Phosphorylation Of Progesterone Receptor Research Articles

Abstract 3084: Progesterone receptor mediated crosstalk between cancer associated fibroblasts (CAFs) and ER+/PR+ breast cancer cells through CAF-secreted FGF2

Abstract Late recurring ER+ breast cancer emerges in post-menopausal women despite low/no hormone conditions. Cancer associated fibroblasts (CAFs) represent a major player in the promotion of metastasis, stemness and chemotherapy resistance in breast cancer. Progesterone receptors (PR) are emerging as drivers of stemness and metastasis in ER+ breast cancers. We propose that CAFs provide a mechanism to turn on ligand-independent PR signaling pathways through the secretion of paracrine factors. Methods: Tumorsphere assays were used to measure stem cell expansion. Cell clustering assays were used to measure CAF/tumor cell interactions. ChIP assays were used to measure PR direct binding to stemness gene regulatory elements. Results: Using the ER(+) T47D cell series (i.e., PR-null variants or cells expressing either endogenous PR (T47DCO) or PR-A or PR-B isoforms), we observed that CAF conditioned media (CM) increased tumorsphere formation in PR+ cells relative to PR-null and controls. Similar results were obtained with MCF7L cell models. CAF CM activated MAPK/ERK kinases and induced rapid phosphorylation of PR at Ser294. Physical interaction between CAFs and PR expressing T47D and MCF7L cells in clustering assays demonstrated PR driven co-cluster formation. CAF-derived FGF2 increased PR dependent tumorsphere and co-cluster formation. Blockage of FGF2 with the inhibitor, PD173074, decreased CAF CM-induction of tumorspheres and co-cluster formation. Previous data demonstrated that the cell adhesion molecule, CD44, is implicated in CAF/BC co-cluster formation. Both FGF2 and progestins increased CD44 expression in ER+ breast cancer cell models. Chromatin immunoprecipitation (ChIP) assays demonstrated that both PR isoforms are recruited to PRE-containing regions in the CD44 gene in response to progestin. Finally, we compared the gene expression profiles of breast cancer cells from T47DCO mono-clusters and CAF/T47DCO co-clusters using Single Cell RNA Seq. Among the differentially expressed genes identified were two genes implicated in tamoxifen resistance, BAMBI and NR2F2. Conclusion: We propose a model in which clustering between CAFs and ER+/PR+ breast cancer cells is promoted by the CAF secreted factor, FGF2. FGF2 promotes PR activation and upregulation of CD44 expression, which may further increase physical cell-cell interactions. Importantly, CAF-derived FGF2 can also act through PR to initiate MAPK/ERK signaling pathways that drive stemness and endocrine therapy resistance. Our studies of the interactions between PR+ breast cancer cells with CAFs either in the primary tumor or in the circulation (as CAF/CTC clusters) suggest the need to include anti-progestins as a component of endocrine therapy in late recurring ER+ breast cancer. Citation Format: Angela K. Spartz, Caroline H. Diep, Carol A. Lange, Dorraya El-Ashry. Progesterone receptor mediated crosstalk between cancer associated fibroblasts (CAFs) and ER+/PR+ breast cancer cells through CAF-secreted FGF2 [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2023; Part 1 (Regular and Invited Abstracts); 2023 Apr 14-19; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2023;83(7_Suppl):Abstract nr 3084.

MECHANICAL AUGMENTATION OF PROGESTERONE ACTION IN UTERINE FIBROID CELLS REQUIRES PROGESTERONE RECEPTOR B (PRB) AND IS ASSOCIATED WITH PRB PHOSPHORYLATION

Progesterone responsive genes are implicated in fibroid growth, but the mechanisms that integrate mechanical signaling with progesterone receptor activation are not fully understood. We previously reported that a mechanically stiff substrate promoted progesterone-dependent, progesterone receptor-mediated gene activation in fibroid cells. Here we investigated whether altered mechanical stiffnesses directly influenced phosphorylation of progesterone receptor B (PRB), and used siRNA directed against PRB to test whether this isoform was required to transduce mechanical signals in fibroid cells.

