, suggests that distinct interactions between N- and C-terminal regions contribute to functional differences between PR-A and PR-B.

Distribution of semaphorin IV in adult human brain

The semaphorins comprise a family of secreted and membrane bound proteins that influence development of the nervous system as well as non-neural organs. H.SemaIV was originally isolated from a homozygously deleted region involving a subset of small cell lung cancers, a neuroendocrine derived neoplasm. To investigate H.SemaIV expression, specific polyclonal antibodies directed against a unique polypeptide (amino acids 758-773) were developed and their specificity confirmed. In cell lines, H.SemaIV staining was observed in cytoplasmic granules. In the normal adult human brain, we noted three general characteristics of H.SemaIV expression. H.SemaIV was strongly present in specific nuclei or in neuronal regions arranged in defined subnuclear structures. It was also present in neurons but not glial cells or ependymocytes. Lastly, H.SemaIV was not present in cell bodies, but rather in fibers and nerve terminals. Interestingly, an altered pattern of staining was detected in brains of three patients with Alzheimer's disease.

A new class of potent RAR antagonists: dihydroanthracenyl, benzochromenyl and benzothiochromenyl retinoids

The synthesis and biological activity of a novel series of tricyclic retinoic acid receptor antagonists are described. These compounds bind with high affinity to the RARs and are potent antagonists of retinoid function in in vitro and in vivo systems.

Synthesis of retinoid X receptor-specific ligands that are potent inducers of adipogenesis in 3T3-L1 cells

A novel series of oxime ligands has been synthesized that displays potent, specific activation of the retinoid X receptors (RXRs). The oximes of 3-substituted (tetramethyltetrahydronaphthyl)carbonylbenzoic acids are readily available by condensation with hydroxyl- or methoxylamine; alkylation of the hydroxyl oxime provides a variety of analogues. Oximes and variously substituted oxime derivatives demonstrate high binding affinity for the RXRs and specific RXR activation and, hence, are called rexinoids. These oxime rexinoids are activators of the RXR:PPARgamma heterodimer and are potent inducers of differentiation of 3T3-L1 preadipocytes to adipocytes. We have recently reported that ligands which activate the RXR:PPARgamma heterodimer in this manner are effective in the treatment of type II diabetes (non-insulin-dependent diabetes mellitus, NIDDM). Thus, these new oxime rexinoids are potential therapeutic agents for the treatment of metabolic disorders, such as obesity and diabetes.

Stereoselective synthesis and receptor activity of conformationally defined retinoid X receptor selective ligands

Retinoid X Receptor (RXR) specific ligands are currently being investigated for the treatment of metabolic diseases such as type II diabetes. We report the synthesis of conformationally locked retinoids, which are potent RXR selective ligands, and the attempted synthesis of 9-cyclopropyl locked analogs of RA and 9-cis RA.

A new class of RAR subtype selective retinoids: correlation of pharmacological effects with receptor activity

The synthesis and biological activity of a series of structurally related retinoids with different RAR subtype selectivities are described. These retinoids bind to all three RAR subtypes but in functional transactivation assays, they show RARbeta or RARbeta,gamma selectivity with weak RARalpha activity. The subtype selectivity of these retinoids was found to correlate with their efficacy (ODC inhibition) and toxicity (topical irritation and teratogenicity) profiles. The degree of RARgamma transactivation activity correlates with their topical toxicity and teratogenicity as measured by the inhibition of chondrogenesis. Of the RARbeta selective retinoids reported here, retinoid 12 is the most promising, as it is completely devoid of two common retinoid related toxicities, namely topical irritation and teratogenesis.

Agonist and antagonists induce homodimerization and mixed ligand heterodimerization of human progesterone receptors in vivo by a mammalian two-hybrid assay

