Expression of macrophage inflammatory protein-1beta in human endometrium: its role in endometrial recruitment of natural killer cells

Human endometrium is infiltrated by natural killer (NK) cells throughout the menstrual cycle. The number of endometrial NK cells is low in the proliferative phase, but acutely increases after ovulation, and reaches a peak in the late secretory phase, suggesting that endometrium recruits these leukocytes selectively from circulating peripheral blood. We investigated the expression of macrophage inflammatory protein (MIP)-1beta, a potential chemoattractant for NK cells, in the endometrium. RT-PCR and ELISA revealed that MIP-1beta is expressed in the endometrium throughout the menstrual cycle at both the message and protein levels. MIP-1beta expression is stronger in the secretory phase endometrium than in the proliferative phase endometrium. Immunohistochemistry revealed that MIP-1beta is localized in the surface epithelial cells, glandular epithelial cells, and perivascular stromal cells throughout the menstrual cycle. Stromal cells in a wider perivascular area became immunoreactive in the secretory phase. There was a strong correlation between the endometrial MIP-1beta concentration and the number of endometrial NK cells. Progesterone significantly induced MIP-1beta secretion from cultured endometrial stromal cells, whereas 17beta-estradiol had a weak effect. These results suggest that endometrial MIP-1beta may be involved in the recruitment of NK cells from circulating peripheral blood.     

Evidence for the presence of protease-activated receptor 2 and its possible implication in remodeling of human endometrium

Protease-activated receptor 2 (PAR2) is activated by various proteases released from the leukocytes, such as neutrophils and mast cells. Because these leukocytes reside in the endometrium, we speculated that PAR2 might be activated there. In this study, we investigated the presence and possible roles of PAR2 in the endometrium. During the menstrual cycle, the expression of PAR2 mRNA in human endometrial tissues is increased from the late secretory phase to the menstrual phase and in early pregnancy. In vitro, PAR2 agonist peptide (PAR2AP) stimulated IL-8 production in both endometrial epithelial cells (EECs) and stromal cells (ESCs). PAR2AP also stimulated the mRNA expression of stem cell factor, a known activator for mast cells, in ESCs, and activated matrix metalloproteinase-7, an epithelial cell-specific matrix metalloproteinase, in EECs. In addition, PAR2AP significantly increased the 5-bromo-2'-deoxyuridine incorporation in ESCs. PAR2AP induced the phosphorylation of three MAPKs, i.e. p38 MAPK, p42/44 MAPK, and stress-activated protein kinase/c-Jun N-terminal kinase, in ESCs. Inhibitors of all three MAPKs inhibited PAR2AP-induced secretion of IL-8 in both EECs and ESCs. This is the first report demonstrating the presence of PAR2 in the human endometrium. The increased expression of PAR2 around the menstrual period, its up-regulation of molecules important for endometrial remodeling, and its mitogenic effect on endometrial cells raise the expectation of the possible involvement of PAR2 in menstruation and other architectural changes of the endometrium occurring during the menstrual cycle. MAPKs may mediate PAR2 functions in these processes.     

Lysophosphatidic acid mediates interleukin-8 expression in human endometrial stromal cells through its receptor and nuclear factor-kappaB-dependent pathway: a possible role in angiogenesis of endometrium and placenta