Stochastic model of ERK-mediated progesterone receptor translocation, clustering and transcriptional activity

Progesterone receptor (PR) transcriptional activity is a key factor in the differentiation of the uterine endometrium. By consequence, progestin has been identified as an important treatment modality for endometrial cancer. PR transcriptional activity is controlled by extracellular-signal-regulated kinase (ERK) mediated phosphorylation, downstream of growth factor receptors such as EGFR. However, phosphorylation of PR also targets it for ubiquitination and destruction in the proteasome. Quantitative studies of these opposing roles are much needed toward validation of potential new progestin-based therapeutics. In this work, we propose a spatial stochastic model to study the effects of the opposing roles for PR phosphorylation on the levels of active transcription factor. Our numerical simulations confirm earlier in vitro experiments in endometrial cancer cell lines, identifying clustering as a mechanism that amplifies the ability of progesterone receptors to influence gene transcription. We additionally show the usefulness of a statistical method we developed to quantify and control variations in stochastic simulations in general biochemical systems, assisting modelers in defining minimal but meaningful numbers of simulations while guaranteeing outputs remain within a pre-defined confidence level.

Abstract 649: Targeting progesterone receptor (PR) with the antiprogestin onapristone in patient-derived xenograft (PDX) models of estrogen receptor positive (ER+), PR positive (PR+) bone metastasis of breast cancer

Abstract Background: Onapristone (ONA) is a progesterone receptor (PR) antagonist that prevents PR-mediated DNA transcription. ONA is currently being evaluated in metastatic breast cancers (MBC), as well as other hormone-dependent cancers. Recently, therapeutic options for metastatic estrogen receptor (ER) positive breast cancers have been expanded by the introduction of cyclin-dependent kinase 4/6 inhibitors (CDK4/6i), administered in combination with endocrine treatments, as first line therapy. Moreover, the selective PI3K inhibitor alpelisib (ALP) has been approved for the treatment of PIK3CA-mutated endocrine resistant MBC. The objective of this study was to evaluate the efficacy of ONA in combination with fulvestrant (FUL) and palbociclib (PAL) or ALP in different PDX models established from ER and PR positive breast cancers. Methods: PDX models were established from primary tumors or biopsies from bone metastases from endocrine therapy patients with progressing tumors. ER and PR expression were analyzed by immunohistochemistry (IHC) and western blot (WB) analysis in 17 PDX models. The anti-tumor activity of onapristone alone or combined with FUL and PAL was tested in 2 ER+/PR+ PDX studies, while the combination with ALP+FUL was tested in one PIK3CA-mutated PDX study. Phosphorylation of both PR and ER-PR interactions were analyzed in treated tumors by WB and by the in situ Proximity Ligation Assay (PLA), respectively. Results: PR expression was found in 1/9 PDX established from primary breast tumors and 4/8 PDX established from bone metastases. ONA in vivo activity was tested in 2 PDX of bone metastases: PDX BC1101 (PR low) and BC1117 (PR high). BC1101 showed amplification of FGFR1 and CCND1 genes, while BC1117 has an activating mutation of PIK3CA gene. In the low PR PDX BC1101, treatment with ONA was ineffective in both the monotherapy and combination setting. Conversely, in the PDX with high expression of PR, BC1117, ONA treatment, given as monotherapy, decreased tumor growth. The anti-tumor activity of ONA+FUL+PAL combination was significantly increased as compared to FUL+PAL, with the majority of xenografts showing tumor regression. Expression of PR and phospho-PR were inhibited in the tumors treated by FUL, ONA+FUL, and ONA+FUL+PAL. Interaction between ER and PR, analyzed by the in situ PLA assay, was inhibited in the ONA+FUL treated xenografts ±PAL. Finally, treatment with the triple combination of ONA+FUL+ALP was also highly effective and significantly greater than the combination of FUL+ALP. RNAseq analysis of treated xenografts is ongoing to identify transcriptomic changes in the different treatment arms. In conclusion, our study demonstrates that ONA improved the response to endocrine treatment using CDK4/6 or PI3K inhibitors in a MBC-derived PDX model with high PR expression. Citation Format: Martin Lehr, Ahmed Dahmani, Léa Huguet, Rania El-Botty, Charlène Thiebaut, Muriel Romancer, Paul Cottu, Elisabetta Marangoni. Targeting progesterone receptor (PR) with the antiprogestin onapristone in patient-derived xenograft (PDX) models of estrogen receptor positive (ER+), PR positive (PR+) bone metastasis of breast cancer [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 649.

Progesterone Receptor Together with PKCα Expression as Prognostic Factors for Astrocytomas Malignancy.

