The ellagic acid metabolites urolithin A and B differentially affect growth, adhesion, motility, and invasion of endometriotic cells in vitro.

STUDY QUESTION: What are the effects of plant-derived antioxidant compounds urolithin A (UA) and B (UB) on the growth and pathogenetic properties of an in vitro endometriosis model? SUMMARY ANSWER: Both urolithins showed inhibitory effects on cell behavior related to the development of endometriosis by differentially affecting growth, adhesion, motility, and invasion of endometriotic cells in vitro. WHAT IS KNOWN ALREADY: Endometriosis is one of the most common benign gynecological diseases in women of reproductive age and is defined by the presence of endometrial tissue outside the uterine cavity. As current pharmacological therapies are associated with side effects interfering with fertility, we aimed at finding alternative therapeutics using natural compounds that can be administered for prolonged periods with a favorable side effects profile. STUDY DESIGN, SIZE, DURATION: In vitro cultures of primary endometriotic stromal cells from 6 patients subjected to laparoscopy for benign pathologies with histologically confirmed endometriosis; and immortalized endometrial stromal (St-T1b) and endometriotic epithelial cells (12Z) were utilized to assess the effects of UA and UB on endometriotic cell properties. Results were validated in three-dimensional (3D) in vitro co-culture spheroids of 12Z and primary endometriotic stroma cells of one patient, and organoids from 3 independent donors with endometriosis. PARTICIPANTS/MATERIALS, SETTING, METHODS: The effects on cell growth were measured by non-radioactive colorimetric assay to measure cellular metabolic activity as an indicator of cell viability (MTT assay) and flow cytometric cell cycle assay on primary cultures, St-T1b, and 12Z. Apoptosis analyses, the impact on in vitro adhesion, migration, and invasion were evaluated in the cell lines. Moreover, Real-Time Quantitative Reverse Transcription polymerase chain reaction (RT-qPCR) assays were performed on primary cultures, St- T1b and 12Z to evaluate a plausible mechanistic contribution by factors related to proteolysis (matrix metalloproteinase 2, 3 and 9 -MMP2, MMP3, MMP9-, and tissue inhibitor of metalloproteinases -TIMP-1-), cytoskeletal regulators (Ras-related C3 botulinum toxin substrate 1 -RAC1-, Rho-associated coiled-coil containing protein kinase 2 -ROCK2-), and cell adhesion molecules (Syndecan 1 -SDC1-, Integrin alpha V-ITGAV-). Finally, the urolithins effects were evaluated on spheroids and organoids by formation, viability, and drug screen assays. MAIN RESULTS AND THE ROLE OF CHANCE: 40 µM UA and 20 µM UB produced a significant decrease in cell proliferation in the primary endometriotic cell cultures (P < 0.001 and P < 0.01, respectively) and in the St-T1b cell line (P < 0.001 and P < 0.05, respectively). In St-T1b, UA exhibited a mean half-maximum inhibitory concentration (IC50) of 39.88 µM, while UB exhibited a mean IC50 of 79.92 µM. Both 40 µM UA and 20 µM UB produced an increase in cells in the S phase of the cell cycle (P < 0.01 and P < 0.05, respectively). The same concentration of UA also increased the percentage of apoptotic ST-t1b cells (P < 0.05), while both urolithins decreased cell migration after 24 h (P < 0.001 both). Only the addition of 5 µM UB decreased the number of St-T1b adherent cells. TIMP-1 expression was upregulated in response to treating the cells with 40 µM UA (P < 0.05). Regarding the 12Z endometriotic cell line, only 40 µM UA decreased proliferation (P < 0.01); while both 40 µM UA and 20 µM UB produced an increase in cells in the G2/M phase (P < 0.05 and P < 0.01, respectively). In this cell line, UA exhibited a mean IC50 of 40.46 µM, while UB exhibited a mean IC50 of 54.79 µM. UB decreased cell migration (P < 0.05), and decreased the number of adherent cells (P < 0.05). Both 40 µM UA and 20 µM UB significantly decreased the cellular invasion of these cells; and several genes were altered when treating the cells with 40 µM UA and 10 µM UB. The expression of MMP2 was downregulated by UA (P < 0.001), and expression of MMP3 (UA P < 0.001 and UB P < 0.05) and MMP9 (P < 0.05, both) were downregulated by both urolithins. Moreover, UA significantly downregulated ROCK2 (P < 0.05), whereas UB treatment was associated with RAC1 downregulation (P < 0.05). Finally, the matrix adhesion receptors and signaling (co)receptors SDC1 and ITGAV were downregulated upon treatment with either UA or UB (P < 0.01 and P < 0.05, respectively in both cases). Regarding the effects of urolithins on 3D models, we have seen that they significantly decrease the viability of endometriosis spheroids (80 µM UA and UB: P < 0.05 both) as well as affecting their area (40 µM UA: P < 0.05, and 80 µM UA: P < 0.01) and integrity (40 µM UA and UB: P < 0.05, 80 µM UA and UB: P < 0.01). On the other hand, UA and UB significantly inhibited organoid development/outgrowth (40 and 80 µM UA: P < 0.0001 both; 40 µM UB: P < ns-0.05-0.001, and 80 µM UB: P < 0.01-0.001-0.001), and all organoid lines show urolithins sensitivity resulting in decreasing viability (UA exhibited a mean IC50 of 33.93 µM, while UB exhibited a mean IC50 of 52.60 µM). LARGE-SCALE DATA: N/A. LIMITATIONS, REASONS FOR CAUTION: This study was performed on in vitro endometriosis models. WIDER IMPLICATIONS OF THE FINDINGS: These in vitro results provide new insights into the pathogenetic pathways affected by these compounds and mark their use as a potential new therapeutic strategy for the treatment of endometriosis. STUDY FUNDING/COMPETING INTEREST(S): This study was funded EU MSCA-RISE-2015 project MOMENDO (691058). The authors have no conflicts of interest to declare.