Lysophosphatidic acid (LPA) is a pleiotropic phospholipid molecule involved in inflammation, angiogenesis, would healing, and cancer invasion. Whereas serum lysophospholipase D activity increases in women with pregnancy, the role of LPA in pregnancy remains unclear. We investigated the expression of LPA receptors and function of LPA in endometrial stromal cells. Histologically normal endometrium was obtained from surgical specimens of women undergoing hysterectomy for leiomyoma. First-trimester decidua was obtained from women receiving elective termination of pregnancy. We examined the expressions of LPA1, LPA2, and LPA3 receptors in endometrial stromal cells. The effects of LPA on the expression of vascular endothelial growth factor, IL-6, and IL-8 were examined. Signal pathways of LPA were delineated. Functions of secretory angiogenic factors were tested using human endometrial microvascular endothelial cells. Immunoreactivity and mRNA of LPA1 receptors were identified in endometrial stromal cells. LPA enhanced IL-8 expression in a dose- and time-dependent manner, whereas vascular endothelial growth factor or IL-6 expression was not affected by LPA treatment. Mechanistic dissection disclosed that LPA functioned via the Gi protein, MAPK/p38 and nuclear factor-kappaB pathway. LPA-induced IL-8 enhanced migration, permeability, capillary tube formation, and proliferation of human endometrial microvascular endothelial cells. Endometrial stromal cells express LPA1 receptors. Through the LPA1 receptor, LPA induces IL-8 expression via a nuclear factor-kappaB-dependent signal pathway. These results could suggest that LPA may play a role in angiogenesis of endometrium and placenta through induction of IL-8 in endometrial stromal cells during pregnancy.     

Identification of chemokines important for leukocyte recruitment to the human endometrium at the times of embryo implantation and menstruation

Human endometrium possesses a unique immunological environment enabling implantation of the semiallogeneic embryo. Large populations of macrophages and uterine-specific natural killer cells infiltrate the implantation site, believed to be important modulators of trophoblast invasion and decidualization. In the absence of pregnancy, there is a dramatic influx of neutrophils, eosinophils, and macrophages, likely to be critical for focal inflammatory endometrial destruction. However, little is known regarding selective recruitment of leukocyte subtypes. We employed a gene array approach to analyze the expression of 21 chemokines in endometrium. Real-time RT-PCR and immunohistochemistry was conducted to verify expression patterns and determine cellular source. Nine chemokines were highly abundant in human endometrium: monocyte chemotactic protein-3, eotaxin, fractalkine, macrophage inflammatory protein-1beta, 6Ckine, IL-8, hemofiltrate CC chemokine-1 and -4, and macrophage-derived chemokine. Chemokine mRNA was generally up-regulated during endometrial receptivity and early pregnancy, particularly of macrophage and natural killer chemoattractants. Chemokine protein was predominantly localized to epithelial glands, whereas differentiated stromal cells were a major source of chemokines after decidualization. This is the first study to use an unbiased approach to screen for endometrial chemokines, and we report the selective regulation of chemokines, corresponding to the recruitment of distinct leukocyte subpopulations required for pregnancy and menstruation.     

Progesterone metabolism in normal human endometrium during the menstrual cycle and in endometrial carcinoma.

Different subcellular fractions (purity checked by electron microscopy and respective marker enzymes) were incubated with 0.1 muCi 14C-progesterone (10 muM) in 0.15 M phosphate buffer at pH 7.4 and 37 C under air for varying periods of time in the presence of NAD(P)H (500 muM). By the preparation of chromic acid oxidation products and acetates, thin-layer chromatography, and crystallisation to constant specific activity, the following metabolites were identified: 20alpha-hydroxypregn-4-en-3-one, 20alpha-hydroxy-5alpha-pregnan-3-one, 20alpha-hydroxy-5beta-pregnan-3-one, 5alpha-pregnane-3,20-dione, and 5beta-pregnane-3,20-dione, indicating the presence of a 20alpha-hydroxysteroid dehydrogenase (20alpha-HSD) and 5alpha- and 5beta-reductases. Most of the 20alpha-HSD activity was located in mitochondria (associated mainly with outer membranes) and microsomes. Purified nuclei and cytosol contained 1/6 to 1/18 of the activity of mitochondria and microsomes, respectively. SUBFRACTIONS OF ENDOMETRIAL CELLS ONLY CONTAINED EITHER 5ALPHA- OR 5BETA-REDUCTASE ACTIVITY. 5alpha-reductase activity was mainly associated with microsomes, 5beta-reductase activity was found only in the cytosol. While in normal endometrium specific enzyme activities in subcellular fractions depended on the phase of the cycle, in endometrial carcinoma it depended on the degree of tumour differentiation. The highest values of 5alpha-reductase activity were found in the early proliferative phase. 20alpha-HSD activity was highest in the middle of the secretory phase. The specific activity of the 5alpha-reductase increased with decreasing differentiation of the tumour while the specific activity of the 20alpha-HSD decreased. Kinetic parameters (Km-values, coenzyme requirements and maximum velocities) were determined. The Km-value for progesterone of the 20alpha-HSD in proliferative endometrium was significantly higher than in secretory endometrium, while the Km-values of the 5alpha- and 5beta-reductases were considerably lower during the proliferative than secretory phase.     