IntroductionAstrocytomas are the most common and aggressive primary brain tumors, and they are classified according to the degree of malignancy on a scale of I to IV, in which grade I is the least malignant and grade IV the highest. Many factors are related to astrocytomas progression as progesterone receptor (PR), whose transcriptional activity could be regulated by phosphorylation by protein kinase C alpha (PKCα) at the residue Ser400. Our aim was to investigate if PR phosphorylation together with PKCα expression could be used as a prognostic factor for astrocytomas malignancy.MethodsBy immunofluorescence, we detected the content of PKCα, PR and its phosphorylation at Ser400 in 46 biopsies from Mexican patients with different astrocytoma malignancy grades; by bioinformatic tools using TCGA data, we evaluated the expression of PR and PKCα mRNA according to astrocytoma malignancy grades. For all statistical analyses, significance was p<0.05.ResultsWe detected a positive correlation between the tumor grade and the content of PKCα, PR and its phosphorylation at Ser400, as well as the intracellular colocalization of these proteins. Interestingly, using an in silico assay, we found that the PR and PKCα expression at mRNA level has an inverse ratio with astrocytomas tumor grade.DiscussionThese results indicate that PR and its phosphorylation at Ser400 site, as well as PKCα and their colocalization, could be considered as possible malignancy biomarkers for astrocytomas grades I–IV.

Mechanism of Action of Irilone as a Potentiator of Progesterone Receptor Signaling

Progesterone signaling and its proper regulation is important for reproductive function. When progesterone signaling is dysregulated, gynecological diseases can occur, for example endometriosis, uterine fibroids, and endometrial cancer. While these diseases are treated with progestin therapy, progestins can bind to multiple steroid receptors, exerting side effects of weight gain, immunosuppression, cardiovascular disease, and stroke. Discovering an alternative progestin that is selective for the progesterone receptor (PR) is ideal. One potential source of such an alternative is botanical dietary supplements, which have become increasingly popular among consumers with sales reaching $9.6 billion in 2019. Although botanical supplements are popular, the chemical structures and biological action of botanical supplements would benefit from deeper scientific investigation. Studies of Trifolium pratense L. (red clover), primarily used for the treatment of menopausal symptoms, identified phytoestrogen compounds as the chemicals that mitigate those symptoms. Interestingly, irilone, identified from red clover, potentiated progesterone signaling via a progesterone response element luciferase (PRE/Luc) assay. Potentiation is when a compound has no activity by itself but when combined with another molecule, i.e. progesterone, that compound enhances PR activity. Prior to irilone, a natural compound with the ability to potentiate progesterone signaling had not been previously reported. The purpose of this study was to determine the mechanism of action of irilone. We hypothesized that irilone was potentiating PR by blocking PR degradation and by altering PR post-translational modifications. Irilone was found to potentiate 5 nM P4 using a PRE-luciferase assay in both T47D and Ishikawa PR expressing cells. Since PR is a downstream target gene of ER, we investigated if irilone also had ER activity. Irilone increased expression of an ERE-luciferase reporter gene. Next, we investigated if irilone could stabilize PR degradation and if irilone altered PR phosphorylation via western blot. Irilone was found to increase PR protein levels, but when ER was blocked, this was mitigated. In the presence of P4, irilone did not increase phosphorylation of serine 294 on PR. Future studies will determine if irilone is altering sumoylation of PR, and if irilone can potentiate PR signaling in vivo. Determining how irilone is potentiating progesterone will help us understand PR biology and could be an effective treatment for gynecological diseases by enhancing endogenous progesterone action.

LPA1 Receptor Promotes Progesterone Receptor Phosphorylation through PKCα in Human Glioblastoma Cells.

Lysophosphatidic acid (LPA) induces a wide range of cellular processes and its signaling is increased in several cancers including glioblastoma (GBM), a high-grade astrocytoma, which is the most common malignant brain tumor. LPA1 receptor is expressed in GBM cells and its signaling pathways activate protein kinases C (PKCs). A downstream target of PKC, involved in GBM progression, is the intracellular progesterone receptor (PR), which can be phosphorylated by this enzyme, increasing its transcriptional activity. Interestingly, in GBM cells, PKCα isotype translocates to the nucleus after LPA stimulation, resulting in an increase in PR phosphorylation. In this study, we determined that LPA1 receptor activation induces protein-protein interaction between PKCα and PR in human GBM cells; this interaction increased PR phosphorylation in serine400. Moreover, LPA treatment augmented VEGF transcription, a known PR target. This effect was blocked by the PR selective modulator RU486; also, the activation of LPA1/PR signaling promoted migration of GBM cells. Interestingly, using TCGA data base, we found that mRNA expression of LPAR1 increases according to tumor malignancy and correlates with a lower survival in grade III astrocytomas. These results suggest that LPA1/PR pathway regulates GBM progression.