This study utilizes the mammalian two-hybrid system to examine the role of ligand in the dimerization of human progesterone receptor (hPR). The GAL4 DNA-binding domain and the herpes simplex virus VP16 transactivation domain were fused to the amino terminus of full-length hPR (both the A and B isoforms) to produce chimeric proteins. PR dimerization was detected by the ability of cotransfected GAL4/PR and VP16/PR chimeras in COS cells to induce expression of a reporter gene under the control of GAL4-binding sites (pG5CAT). Hormone agonist-dependent interactions were observed between the two like isoforms of PR (A-A and B-B) and between PR-A and PR-B (A-B), indicating that hormone can stimulate the formation of the three possible dimeric forms of PR within cells. In contrast, neither type I (ZK98299) nor type II (RU486, ZK112993) progestin antagonists stimulated interaction between these same hybrid PR proteins. However, activation of the VP16/PR chimera by antagonists on a progesterone response element-controlled reporter gene (DHRE-E1b-CAT) was only a fraction (4-13%) of that stimulated by agonist R5020. One possibility for the failure to detect an induction in the two-hybrid assay is antagonist-induced repression of the activity of the VP16/PR fusion protein rather than a failure of antagonists to stimulate interaction between the hybrid proteins. To test this idea, an UP-1 carboxyl-terminal truncation mutant of PR was used to construct the two-hybrid proteins. PR-UP-1 selectively binds antagonists, but not agonists, and is fully activated in response to antagonists. Both types of progestin antagonists stimulated interactions between GAL4/PR(UP-1) and VP16/PR(UP-1) hybrid proteins, indicating that antagonists are capable of stimulating PR dimerization in cells and do not function by disrupting or preventing dimerization. To determine whether PR bound to an antagonist can dimerize in whole cells with PR bound to agonist, GAL4/PR(UP-1) was paired in the two-hybrid assay with a VP16/PR fusion protein harboring a point mutation in PR at amino acid 722 (Gly-Cys) that specifically binds progestin agonist but not antagonist. Neither R5020 nor RU486 alone stimulated interaction between these ligand-specific PR hybrid proteins. However, strong interaction was detected by addition of both agonist and antagonists, indicating the formation of mixed ligand heterodimers and that both PR partners require ligand for dimerization to occur. Based on electrophoretic gel mobility shift assays (EMSAs), these heterodimers appear to have substantially reduced DNA binding activity. Progestin antagonists inhibit agonist activation of PR at concentrations that are too low to be accounted for by a simple competition mechanism for binding to PR. We propose that antiprogestin inactivation of PR in trans by heterodimerization contributes to the biological potency of these compounds.

5-Alkyl 1,2-dihydrochromeno[3,4-f]quinolines: a novel class of nonsteroidal progesterone receptor modulators

A series of nonsteroidal human progesterone receptor (hPR) agonists, 5-alkyl 1,2-dihydrochromeno[3,4-f]quinolines, was synthesized and evaluated in cotransfection and competitive receptor binding assays. The 5-alkyl substitution was shown to be responsible for the agonist activity and substitution at C9 dramatically enhanced the potency. A number of analogues in this series showed activities similar to or better than progesterone in the cotransfection and binding assays and analogue 15 exhibited similar in vivo activity as medroxyprogesterone acetate (MPA) in murine uterine wet weight/mammary gland morphology assays.

Identification of various exon-deleted progesterone receptor mRNAs in human endometrium and ovarian endometriosis

We demonstrated the expression of various exon-deleted progesterone receptor (PR) variant mRNAs in human uterine endometrium and ovarian endometriosis using the reverse transcription-polymerase chain reaction-DNA sequencing analyses. In addition to PR wild-type mRNA, various exon-deleted PR variant mRNAs were identified in all samples analyzed. The sequence of these variants showed a perfect junction between exons surrouding the deletion area. PR wild-type, exon 6-deleted, exon 4-deleted, exon 5, 6-deleted and exon 4, 5, 6-deleted PR variant mRNAs were observed in all samples analyzed. Exon 4, 6-deleted PR mRNA was observed only in ovarian endometriosis. This is the first study to demonstrate the coexpression of various PR exon-deleted variant mRNAs with the wild-type in uterine endometrium and ovarian endometriosis. All resulting variant proteins might indicate functional diversity and modify the progestational action of wild-type PR, and thus be involved in the pathophysiology of ovarian endometriosis.