Stem cells in human normal endometrium and endometrial cancer cells: characterization of side population cells

Recently, adult stem cells have been identified in several mature tissues. The human endometrium is responsive to sex steroid hormone. It undergoes extraordinary growth in a cyclic manner and is shed and regenerated throughout a woman's lifetime. It has been proposed that the human endometrium may contain a population of stem cells, which are responsible for its remarkable regenerative ability. It is also suggested that stem-like cells exist in cancer tissues. Stem-like cell subpopulations, referred to as "side population" (SP) cells, have been identified in several tissues and tumors based on their ability to efflux the fluorescent dye Hoechst 33342. Recently, we isolated and characterized the SP cells in normal human endometrium and in an endometrial cancer (EC) cell line. Endometrial SP cells can function as progenitor cells. EC SP cells show the following: (1) reductions in the expression levels of differentiation markers; (2) long-term repopulating properties; (3) self-renewal capacity; (4) enhancement of migration and podia formation; (5) enhancement of tumorigenicity; and (6) bipotent developmental potential (tumor cells and stroma-like cells), suggesting that these SP cells have cancer stem-like cell features. We review the articles that show the presence of stem cells in normal endometrium and EC cells and demonstrate the results of our studies.     

Oligoclonal expression of T-cell receptor Beta variable genes in normal human endometrium

In spite of their key role in various immunological processes occurring in the endometrium, T cells- especially ab+ subtype- residing in this mucosal tissue, have not been extensively explored. We present here the profile of expressed genes for variable region of b chain of T cell receptor (TCR) in normal endometrium as compared to peripheral blood. Samples from endometrium were taken from normal fertile women during routine check-up by Pipelle pipette or after hysterectomy operation. Total RNA from both blood and endometrial samples was extracted and RT-PCR using BV gene specific primers was performed. After southern blotting, hybridization with radiolabelled specific probe and autoradiography, relative expression of each BV family was determined. Clonal expansions of the over-expressed genes were studied by determining their CDR3 length polymorphism. A total of 12 blood and 14 endometrial samples were collected. Only one TCRBV gene (TCRBV7) was expressed significantly more and 3 genes less frequently in the endometrium compared to blood. Also, two other genes (TCRBV10 and 12) were found marginally more frequent in the endometrium. As for their clonality, all 3 TCRBV genes examined here showed a rather restricted (oligoclonal) and in some cases, very restricted (probably monoclonal) pattern in the endometrium in contrast to polyclonal patterns in the blood. Our results indicate the similarities between T cells residing in different mucosal tissues and support their common recruitment and functional potentials. Moreover, our findings provide a basis for future investigations about endometrial T cell involvement and their antigen specificities in different gynecological problems.     