Intracellular Progesterone Receptor and cSrc Protein Working Together to Regulate the Activity of Proteins Involved in Migration and Invasion of Human Glioblastoma Cells.

Glioblastomas are the most common and aggressive primary brain tumors in adults, and patients with glioblastoma have a median survival of 15 months. Some alternative therapies, such as Src family kinase inhibitors, have failed presumably because other signaling pathways compensate for their effects. In the last ten years, it has been proven that sex hormones such as progesterone (P4) can induce growth, migration, and invasion of glioblastoma cells through its intracellular progesterone receptor (PR), which is mostly known for its role as a transcription factor, but it can also induce non-genomic actions. These non-classic actions are, in part, a consequence of its interaction with cSrc, which plays a significant role in the progression of glioblastomas. We studied the relation between PR and cSrc, and its effects in human glioblastoma cells. Our results showed that P4 and R5020 (specific PR agonist) activated cSrc protein since both progestins increased the p-cSrc (Y416)/cSrc ratio in U251 and U87 human glioblastoma derived cell lines. When siRNA against the PR gene was used, the activation of cSrc by P4 was abolished. The co-immunoprecipitation assay showed that cSrc and PR interact in U251 cells. P4 treatment also promoted the increase in the p-Fak (Y397) (Y576/577)/Fak and the decrease in p-Paxillin (Y118)/Paxillin ratio, which are significant components of the focal adhesion complex and essential for migration and invasion processes. A siRNA against cSrc gene blocked the increase in the p-Fak (Y576/Y577)/Fak ratio and the migration induced by P4, but not the decrease in p-Paxillin (Y118)/Paxillin ratio. We analyzed the potential role of cSrc over PR phosphorylation in three databases, and one putative tyrosine residue in the amino acid 87 of PR was found. Our results showed that P4 induces the activation of cSrc protein through its PR. The latter and cSrc could interact in a bidirectional mode for regulating the activity of proteins involved in migration and invasion of glioblastomas.

Evaluation of Expression and Phosphorylation of Progesterone Receptor in Endometrial Stromal Cells of Patients with Recurrent Implantation Failure Compared to Healthy Fertile Women

Recurrent implantation failure (RIF) is the repeated failure of good-quality embryos in implantation process following several assisted reproduction cycles. Disruption of the endometrial receptivity is one of the main causes of RIF. Progesterone plays a pivotal role in the endometrial receptivity through the regulation of gene expression pattern by binding to its receptors in the endometrial cells. The aim of this study was to evaluate the expression level of progesterone receptor (PR) and its phosphorylated form in the endometrial stromal cells (eSC) of RIF patients and compare it to the eSC of healthy fertile women as control group. After isolation of the eSC from biopsy samples of RIF patients and healthy fertile women and their characterization, expression levels of PR mRNA, PR protein, and phospho-Ser294 PR protein were evaluated by quantitative real-time PCR and immunofluorescence staining, respectively. The results demonstrated a significant reduction in PR mRNA expression (P < 0.01.) and phospho-Ser294 PR protein (P < 0.05) level in RIF patients compared to the control group. These data for the first time suggest that the expression of PR and its phosphorylated form are impaired in RIF patients. Therefore, designing therapeutic methods for improving PR expression status and its regulation in the endometrium of RIF patients may help in improving the final reproductive outcomes of these cases.

ER\u03b1-36 regulates progesterone receptor activity in breast cancer

BackgroundAlterations in estrogen and progesterone signaling, via their respective receptors, estrogen receptor alpha (ERα) and progesterone receptor (PR), respectively, are largely involved in the development of breast cancer (BC). The recent identification of ERα-36, a splice variant of ERα, has uncovered a new facet of this pathology. Although ERα-36 expression is associated with poor prognosis, metastasis development, and resistance to treatment, its predictive value has so far not been associated with a BC subtype and its mechanisms of action remain understudied.MethodsTo study ERα-36 expression in BC specimens, we performed immunochemical experiments. Next, the role of ERα-36 in progesterone signaling was investigated by generating KO clones using the CRISPR/CAS9 technology. PR signaling was also assessed by proximity ligation assay, Western blotting, RT-QPCR, and ChIP experiments. Finally, proliferation assays were performed with the IncuCyte technology and migration experiments using scratch assays.ResultsHere, we demonstrate that ERα-36 expression at the plasma membrane is correlated with a reduced disease-free survival in a cohort of 160 BC patients, particularly in PR-positive tumors, suggesting a crosstalk between ERα-36 and PR. Indeed, we show that ERα-36 interacts constitutively with PR in the nucleus of tumor cells. Moreover, it regulates PR expression and phosphorylation on key residues, impacting the biological effects of progesterone.ConclusionsERα-36 is thus a regulator of PR signaling, interfering with its transcriptional activity and progesterone-induced anti-proliferative effects as well as migratory capacity. Hence, ERα-36 may constitute a new prognostic marker as well as a potential target in PR-positive BC.