High-mobility group chromatin proteins 1 and 2 functionally interact with steroid hormone receptors to enhance their DNA binding in vitro and transcriptional activity in mammalian cells

We previously reported that the chromatin high-mobility group protein 1 (HMG-1) enhances the sequence-specific DNA binding activity of progesterone receptor (PR) in vitro, thus providing the first evidence that HMG-1 may have a coregulatory role in steroid receptor-mediated gene transcription. Here we show that HMG-1 and the highly related HMG-2 stimulate DNA binding by other steroid receptors, including estrogen, androgen, and glucocorticoid receptors, but have no effect on DNA binding by several nonsteroid nuclear receptors, including retinoid acid receptor (RAR), retinoic X receptor (RXR), and vitamin D receptor (VDR). As highly purified recombinant full-length proteins, all steroid receptors tested exhibited weak binding affinity for their optimal palindromic hormone response elements (HREs), and the addition of purified HMG-1 or -2 substantially increased their affinity for HREs. Purified RAR, RXR, and VDR also exhibited little to no detectable binding to their cognate direct repeat HREs but, in contrast to results with steroid receptors, the addition of HMG-1 or HMG-2 had no stimulatory effect. Instead, the addition of purified RXR enhanced RAR and VDR DNA binding through a heterodimerization mechanism and HMG-1 or HMG-2 had no further effect on DNA binding by RXR-RAR or RXR-VDR heterodimers. HMG-1 and HMG-2 (HMG-1/-2) themselves do not bind to progesterone response elements, but in the presence of PR they were detected as part of an HMG-PR-DNA ternary complex. HMG-1/-2 can also interact transiently in vitro with PR in the absence of DNA; however, no direct protein interaction was detected with VDR. These results, taken together with the fact that PR can bend its target DNA and that HMG-1/-2 are non-sequence-specific DNA binding proteins that recognize DNA structure, suggest that HMG-1/-2 are recruited to the PR-DNA complex by the combined effect of transient protein interaction and DNA bending. In transient-transfection assays, coexpression of HMG-1 or HMG-2 increased PR-mediated transcription in mammalian cells by as much as 7- to 10-fold without altering the basal promoter activity of target reporter genes. This increase in PR-mediated gene activation by coexpression of HMG-1/-2 was observed in different cell types and with different target promoters, suggesting a generality to the functional interaction between HMG-1/-2 and PR in vivo. Cotransfection of HMG-1 also increased reporter gene activation mediated by other steroid receptors, including glucocorticoid and androgen receptors, but it had a minimal influence on VDR-dependent transcription in vivo. These results support the conclusion that HMG-1/-2 are coregulatory proteins that increase the DNA binding and transcriptional activity of the steroid hormone class of receptors but that do not functionally interact with certain nonsteroid classes of nuclear receptors.

Preparation, resolution, and biological evaluation of 5-aryl-1, 2-dihydro-5H-chromeno[3,4-f]quinolines: potent, orally active, nonsteroidal progesterone receptor agonists

Two potent nonsteroidal progestins from the 5-aryl-1, 2-dihydro-5H-chromeno[3,4-f]quinoline class (LG120746 and LG120747) were selected for scale-up, resolution, and biological evaluation of the purified enantiomers. For each quinoline, the levorotatory enantiomer was determined to be the more potent agonist of the human progesterone receptor isoform B (hPR-B) (EC50 < 3 nM), but the dextrorotatory enantiomers retained significant PR modulatory activity (EC50 < 200 nM). In two in vivo rodent models of progestational activity, a pregnancy maintenance assay and a uterine wet weight assay, the two eutomers displayed potent progesterone-like effects. In a third model for progestational activity, the mammary end bud assay, these compounds were significantly less active. These studies demonstrate that certain members of this class of selective progesterone receptor modulators display encouraging and potentially useful tissue-selective progestational effects.

Human progesterone receptor A and B isoforms in CHO cells. I. Stable transfection of receptor and receptor-responsive reporter genes: transcription modulation by (anti)progestagens