A Pituitary cell type coexpressing messenger ribonucleic acid of proopiomelanocortin and the glycoprotein hormone alpha-subunit in neonatal rat and chicken: rapid decline with age and reappearance in vitro under regulatory pressure of corticotropin-releasing hormone in the rat.

Promiscuous hormone mRNA expression in the pituitary remains poorly understood. We examined by means of RT-PCR and immunostaining whether glycoprotein hormone alpha-subunit (alphaGSU) could be coexpressed with proopiomelanocortin (POMC) in vivo and under pressure of CRH in vitro. Cells coexpressing alphaGSU and POMC mRNA amounted to 2.6% of the cells in ex vivo rat pituitary at birth [postnatal d 1 (P1)], fell to much lower level at P14, and were undetectable in adulthood. In cultured pituitary aggregates of P14 rats, alphaGSU/POMC cells remained scarce but represented up to 6.6% after chronic treatment with CRH but not leukemia inhibitory factor. CRH was less effective in aggregates from P1 and adult rats. The total alphaGSU population ex vivo at P1 was two times smaller than at P14, but in culture it expanded 2.5 times, concomitantly with a reciprocal change in POMC cell abundance. Tpit transcripts were detected in POMC-only and alphaGSU/POMC cells but not in alphaGSU-only cells. Cells coexpressing alphaGSU and POMC mRNA were relatively abundant in P14 chicken pituitary and aggregate cultures, but occurrence was not affected by CRH. Immunostaining showed alphaGSU and POMC colocalization in sporadic cells in intact rat pituitary and CRH-treated cultures at P1 but not at P14 and adult age. The data demonstrate the occurrence of cells coexpressing alphaGSU and POMC in rat and chicken pituitary. The developmental dynamics of this cell population and its response to CRH in vitro in the rat suggest a relationship of these cells with the embryonic branching of the POMC and alphaGSU cell lineages and their mutually opposite developmental course during early postnatal life.