In vivo evidence for active matrix metalloproteinases in human endometrium supports their role in tissue breakdown at menstruation

Human endometrium remodels extensively during each reproductive cycle culminating in loss of most functionalis tissue at menstruation. Evidence suggests that menstruation results from the action of the matrix metalloproteinases (MMP), enzymes secreted in latent forms. MMP activation is thus an important regulatory step. It has not been established that MMPs are active within menstrual endometrium in vivo. We used in situ zymography to demonstrate active forms of MMPs in human endometrium across the normal menstrual cycle. Both gelatinase and collagenase activities were detected in most endometrial tissues. Semiquantitation demonstrated a substantial and significant increase in both gelatinase and collagenase activity in menstrual samples compared with those at any other time of the cycle. Gelatinase activity was both associated with cells and extracellular. All collagenase activity was extracellular. Immunoreactive MMP-2 and MMP-9 colocalized with active gelatinase, although much immunoreactive gelatinase was inactive. Some gelatinase activity colocalized with CD45(+) leukocytes. Menstruation is initiated at discrete foci, and active MMPs were similarly at foci within the tissue. This is the first in vivo evidence for increased active MMPs in menstrual endometrium compared with other stages of the cycle. These findings position the MMPs for a critical role in the matrix degradation at menstruation.     

Multiple, targeted deficiencies in selectins reveal a predominant role for P-selectin in leukocyte recruitment

We extend our previous analyses of mice deficient in selectins by describing the generation and comparative phenotype of mice lacking one, two, or three selectins after sequential ablation of the murine genes encoding P-, E-, and L-selectins. All mice deficient in selectins are viable and fertile as homozygotes. However, mice missing both P- and E-selectins (PE(-/-)), and mice missing all three selectins (ELP(-/-)) develop mucocutaneous infections that eventually lead to death. Mice deficient in multiple selectins display varying degrees of leukocytosis, resulting in part from alterations in leukocyte rolling and recruitment. PE(-/-) mice, ELP(-/-) mice, and mice missing both P- and L-selectins (PL(-/-)) show drastic reductions in leukocyte rolling and in extravasation of neutrophils in thioglycollate-induced peritonitis. In a separate inflammatory model (ragweed-induced peritoneal eosinophilia), we demonstrate P-selectin to be both necessary and sufficient for the recruitment of eosinophils. The phenotype of mice missing both E- and L-selectins (EL(-/-)) is less severe than those seen in the other double knockouts. Comparisons among the double knockouts suggest that P-selectin normally cooperates with both E- and L-selectins. Our results indicate a preeminent role for P-selectin in regulating leukocyte behavior in mice. Data from the ELP(-/-) mice indicate, however, that all three selectins are important to leukocyte homeostasis and efficient neutrophil recruitment.     

Studies on estrogen receptor in normal and cancerous human uterine endometrium by immunological methods

The presence of cytosol estrogen receptor (ER) and the ER of nuclear extracts in normal uterine endometrium and endometrial adenocarcinoma tissues were determined by radioreceptor assay (RRA) and enzyme immunoassay (EIA). In addition the intracellular localization of ER and tissue distribution of ER positive cells was demonstrated by immunocytochemical assay (ICA). The levels of cytosol ER measured by EIA and RRA had a significant correlation in normal endometrium (r = 0.90) (P less than 0.01) and endometrial adenocarcinoma (r = 0.96) (P less than 0.01) as well as in breast cancer (r = 0.93) (P less than 0.01). The ER measured by immunocytochemical method using the monoclonal anti-ER antibody obtained from breast cancer cells was applicable to the detection of the ER in uterine endometrial tissues. In endometrial adenocarcinoma, the levels of cytosol ER in G1 (Highly differentiated adenomatous carcinoma) tissues (187.6 +/- 189.0 fmoles/mg protein) were significantly higher than those in G2 (Moderately differentiated adenomatous carcinoma with partly solid areas) tissues (15.0 +/- 31.9 fmoles/mg protein) (P less than 0.05). The levels of cytosol ER peaked in the late follicular phase (432.0 fmoles/mg protein) and remained low in the other phases. Epithelial cells in the normal endometrium were stained uniformly by ICA, in contrast, ICA stained and non-stained cells existed concurrently in the same endometrial adenocarcinoma tissues. A similar finding was also shown in breast cancer tissues and may be related to the efficacy of anti-estrogenic drugs on the growth of whole cancer tissues.     