A hormone-dependent transcription modulation system was established on the basis of a two-step transfection procedure of the human progesterone receptor isoforms (hPR-A and hPR-B, respectively) and a progesterone receptor-responsive reporter (MMTV-Luc). In the first step, stable transfection of the hPR-A and hPR-B isoform-encoding cDNAs was performed in the steroid receptor-negative CHO K1 cell line. Individual clones were characterized for hPR-isoform expression with respect to Western immuno-blotting, transcriptional activation and hormone binding. With respect to the latter characteristic, individual hPR-isoforms demonstrated similar dissociation constants (Kd for hPR-A: 0.5 +/- 0.3 and hPR-B: 0.8 +/- 0.3 nM, respectively) irrespective of the amount of receptor isoform expressed (Bmax varying from 4.1 to 33.2 nM). The Kd values observed for individual hPR-isoforms were comparable to those found for human breast tumor MCF-7 cells (Kd for hPR-A + hPR-B: 0.6 +/- 0.3 nM). In the second step, hPR-isoform expressing CHO clones were supertransfected with a MMTV-Luc reporter construct resulting in permanent cell lines useful for testing the activity of natural and synthetic steroids in their ability to modulate gene transcription. Both isoform-specific reporter cell lines responded in a similar ranking order towards different progesterone reference compounds such as Org 2058, progesterone (Prog), R5020, norethisterone (NE), and medroxy progesterone acetate (MPA). Moreover, a good correlation was observed between the relative binding affinity (RBA) and the transcriptional activation potency of these compounds towards the individual hPR-isoforms. The latter correlation could not only be demonstrated for the progestagenic agonist reference compounds but was also observed for the progestagenic antagonist reference compounds like Org 33628, Org 31710, RU 38486 and ZK 98299. The major difference observed between the individual PR-isoforms was related to the degree of stimulation of the reporter gene (MMTV-based) within the cellular CHO context. Therefore, these cell lines can be used for the determination and quantitation of the activity of (anti)progestagenic compounds in vitro but may also be useful to predict the activity of compounds in vivo (see also II Comparison of binding, transactivation and ED50 values of several synthetic (anti) progestagens in vitro in CHO and MCF-7 cells and in vivo in rabbits and rats).

A 361 base pair region of the rat FSH-beta promoter contains multiple progesterone receptor-binding sequences and confers progesterone responsiveness

The rat is frequently used as a model to study the role of progesterone (P) in regulating FSH secretion and synthesis. The ability of P to modulate rat FSH-beta mRNA levels suggests the presence of a functional hormone response element. We have found three PRE-like sequences upstream of the transcription start site in the rat FSH-beta gene. These sequences are herein referred to as PRE-like sequence #1, #2 and #3 with #1 being most distal from the start site. The current studies determined whether these PRE-like sequences bound P receptor (PR) and were functional in regulating the induction of expression by P. Electrophoretic mobility shift assays (EMSA) demonstrated that a single 289 base pair (bp) DNA fragment encompassing all three PRE-like sequences specifically bound PR. Further, PR bound with high affinity to double-stranded oligonucleotides representing individual PRE-like sequences #1, #2 and, with lower affinity to a double-stranded oligonucleotide representing PRE-like sequence, #3. We have cloned a 361 bp sequence from the promoter region of the rat FSH-beta gene encompassing all three PRE-like sequences into a luciferase reporter vector (pGL3-promoter) yielding pFSHbeta361-luc+ which when transiently transfected into primary rat pituitary cell cultures, conferred P-responsiveness to a heterologous promoter. P-responsiveness was dependent upon the presence of PR and was blocked by the PR antagonist RU-486. These data strongly suggest the presence of functional PRE's in the rat FSH-beta gene promoter.

Lack of involvement of retinoic acid receptor alpha in retinoid-induced skin irritation in hairless mice

It has been proposed that RAR gamma, the major retinoic acid receptor (RAR) subtype in skin, mediates retinoid-induced skin irritation. However, RAR alpha is also found in skin, and its role in retinoid-induced skin irritation has not been tested. In this study, RAR subtype-specific agonists and antagonists were used to test the possible contribution of RAR alpha to retinoid-induced skin irritation. Female hairless mice were treated topically on the dorsal skin for 5 days with various retinoids over a 2-log dose range, and cutaneous toxicity was scored by semiquantitative visual observations of skin flaking and abrasions daily up to 3 days post-treatment. Three RAR alpha-selective agonists were > or = 100-fold less potent as skin irritants than the structurally-related RAR pan-agonist, TTNPB. Skin irritation potency decreased in the following order: TTNPB > > Am580 > AGN 193835 > > 193836 and correlated with RAR beta and/or RAR gamma binding affinity rather than RAR alpha binding affinity. TTNPB-induced skin irritation was blocked in a dose-dependent fashion by co-treatment with the RAR pan-antagonist AGN 193109 but was not blocked by co-treatment with the RAR alpha-specific antagonist AGN 194301. In contrast, skin irritation induced by the RAR alpha-selective agonist AGN 193835 was almost completely blocked by co-treatment with AGN 193644, an RAR beta/gamma-selective antagonist. These data demonstrate that RAR alpha is not significantly involved in mediating retinoid-induced skin irritation in mice and suggest that RAR alpha-selective agonists may have reduced mucocutaneous side effects relative to other retinoids.