Triiodothyronine expands the lactotroph and maintains the lactosomatotroph population, whereas thyrotrophin-releasing hormone augments thyrotroph abundance in aggregate cell cultures of postnatal rat pituitary gland.

In the present study, we used a three-dimensional pituitary cell culture system from early postnatal rats to examine the in vitro developmental potential of triiodothyronine (T3) and thyrotrophin-releasing hormone (TRH). Cell types were identified at the hormone mRNA level by single-cell reverse transcription-polymerase chain reaction and any change in abundance was further examined by immunofluorescence staining of the corresponding hormone protein. In aggregates from 14-day-old rats, long-term (12-16 days) treatment with T3 (0.5 nM) increased the abundance of cells expressing prolactin mRNA (PRLmRNA cells) by 2.5-fold and lowered that of nonhormonal cells and thyroid-stimulating hormone beta (TSHbeta)mRNA cells. The abundance of growth hormone (GH)mRNA cells decreased during culture compared to that in the freshly dispersed pituitary gland and T3 did not significantly affect this cell population. Cells coexpressing PRL mRNA and GH mRNA virtually disappeared during culture but reappeared in the presence of T3. T3 increased the abundance of PRL-immunoreactive (ir) cells in aggregates from 14-day-old rats, as well as in aggregates from newborn and 1-week-old rats. As estimated by bromodeoxyuridine (BrdU) labelling, a 3-day treatment with T3 enhanced the number of PRL-ir cells that had incorporated BrdU, but did not yet expand the total population of PRL-ir cells. Long-term treatment with TRH (100 nM) did not affect the proportion of PRLmRNA or GHmRNA cells, but consistently increased the proportional number of TSHbeta(mRNA) and TSHbeta-ir cells. The present data confirm the findings obtained in recent in vivo loss of function genetic studies suggesting that T3 plays a prominent role in postnatal expansion of the lactotroph population and that TRH is important for thyrotroph development. The data suggest that the effect of T3 is brought about by a direct action on the pituitary gland through a cell proliferation mechanism. T3 also appears to support the lactosomatotroph population. In view of the established theory that lactotrophs develop from GH-expressing progenitor cells and that this is a post mitotic event, we propose that T3 is mitogenic for GHmRNA cells that lack GH-ir material and that transdifferentiate into PRL-ir cells, but that a pathway of PRL cell development from mitotic nonhormonal cell progenitors may also be involved.

Combinatorial expression of phenotypes of different cell lineages in the rat and mouse pituitary.

As studied by single cell RT-PCR of pituitary hormones, we demonstrated that the pituitaries of rats and mice contain a subpopulation of cells that express two or more hormone phenotypes typically belonging to lineages that are branched separately early during embryonic development, such as glycoprotein hormone alpha-subunit (alphaGSU) mRNA + PRL mRNA, alphaGSU mRNA + POMC mRNA, and POMC mRNA + GH or PRL mRNA. GnRH in vitro selectively expands the population of cells coexpressing alphaGSU mRNA + PRL mRNA, and CRH selectively increases the proportion of cells coexpressing alphaGSU mRNA + POMC mRNA. Colocalization of alphaGSU + PRL or alphaGSU + POMC could not be detected by double immunofluorescence. This lineage promiscuity was also observed in the pituitary in vivo.

Melanocortin peptides stimulate prolactin gene expression and prolactin accumulation in rat pituitary aggregate cell cultures.