Effect of 1,25(OH)2-vitamin D3 on expression and phosphorylation of progesterone receptor in cultured endometrial stromal cells of patients with repeated implantation failure

Repeated implantation failure (RIF) occurs in a condition when good quality embryos fail to implant in the endometrium following several in vitro fertilization (IVF) cycles. Suboptimal endometrial receptivity is one of the main underlying factors that causes this failure. Progesterone is the key regulator of endometrial receptivity which regulates gene expression through binding to its receptors in the endometrial stromal cells (eSC). The aim of this study was to evaluate the effect of 1,25(OH)2-vitamin D3 on progesterone receptor (PR) expression level and its phosphorylation on Ser294 residues in eSC of RIF patients and healthy fertile women. After isolation of the eSC from biopsy samples of RIF patients and healthy fertile women and their characterization, the cells were incubated with vitamin D3 and the expression level of PR mRNA, PR protein and phospho-Ser294 PR protein were evaluated after treatment. The results showed that vitamin D3 treatment increases PR mRNA and protein level and phospho-Ser294 PR protein level in the isolated eSC of both RIF patients and the control group. These results suggest that vitamin D3 may possibly play a key role during the embryo implantation process by affecting the expression pattern and regulatory modifications of the PR in the eSC.

Interleukin-1β inhibits estrogen receptor-α, progesterone receptors A and B and biomarkers of human endometrial stromal cell differentiation: implications for endometriosis

Human blastocyst nidation in the uterus and successful pregnancy require coordinated endometrial expression of estrogen receptor (ER)-α, progesterone receptors (PR)-A and -B and the gap junction protein, connexin (Cx)43. Our prior work established that inflammation associated with conditions of reduced fecundity, particularly endometriosis, can perturb eutopic decidual function. In the current studies, we have modeled endometrial decidualization in primary human endometrial stromal cell cultures derived from normal controls (NESC) and from the eutopic endometria of women with endometriosis (EESC) to test the hypothesis that a proinflammatory cytokine, interleukin (IL)-1β, can disrupt stromal cell differentiation. The cells were grown under a standard protocol with hormones (10nM 17β-estradiol, 100nM progesterone and 0.5mM dibutyryl cAMP) for up to 7days in the absence or presence of IL-1β. Time-course experiments showed that IL-1β compromised decidual function in both NESC and EESC, which was accompanied by rapid phosphorylation of ER-α, PR and Cx43 and their cellular depletion. Inhibition of the extracellular signal-regulated kinase (ERK)1/2 pathway by a selective pharmacological blocker (PD98059) or siRNA interference, or the addition of hormones themselves, blocked the phosphorylation of ERK mediators; increased the production of steroid receptors, Cx43, prolactin, insulin-like growth factor binding protein-1 (IGFBP)-1 and vascular endothelial growth factor (VEGF) and accelerated the differentiation. The results indicate that inhibition of IL-1β can enhance decidualization in NESC and EESC in vitro. Strategies to interfere with this pathway might be implemented as an in vivo approach to enhance fertility in women with endometriosis and, potentially, other inflammatory pathologies.

Abstract P5-05-06: Progesterone receptor (PR) isoform-specific expansion of breast cancer stem-like cells occurs through a phospho-PR/FOXO1 driven signaling axis