Identification of highly potent retinoic acid receptor alpha-selective antagonists

The syntheses and full retinoid receptor characterization of a novel series of retinoic acid receptor alpha (RAR alpha) antagonists, 1-5, are described. These compounds bind with high affinity to RAR alpha but were completely inactive in gene transactivation. They were also potent and effective antagonists of retinoic acid (RA) induced gene transcription at RAR alpha. Compounds 1-5 exhibited varying degrees of selectivity for RAR alpha relative to RAR beta/gamma, with compound 5 being the most selective in both binding and functional antagonism assays. These compounds will be invaluable tools in delineating the physiological roles of RAR alpha in development and in the adult animal and may themselves be useful therapeutic agents in human diseases associated with RAR alpha.

Transcriptional regulation of the murine multidrug resistance gene mdr1b by progesterone occurs via an indirect mechanism

The murine multidrug resistance gene mdr1b is highly induced in the endometrium during pregnancy. Evidence suggests that induction occurs mainly as a result of progesterone action. To study the molecular mechanisms involved in this induction, 5'-flanking sequences between -540 and +97 of the mdr1b gene were fused to the reporter gene, bacterial chloramphenicol acetyltransferase (p540CAT). Unlike most progesterone-responsive genes, mdr1b is preferentially activated by the A form of the progesterone receptor. We now report that activation is not observed with a DNA-binding domain mutant of progesterone receptor A (PRA) suggesting that induction occurs at the transcriptional level. Time course experiments demonstrated that induction was first observed 12 hr after hormone addition, suggestive of a secondary (or late) response gene. Sequence comparison highlighted the region M1 (-234 to -206), which contains a partially conserved progesterone response element. Its functional significance was evaluated by expression assays and gel shift analysis. Reporter plasmids with modifications of this element were transfected into HeLa cells. Constructs containing the native M1 element, or a mutated element (M1mt) that eliminated any similarity to a progesterone response element, were induced four-fold by progesterone whereas an element containing a consensus progesterone response element (M1PRE) was induced eight-fold. In addition, by gel shift analysis, the M1 element did not bind the progesterone receptor or any other factors. This suggested that the M1 region does not participate in the response to progesterone. 5' Nested deletion analysis, used to identify other regions of the upstream regulatory region that contributed to induction by progesterone, demonstrated that enhancer sequences between -122 and -65, which contain binding sites for C/EBPbeta and NF-Y, were important. Mutations in the binding sites for these factors decreased induction by progesterone. On the basis of our studies using 540 bp of upstream sequence, mdr1b is activated transcriptionally by progesterone, in an indirect manner dependent on basal factors.

An N-terminally truncated third progesterone receptor protein, PR(C), forms heterodimers with PR(B) but interferes in PR(B)-DNA binding

Multiple progesterone receptor (PR) isoforms may explain in part the complex and diverse biological actions of progestins. Recent studies demonstrate that the human 116 kDa B-receptor (PR[B]) and the 94 kDa A-receptor (PR[A]) can have very different transcriptional functions that are cell- and promoter-specific. Additionally, we have shown the existence of a smaller N-terminally truncated 60 kDa progestin-specific binding protein, called the C-receptor (PR[C]), that has unique transcriptional potentiating properties. In the presence of the other two PR isoforms, PR(C) enhances the transcriptional activities of the larger PR proteins. In order to determine the mechanism of action for the transcriptional promoting abilities of PR(C), the structural and functional properties of PR(C) were analysed and compared to those of PR(A) and PR(B). PR(C) consistently displayed a dissociation constant (Kd) approximately 5 times higher than that for PR(B) and PR(A), suggesting that the N-terminal truncation of PR(C) results in a conformation different from the two larger PR isoforms, that affects the hormone-binding region and its interaction with hormone. Despite this change, PR(C) is still capable of forming heterodimers with the larger PR(B) in solution, as determined by co-immunoprecipitation studies, but PR(C) interferes in tight PR(B) binding to DNA in gel-shift assays. Surprisingly, progestin and antiprogestin autoregulation of PR(C) protein levels parallel those for PR(B) and PR(A).