The expression and regulation of adrenomedullin in the human endometrium: a candidate for endometrial repair

After menstruation, the endometrium has a remarkable capacity for repair, but the factors involved remain undefined. We hypothesize adrenomedullin (AM) plays a role in this process. Premenstrually progesterone levels decline, stimulating prostaglandin (PG) synthesis, vasoconstriction, and hypoxia. This study aimed to determine 1) AM expression throughout the menstrual (M) cycle and 2) its regulation by PG and hypoxia. Human endometrial biopsies (n = 51) were collected with ethical approval and consent. AM mRNA expression was examined by quantitative RT-PCR and was found to be selectively elevated in endometrium from the menstrual (M) phase (P < 0.001). AM immunohistochemical staining was maximal in M and proliferative (P) endometrium. Culture of secretory, but not P, explants with 100 nm PGF(2α) or hypoxia (0.5% O2) increased AM mRNA (P < 0.05). P explants were induced to increase AM expression using in vitro progesterone withdrawal but required the presence of hypoxia (P < 0.05). Short hairpin sequences against hypoxia-inducible factor-1α (HIF-1α) inhibited AM hypoxic up-regulation but did not alter PGF(2α)-induced expression. The AM receptor was immunolocalized to endothelial cells in both lymphatic and blood vessels. Conditioned medium from PGF(2α)-treated cells increased endothelial cell proliferation and branching (P < 0.05). This was abolished by AM receptor antagonists. In conclusion, AM is elevated at the time of endometrial repair and induces both angiogenesis and lymphangiogenesis by stimulating endothelial cell proliferation and tube formation. In the human endometrium, AM expression is up-regulated by two mechanisms: a HIF-1α-mediated hypoxic induction and a HIF-1α-independent PGF(2α) pathway. These physiological mechanisms may provide novel therapeutic targets for disorders such as heavy menstrual bleeding.     

Leptin and leptin receptor are expressed in the human endometrium and endometrial leptin secretion is regulated by the human blastocyst

Embryonic implantation is a crucial event for the human reproductive function. Cytokines and paracrine molecules have been proposed as putative local regulators of this process. The leptin or the OB protein has been linked to the reproductive function and inflammatory response. In the present study, we describe for the first time the expression of leptin and leptin receptor (long form) in the secretory endometrium and that endometrial leptin secretion is regulated in vitro by the human blastocyst. Leptin and leptin receptor messenger RNA and protein were identified in secretory endometrium and in cultured endometrial epithelial cells (EECs) by RT-PCR, Western blot, and immunohistochemistry. The concentrations of immunoreactive leptin secreted by human embryos alone or cocultured with EECs were also assessed. We found that human blastocysts secrete significantly higher levels of leptin than arrested embryos. In contrast, leptin concentrations secreted by arrested embryos cocultured with EECs were significantly higher than blastocysts cocultured with EECs. These findings suggest that the human endometrium is a site for local production and a target tissue for circulating leptin. Expression of leptin and its functional receptor in the endometrium and regulation of endometrial leptin secretion by the human embryo suggests that the leptin system may be implicated in the human implantation process.     

Cyclic changes in the expression of steroid receptor coactivators and corepressors in the normal human endometrium