Abstract Luminal breast cancers account for ˜75% of cases and are positive for progesterone receptor (PR) and estrogen receptor (ER) expression. PR is a classical ER-target gene and is used as a biomarker of ER activity; however, a growing body of evidence supports the role of PR as an important modifier of ER actions and a key driver of luminal breast cancer progression. Progesterone signaling is mediated by two PR isoforms: full-length PR-B and truncated PR-A, which lacks the N-terminal 164 amino acids. Little is known about PR isoform-specific actions in PR-expressing breast tumors, given that total PR expression is measured clinically. Herein, we sought to identify phenotypic differences in luminal breast cancer cells (T47D) overexpressing PR-A (T47D-YA) or PR-B (T47D-YB). We demonstrate that PR-B expression is required for anchorage-independent colony formation, while PR-A expressing cells fail to proliferate in soft agar. PR-B driven proliferation has been mapped to PR phosphorylation events, which include MAPK or CDK consensus sites such as Ser294. We demonstrate that in contrast to previous reports, PR-A is well phosphorylated at Ser294 in response to progestins (e.g. R5020) using our custom phospho-PR (Ser294) polyclonal antibody. Interestingly, Ser294 phosphorylation of PR-A occurs more rapidly and robustly following hormone treatment compared to PR-B expressing cells. Our findings indicate that PR-A is a dominant driver of stem-like expansion in breast cancer cells. PR-A tumorspheres exhibited enriched ALDH+ and CD44+/CD24- populations compared to PR-B and promoted heightened gene expression of stem-like genes (e.g. FOXO1). We demonstrate that the PR target gene and co-activator FOXO1 promotes both PR-A and PR-B phosphorylation at Ser294 and augments tumorsphere formation. Direct inhibition of FOXO1 levels abrogates phospho-PR (Ser294) levels and tumorsphere formation in PR expressing cells. Finally, we show that Ser294 is required for PR-A induced expression of stem-like genes (e.g. FOXO1) and stem-like behavior as measured by ALDH+/CD44+ tumorspheres. Taken together, our data reveal unique functions of PR isoforms as modulators of distinct and opposing pathways (i.e. proliferation versus stem-like expansion) in luminal breast cancer models. A clear understanding of PR isoform-specific actions, phosphorylation events, and the role of co-factors such as FOXO1 may lead to novel biomarkers of advanced tumor behavior and reveal new approaches to pharmacologically target PR isoforms in luminal breast cancers. Citation Format: Truong TH, Dwyer AR, Diep CH, Lange CA. Progesterone receptor (PR) isoform-specific expansion of breast cancer stem-like cells occurs through a phospho-PR/FOXO1 driven signaling axis [abstract]. In: Proceedings of the 2018 San Antonio Breast Cancer Symposium; 2018 Dec 4-8; San Antonio, TX. Philadelphia (PA): AACR; Cancer Res 2019;79(4 Suppl):Abstract nr P5-05-06.

Abstract B36: Progesterone receptor signaling in estrogen receptor-positive breast cancer

Abstract Approximately 65% of breast cancers are estrogen receptor alpha (ERα)-positive and depend on ERα signaling for growth. Clinical data indicate that ERα-positive breast cancers have a better prognosis when another hormone receptor, the progesterone receptor (PR), is coexpressed. Recent studies show that in the presence of its ligand progesterone, PR redirects ERα chromatin binding and transcriptional activity, thereby impacting prognosis and therapeutic response. To further examine PR function, we knocked out the PGR gene in the ERα-positive breast cancer cell lines MCF-7 and T47D using CRISPR-mediated gene editing. Knockout clones from each model were analyzed for ER- and PR-mediated transcriptional activity and gene expression profile, as well as response to selective estrogen receptor degraders (SERDs). The T47D cell line expresses high levels of PR in the presence or absence of estrogen, and stimulation with progesterone induces robust PR phosphorylation and modulation of PR target gene expression. Furthermore, progesterone attenuates estradiol-induced cell proliferation in a dose-dependent manner. Knockout of PR in this model abrogates the ability of progesterone to induce gene expression changes or attenuate estradiol-induced cell proliferation. In contrast, the MCF-7 cell line expresses low basal levels of PR, and is refractory to stimulation with progesterone. Interestingly, in estrogenic growth media, knockout of PR in this model results in basal gene expression changes that resemble a gene signature associated with tamoxifen resistance. Consistent with these findings, knockout of PR reduces the response to SERDs in a 5-day cell proliferation assay. ChIP-seq and RNA-seq analyses are ongoing to examine how loss of PR impacts ERα chromatin binding and transcriptional output. Citation Format: Amy Young, Jane Guan, Anneleen Daemen, Lori Friedman, Kui Lin. Progesterone receptor signaling in estrogen receptor-positive breast cancer [abstract]. In: Proceedings of the AACR Special Conference: Advances in Breast Cancer Research; 2017 Oct 7-10; Hollywood, CA. Philadelphia (PA): AACR; Mol Cancer Res 2018;16(8_Suppl):Abstract nr B36.

Inhibiting Nuclear Phospho-Progesterone Receptor Enhances Antitumor Activity of Onapristone in Uterine Cancer.