Treatment for 40 h of reaggregate pituitary cell cultures from 14-day-old female rats with nanomolar concentrations of gamma3-melanocyte-stimulating hormone (MSH) increased prolactin mRNA but not growth hormone (GH) mRNA expression levels as measured by quantitative real-time reverse transcriptase-polymerase chain reaction (RT-PCR). During the 40 h incubation, gamma3-MSH stimulated prolactin accumulation in the culture medium. alpha-MSH, a potent agonist of the rat melanocortin-3 receptor (MC3R) and Ala(8)-gamma2-MSH, a very weak agonist of the MC3R, increased prolactin mRNA expression at a similar concentration range as gamma3-MSH. The effect of gamma3-MSH on prolactin mRNA expression was abolished when aggregates were cultured in the presence of thyroid or glucocorticoid hormones, but not of oestradiol. By contrast, oestradiol abolished the stimulatory effect of Ala(8)-gamma2-MSH on prolactin mRNA expression. In GH3 cells stably transfected with the enhanced green fluorescent protein (eGFP) gene under control of a 3-kb prolactin promoter fragment, a dose as low as 1 nMgamma3-MSH, added for 24 h, significantly increased eGFP fluorescence. Agouti-related protein (AgRP(83-132)), a known endogenous MC3R and MC4R antagonist, did not reduce the stimulation of prolactin mRNA expression by gamma3-MSH or Ala(8)-gamma2-MSH. On its own, AgRP(83-132) significantly increased prolactin mRNA expression level and prolactin accumulation. Both gamma2-MSH and Ala(8)-gamma2-MSH increased [S(35)]GTPgammaS binding in membrane preparations of 14-day-old rat pituitaries and of GH3 cells. Whereas MC3R and MC5R mRNA were detectable by RT-PCR in normal pituitary, these receptor mRNAs were undetectable in GH3 cells using various oligonucleotide primer sets. The present findings indicate that melanocortin peptides stimulate prolactin gene expression and production and that, at least in part, a receptor different from the classic MCR is involved. AgRP appears to have other actions than its known antagonistic activity on the MC3R and MC4R.

Stimulation of combinatorial expression of prolactin and glycoprotein hormone alpha-subunit genes by gonadotropin-releasing hormone and estradiol-17beta in single rat pituitary cells during aggregate cell culture.

Previously we showed the existence of rat and mouse anterior pituitary cells coexpressing mRNA from two or more hormone genes in which production and/or storage of the corresponding hormones were not detectable. To substantiate a putative function for these cells, we investigated whether these phenotypes were retained during long-term reaggregate cell culture and whether protagonist regulatory factors could expand cell populations expressing particular hormone mRNA combinations. After 4-wk culture and treatments, aggregates were trypsinized and single cells collected by means of a fluo-rescence-activated cell sorter. Hormone mRNAs were detected by single-cell RT-PCR. Combinatorial hormone mRNA expression was retained in culture. Both estradiol (E2) and GnRH (1 nM) markedly augmented the proportion of cells expressing prolactin (PRL) mRNA together with other hormone mRNAs and cells expressing glycoprotein subunit (GSU)-alpha mRNA together with other hormone mRNAs. GnRH strongly increased the proportion of cells containing alphaGSU mRNA alone, but E2 did not. GnRH and (E2) affected the expansion of a population (approximately 20% of all cells) coexpressing PRL and alphaGSU mRNA without betaGSUs. Immunostaining of stored hormone on tissue sections revealed colocalization of PRL and alphaGSU in the E2- but not in the GnRH-treated cells. The present findings suggest that cells coexpressing different pituitary hormone mRNAs form a distinct population that survives without extrapituitary factors. Their occurrence can be markedly modified by regulatory factors. Certain hormone regimens favor unique coexpressions distinctly at mRNA and protein level. These peculiar characteristics support the notion that combinatorial expression of hormone genes in the pituitary serves a biological role.

Isolation and structure-bioactivity characterization of glycosylated N-pro-opiomelanocortin isoforms.