A sequence in the 5' flanking region confers progestin responsiveness on the human c-myc gene

Previous reports have shown that progestins stimulate the proliferation of the human breast cancer cell line T47D in culture. Under different conditions other reports have shown progestin stimulation, inhibition or no effect on growth. It has also been shown that c-myc expression is stimulated at early times by progestins. We are currently testing the hypothesis that the mechanism of growth enhancement by progestins involves the stimulation of expression of c-myc. This hypothesis predicts a progesterone regulatory region in or near the c-myc gene. We have identified a region, from -2327 to -1833, which serves this function. This region includes a 15 bp sequence with homology to the PRE (progesterone response element) consensus sequence. Human progesterone receptor (PR) binds to this sequence in a specific, ligand-enhanced manner in electrophoretic mobility shift assays (EMSA). A 3507 bp HindIII-XbaI fragment of the 5' flanking region of the c-myc gene, -2327 to +1180, containing the progestin regulatory region and the c-myc promoter, confers progestin responsiveness to the CAT (chloramphenicol acetyl transferase) reporter gene in progesterone receptor (PR)-rich T47D human breast cancer cells, but not in PR-negative MDA-MB-231 cells. Removal of the progestin regulatory region abrogates progestin responsiveness. These data demonstrate that the sequence from -2327 to -1833 of the human c-myc gene includes a positive progestin regulatory region.

Serine/threonine phosphorylation of orphan receptor hepatocyte nuclear factor 4

We showed previously that hepatocyte nuclear factor 4 (HNF-4) defines a new subclass, Group IV, of nuclear receptors. In order to determine whether members of this subclass are phosphorylated, HNF-4 was overexpressed to high levels in insect cells using a baculovirus expression system. The baculovirus-expressed HNF-4 (HNF4.BV) was characterized and compared to HNF-4 overexpressed in transiently transfected mammalian (COS-7) cells (HNF4.COS). The results indicate that both HNF4.BV and HNF4.COS are phosphorylated although HNF4.BV was hypophosphorylated relative to HNF4.COS. Phosphoamino acid analysis showed that HNF-4 is phosphorylated mainly on serine and to a lesser extent on threonine residues. Phosphopeptide mapping revealed 13 phosphopeptides for HNF4.COS, only 9 of which were present in the HNF4.BV sample. DNA-binding studies also showed that HNF4.BV binds DNA with a lower specificity and affinity, as measured by the equilibrium dissociation constant (Kd), than does HNF4.COS. Partial proteolytic digestion experiments also revealed that HNF4.BV and HNF4.COS adopt somewhat different three-dimensional conformations. Since glycosylation of HNF4.BV was ruled out by a number of methods and since HNF-4 expressed in bacteria exhibited an even lower DNA-binding affinity than HNF4.BV, we propose that serine/theronine phosphorylation may play a role in the DNA-binding activity of HNF-4 and, therefore, possibly of other Group IV receptors as well.

Stoichiometry and site-specific phosphorylation of human progesterone receptor in native target cells and in the baculovirus expression system

Human progesterone receptor (PR) in T47D breast cancer cells is phosphorylated on nine different serine residues; three are hormone-inducible (Ser102, Ser294, and Ser345), while others are basal but hormone-stimulated. In the present study, we have compared the phosphorylation state of native and recombinant PR expressed in a baculovirus insect cell system. Stoichiometric measurements showed that unliganded native PR in T47D cells was approximately 50% phosphorylated ( approximately 4 phosphates/PR) and became essentially 100% phosphorylated ( approximately 9 phosphates/PR) when bound to hormone. Unliganded PR expressed in Sf9 insect cells was phosphorylated with a similar stoichiometry ( approximately 3 phosphates/PR), but the phosphate content did not change with hormone addition. Site-specific phosphorylation analyzed by tryptic phosphopeptide mapping and manual peptide sequencing revealed that expressed PR bound to hormone in the Sf9 insect cells was phosphorylated on all the same sites as hormone-treated PR in T47D cells. Only minor differences were detected in the relative proportion of three sites (two basal sites and Ser345) and phosphorylation did not occur on alternate sites. Interestingly, unliganded baculovirus-expressed PR was constitutively phosphorylated on hormone inducible sites and was phosphorylated on basal sites to the same extent as hormone treated PR. Thus, in the absence of hormone, the phosphorylation state of baculovirus-expressed PR resembled that of the hyperphosphorylated native PR. In contrast to native PR, the expressed receptor in cytosols of Sf9 cells did not form a large oligomeric complex suggesting that hyperphosphorylation may be due to dissociation of the complex in the absence of hormone. This study demonstrating phosphorylation on correct sites with a stoichiometry similar to that of native PR indicates that overexpressed PR in the baculovirus system is suitable for in vitro structure/function studies.