Although progesterone receptor (PR)-targeted therapies are modestly active in patients with uterine cancer, their underlying molecular mechanisms are not well understood. The clinical use of such therapies is limited because of the lack of biomarkers that predict response to PR agonists (progestins) or PR antagonists (onapristone). Thus, understanding the underlying molecular mechanisms of action will provide an advance in developing novel combination therapies for cancer patients. Nuclear translocation of PR has been reported to be ligand-dependent or -independent. Here, we identified that onapristone, a PR antagonist, inhibited nuclear translocation of ligand-dependent or -independent (EGF) phospho-PR (S294), whereas trametinib inhibited nuclear translocation of EGF-induced phospho-PR (S294). Using orthotopic mouse models of uterine cancer, we demonstrated that the combination of onapristone and trametinib results in superior antitumor effects in uterine cancer models compared with either monotherapy. These synergistic effects are, in part, mediated through inhibiting the nuclear translocation of EGF-induced PR phosphorylation in uterine cancer cells. Targeting MAPK-dependent PR activation with onapristone and trametinib significantly inhibited tumor growth in preclinical uterine cancer models and is worthy of further clinical investigation. Mol Cancer Ther; 17(2); 464-73. ©2017 AACR.

Fibroblast growth factor signalling induces loss of progesterone receptor in breast cancer cells.

We have recently demonstrated that, fibroblast growth factor 2 (FGFR2), signalling via ribosomal S6 kinase 2 (RSK2), promotes progression of breast cancer (BCa). Loss of progesterone receptor (PR), whose activity in BCa cells can be stimulated by growth factor receptors (GFRs), is associated with poor patient outcome. Here we showed that FGF7/FGFR2 triggered phosphorylation of PR at Ser294, PR ubiquitination and subsequent receptor`s degradation via the 26S proteasome pathway in BCa cells. We further demonstrated that RSK2 mediated FGF7/FGFR2-induced PR downregulation. In addition, a strong synergistic effect of FGF7 and progesterone (Pg), reflected in the enhanced anchorage-independent growth and cell migration, was observed. Analysis of clinical material demonstrated that expression of PR inversely correlated with activated RSK (RSK-P) (p = 0.016). Patients with RSK-P(+)/PR(–) tumours had 3.629-fold higher risk of recurrence (p = 0.002), when compared with the rest of the cohort. Moreover, RSK-P(+)/PR(–) phenotype was shown as an independent prognostic factor (p = 0.006). These results indicate that the FGF7/FGFR2-RSK2 axis promotes PR turnover and activity, which may sensitize BCa cells to stromal stimuli and contribute to the progression toward steroid hormone negative BCa.

Human Parturition Involves Phosphorylation of Progesterone Receptor-A at Serine-345 in Myometrial Cells.

The hypothesis that phosphorylation of progesterone receptor (PR) isoforms, PR-A and PR-B, in myometrial cells affects progesterone action in the context of human parturition was tested. Immunodetection of phosphoserine (pSer) PR forms in term myometrium revealed that the onset of labor is associated with increased phosphorylation of PR-A at serine-345 (pSer345-PRA) and that pSer345-PRA localized to the nucleus of myometrial cells. In explant cultures of term myometrium generation of pSer345-PRA was induced by interleukin-1β and dependent on progesterone, suggesting that pSer345-PRA generation is induced by a proinflammatory stimulus. In the hTERT-HMA/B human myometrial cell line, abundance of pSer345-PRA was induced by progesterone in a dose- (EC50 ∼1 nM) and time-dependent manner. Prevention of pSer345 (by site-directed mutagenesis) abolished the capacity for PR-A to inhibit anti-inflammatory actions of progesterone mediated by PR-B but had no effect on the transrepressive activity of PR-A at a canonical progesterone response element. Taken together, the data show that human parturition involves the phosphorylation of PR-A at serine-345 in myometrial cells and that this process is ligand dependent and induced by a proinflammatory stimulus. We also found that in myometrial cells, pSer345 activates the capacity for PR-A to inhibit antiinflammatory actions of progesterone mediated by PR-B. Phosphorylation of PR-A at serine-345 may be an important functional link between tissue-level inflammation and PR-A-mediated functional progesterone withdrawal to trigger parturition.