To examine the sex steroid-dependent growth mechanisms of the human endometrium, the expression of steroid receptor coactivators [steroid receptor coactivator-1 (SRC-1) and p300/CREB-binding protein (p300/CBP)] and corepressors (nuclear receptor corepressor and silencing mediator for retinoid and thyroid hormone receptors) was examined by immunohistochemistry, using 50 samples of normal endometria, and was compared with that of estrogen receptors (ER), progesterone receptors (PR), and proliferation marker Ki-67. In addition, actual binding of the coactivators to ER or PR was analyzed by immunoprecipitation. The expression of SRC-1 was diffusely observed in glandular and stromal cells in the proliferative phase and drastically decreased in the secretory phase. Such change in the expression pattern of SRC-1 resembled that of ER, PR, and Ki-67. On the other hand, p300/CBP expression was relatively constant throughout the menstrual cycle, with slight predominance in the proliferative phase. The expression of corepressors nuclear receptor corepressor and silencing mediator for retinoid and thyroid hormone receptors was focal in the endometrium. Immunoprecipitation, using tissue samples of both proliferative and secretory phases, revealed the complex formation between the coactivators and receptors. Binding of SRC-1 to ER was observed in the proliferative (but not in the secretory) endometrium. In contrast, binding p300/CBP to ER was noted in the endometria of both phases. Complex formation between p300/CBP and PR was noted in the secretory endometrium, whereas that between SRC-1 and PR was not apparent. Accordingly, we showed the expression pattern of steroid receptor coactivators and corepressors in the normal endometrium. Cyclic change in the expression of SRC-1 during the menstrual cycle might be important in the estrogen-action for the glandular and stromal cells.     

Conserved role for autophagy in Rho1-mediated cortical remodeling and blood cell recruitment

Dynamic regulation of cell shape underlies many developmental and immune functions. Cortical remodeling is achieved under the central control of Rho GTPase pathways that modulate an exquisite balance in the dynamic assembly and disassembly of the cytoskeleton and focal adhesions. Macroautophagy (autophagy), associated with bulk cytoplasmic remodeling through lysosomal degradation, has clearly defined roles in cell survival and death. Moreover, it is becoming apparent that proteins, organelles, and pathogens can be targeted for autophagic clearance by selective mechanisms, although the extent and roles of such degradation are unclear. Here we report a conserved role for autophagy specifically in the cortical remodeling of Drosophila blood cells (hemocytes) and mouse macrophages. Continuous autophagy was required for integrin-mediated hemocyte spreading and Rho1-induced cell protrusions. Consequently, hemocytes disrupted for autophagy were impaired in their recruitment to epidermal wounds. Cell spreading required ref(2)P, the Drosophila p62 multiadaptor, implicating selective autophagy as a novel mechanism for modulating cortical dynamics. These results illuminate a specific and conserved role for autophagy as a regulatory mechanism for cortical remodeling, with implications for immune cell function.     

Antiproliferative effect of interferon-gamma in human endometrial epithelial cells in vitro: potential local growth modulatory role in endometrium

We previously reported that recombinant interferon-gamma (IFN-gamma) induces HLA-DR (human lymphocyte antigen) molecules of the major histocompatibility complex in human endometrial epithelial cells in vitro. We now report that IFN-gamma inhibits the proliferation of human endometrial epithelial cells and a human endometrial carcinoma cell line (EnCa101AE). Human endometrial epithelial cells expressed HLA-DR molecules and underwent morphological changes when exposed to IFN. Furthermore, the proliferation of these cells, as evidenced by nuclear labeling of bromodeoxyuridine (an analog of thymidine that is incorporated into cells in S phase), was markedly reduced, in a dose-dependent manner, by IFN-gamma. IFN-gamma induced HLA-DR expression, morphological changes, shedding from the substratum, and cell death in EnCa101AE cells. In addition, cell number and the numbers of bromodeoxyuridine-, Ki-67 (a nuclear marker of proliferation)-, and MPM-2 (a marker of mitotic cells)-positive cells were markedly lower in the EnCa101AE cultures treated with IFN-gamma than those in control cultures. The cytostatic and HLA-DR-inducing effects of IFN-gamma could be abrogated by neutralization with a polyclonal antibody, and IFN-gamma effects were reversible within days after its withdrawal. These findings indicate that IFN-gamma inhibits proliferation of human endometrial epithelial cells and suggest that this factor may locally regulate the proliferation of these epithelial cells in vivo.     

The role of androgens and the androgen receptor in cycling endometrium

Androgens and the androgen receptor (AR) are not only required for male reproductive function, they are also essential for female reproductive physiology. Widely expressed in female reproductive tissues, AR levels fluctuate in a regulated manner in the cycling endometrium. Female androgen production depends on the adrenal glands and expression of key enzymes in the endometrium that facilitate local androgen biosynthesis and conversion. Moreover, levels of circulating androgens, in women of reproductive age, fluctuate in a cycle-dependent manner and a mid-cycle peak is associated with conception. AR and androgen signalling have a decisive role in the differentiation of human endometrial stromal cells into decidual cells. Compelling evidence for androgen signalling in the regulation of endometrial function pertaining to implantation and pregnancy is provided by epidemiological studies demonstrating a strong association between polycystic ovary syndrome, premature ovarian failure or advanced maternal age and adverse pregnancy outcome. Thus, androgen signalling is an essential component of normal endometrial physiology and its perturbation is associated with reproductive failure.     

Biochemical analysis of estrogen receptor and progesterone receptor in normal uterus and endometrial carcinoma

In this study, human uterine endometrial estrogen receptor (ER) and progesterone receptor (PR) in normal menstrual cycle were estimated, and biochemical characterization of ER and PR in normal endometrium and endometrial carcinoma were also investigated. Following results were obtained in this study. In normal menstrual cycle, ER and PR levels in endometrial cytosol gradually rose to peaks in the late proliferative phase, but PR in nuclear fraction rose to a peak in the early secretory phase. Scatchard analysis of ER in normal endometrium and myometrium contains two estradiol (E2) binding sites with dissociation constants (Kd) of 10(-9) M and 10(-10) M, but endometrial carcinoma contains a single population of E2 binding site with Kd's 10(-10) M. Total binding sites for ER and PR of normal endometrium have 2 approximately 3 times much more than those of endometrial carcinoma. In normal endometrium, specific binding of 40nM 3HE2 on isoelectric focusing (IEF) indicated three binding activities with elution pH's (EPH) of 4, 6 and 8. But specific binding of 2nM 3HE2 indicated only one binding activity with EPH of 6 in endometrial carcinoma. Specific binding of EPH 6 indicated high affinity ER (type 1 ER) and specific binding of EPH 8 indicated low affinity ER (type 2 ER) in the result of IEF and Scatchard analysis. Loss of type 2 receptor is important result in endometrial carcinoma. The above results suggest that increase in blood E2 level increases endometrial ER and PR, and increase in blood progesterone level after ovulation decreases endometrial ER and PR for anti-ER and PR effect of progesterone. If type 2 ER could transport hormone receptor complex to the nucleus, loss of type 2 ER would be the important cause of ER and PR decrease and get resistance of hormone therapy to endometrial carcinoma.     

Coexpression of the melatonin receptor 1 and nestin in human breast cancer specimens

Abstract:  Activation of the G-protein-coupled receptor (GPCR) for melatonin (MT1) suppresses breast cancer cell growth in experimental models. To elucidate whether MT1 might play a role in cancer cells positive for the stem cell marker nestin, we assessed paired carcinomatous (Ca) and adjacent noncancerous (NCa) samples from 42 patients with primary breast cancer for MT1 and nestin by double immunofluorescence staining and quantitative image analysis with Tissue-Quest^® software. MT1 was located in luminal and myoepithelial cells in milk ducts and in tumor cells in 40/42 and 39/42 of NCa and Ca specimens, respectively, independent of hormone receptor and HER-2 status. Nestin was located together with MT1 in myoepithelial cells in 38 NCa specimens (total n = 42) and in 18 Ca specimens with intact milk ducts. Quantitative evaluation of selected 16 NCa and Ca samples revealed that MT1 levels were higher in invasive Ca sections than in NCa specimens in eight and lower in six cases. Specimens from higher tumor stages (TII/III) with a higher risk of relapse were associated with MT1/nestin co-staining in more than 10% of tumor cells, whereas a lack of co-staining correlated with lower tumor stages. Abundant expression of MT1 and, particularly, coexpression of MT1 with nestin in invading tumor cells in more advanced tumors suggest an important role for this GPCR in the pathogenesis of breast cancer.