Progesterone Receptor Phosphorylation is Associated to Claudin 1and 6 Expression and Pregnancy Success in ART-Treated Women

The success in infertility hormonal treatments and achieving a successful pregnancy is of great importance among infertile couples. Consequently the need to define new endometrial markers to evaluate the real impact of treatments is pressing. Since blastocyst implantation in a functional endometrium in the so- called window of receptivity is strongly associated to progesterone, our aim was to correlate the level of expression of progesterone-dependent claudins-1, -2, -3, -4, -5 and -6, αvβ3 integrin, LIF and progesterone receptor with pregnancy success in endometrial biopsies of primary infertile women. Endometrium was obtained during the secretory phase of the menstrual cycle from eight healthy and fertile women and 48 primary infertile women aged 30-47 years old being treated in the Infertility Clinic, Hospital Angeles del Pedregal, Mexico. Immunohistochemical analysis of the biopsies was performed with monoclonal and polyclonal antibodies reactive to claudins-1 to -6, LIF, αvβ3 integrin, progesterone receptor (PR) and its phosphorylated form (pPR). Sera obtained the same day of the biopsy were used to determine anti-Mullerian hormone concentration. The results showed that less claudin-1 and -6, LIF and integrin αvβ3 abundance together with pPR was associated with successful pregnancy in 20 of the women, the remaining 28 did not became pregnant but interestingly pPR could not be detected. In conclusion the examination of claudin-1 and -6 together with the phosphorylation of PR in the endometrial biopsies of infertile women under ART protocols will help predict greater successful pregnancy.

Understanding the regulation of pituitary progesterone receptor expression and phosphorylation.

Administration of human FSH (hFSH) during the diestrus phase in cyclic rats is followed by a reduction in the preovulatory LH surge. This inhibitory action of FSH involves a decrease in the stimulatory effect of gonadotrope progesterone receptor (PR) activation, in a ligand-dependent (progesterone) and -independent (GNRH) manner. PR activation and action are mandatory for LH surge, and are dependent on the phosphorylation of serine (Ser) residues. Together with this post-translational modification, PR is marked for downregulation by proteasome machinery. These experiments used the western blotting technique to measure pituitary expression of PR-A and PR-B isoforms and phosphorylation levels of Ser294 and Ser400 PR-B in rats bearing i) hFSH treatment or ii) PR downregulation. Treatment with hFSH reduced LH secretion and increased that of estradiol in proestrus afternoon. hFSH injections, without altering PR-A and PR-B content or ratio, caused a reduction in phosphorylation of Ser294 and Ser400 but only when pituitaries were previously challenged with progesterone or GNRH for 2 h. However, while pSer294 levels increased after 2 h of pituitary incubation with progesterone or GNRH, those of pSer400 were not modified by these in vitro treatments. Finally, progesterone had a biphasic effect: in 2-h incubations increased pituitary PR-A and PR-B content, but after 8 h caused downregulation and altered PR-A:PR-B ratio. The results provide a potential mechanism through which LH levels are decreased by hFSH administration and better understanding of the control of PR expression and phosphorylation in rat pituitaries.

A Role for Site-Specific Phosphorylation of Mouse Progesterone Receptor at Serine 191 in Vivo

Progesterone receptors (PRs) are phosphorylated on multiple sites, and a variety of roles for phosphorylation have been suggested by cell-based studies. Previous studies using PR-null mice have shown that PR plays an important role in female fertility, regulation of uterine growth, the uterine decidualization response, and proliferation as well as ductal side-branching and alveologenesis in the mammary gland. To study the role of PR phosphorylation in vivo, a mouse was engineered with homozygous replacement of PR with a PR serine-to-alanine mutation at amino acid 191. No overt phenotypes were observed in the mammary glands or uteri of PR S191A treated with progesterone (P4). In contrast, although PR S191A mice were fertile, litters were 19% smaller than wild type and the estrous cycle was lengthened slightly. Moreover, P4-dependent gene regulation in primary mammary epithelial cells (MECs) was altered in a gene-selective manner. MECs derived from wild type and PR S191A mice were grown in a three-dimensional culture. Both formed acinar structures that were morphologically similar, and proliferation was stimulated equally by P4. However, P4 induction of receptor activator of nuclear factor-κB ligand and calcitonin was selectively reduced in S191A cultures. These differences were confirmed in freshly isolated MECs. Chromatin immunoprecipitation analysis showed that the binding of S191A PR to some of the receptor activator of nuclear factor-κB ligand enhancers and a calcitonin enhancer was substantially reduced. Thus, the elimination of a single phosphorylation site is sufficient to modulate PR activity in vivo. PR contains many phosphorylation sites, and the coordinate regulation of multiple sites is a potential mechanism for selective modulation of PR function.