The N-terminal fragment of mouse pro-opiomelanocortin (N-POMC) was isolated from AtT-20 cell-conditioned medium on the basis of immunoreactivity to an anti-POMC1-50 monoclonal antibody by a concentration step, a cation exchange step, reversed phase high-performance liquid chromatography (HPLC) and size exclusion HPLC. Two groups of N-POMC isoforms with a molecular weight (MW) of approximately 11 kDa and 13 kDa, respectively, were identified by mass spectrometry and N-terminal amino acid sequencing. C-terminal sequencing indicated that 11 kDa isoforms correspond to POMC1-74 and 13 kDa isoforms to POMC1-95. Isoforms from both groups enhanced the prolactin mRNA content (measured by means of TaqMan real-time reverse transcription-polymerase chain reaction) in cultured rat pituitary cell aggregates in a dose-dependent manner, but not all of them showed this activity. POMC1-74 compounds were significantly more potent than POMC1-95 isoforms. The observed effects were abolished by coincubation with the monoclonal anti-POMC1-50 antibody, showing the specificity of this biological action. Incorporation of bromodeoxyuridine into DNA of immunostained lactotrophs was enhanced by only a minor part of the isoforms. Some of these had no effect on prolactin mRNA expression. The N-POMC isoforms appeared to be N- and at least in part O-glycosylated. After enzymatic N-deglycosylation of selected N-POMC isoforms, the stimulatory effect on the prolactin mRNA level was depressed (in case of the POMC1-95 isoforms) or totally abolished (in case of the POMC1-74 isoforms). The present findings show that N-POMC is a mixture of differentially glycosylated isoforms, that the isoforms of POMC1-74 are the biologically more effective forms and that different isoforms induce different biological responses in the same cell population. The data also show the essential role of N-glycosylation in the biological response.

Ontogeny of plurihormonal cells in the anterior pituitary of the mouse, as studied by means of hormone mRNA detection in single cells.

The expression of mRNA of growth hormone (GH), prolactin (PRL), pro-opiomelanocortin (POMC) and the common glycoprotein hormone alpha-subunit (alphaGSU) was studied by means of single cell reverse transcriptase-polymerase chain reaction in male mouse pituitary cells at key time points of fetal and postnatal development: embryonic day 16 (E16); postnatal day 1 (P1) and young-adult age (P38). At E16, the hormone mRNAs examined were detectable, although only in 44% of total cells. Most of the hormone-positive cells expressed only one of the tested hormone mRNAs (monohormonal) but 14% of them contained more than one hormone mRNA (plurihormonal cells). Combinations of GH mRNA with PRL mRNA, of alphaGSU mRNA with GH and/or PRL mRNA and of POMC mRNA with GH and/or PRL mRNA or alphaGSU mRNA were found. As expected, the proportion of hormone-positive cells rose as the mouse aged. The proportions of plurihormonal cells followed a developmental pattern independent of that of monohormonal cells and characteristic for each hormone mRNA examined. Cells coexpressing POMC mRNA with GH or PRL mRNA significantly rose in proportion between E16 and P1, while the proportion of cells coexpressing GH and PRL mRNA markedly increased between P1 and P38. The occurrence of cells displaying combined expression of alphaGSU mRNA with GH and/or PRL mRNA did not significantly change during development. Remarkably, the population of cells expressing PRL mRNA only, was larger at E16 than at P1 and expanded again thereafter. In conclusion, the normal mouse pituitary develops a cell population that is capable of expressing multiple hormone mRNAs, thereby combining typical phenotypes of different cell lineages. These plurihormonal cells are already present during embryonic life. This population is of potential physiological relevance because development-related factors appear to determine which hormone mRNAs are preferentially coexpressed. Coexpression of multiple hormone mRNAs may represent a mechanism to respond to temporally increased endocrine demands. The data also suggest that the control of combined hormone expression is different from that of single hormone expression, raising questions about the current view on pituitary cell lineage specifications.

Combined expression of different hormone genes in single cells of normal rat and mouse pituitary.

Cells displaying combined expression of different pituitary hormone genes (further referred to as 'multi-hormone mRNA cells') were identified in normal rat and mouse pituitary by single cell RT-PCR. These cells do not seem to produce or store all the respective hormones the mRNAs encode for. The cells are already developed at day 16 of embryonic life (E16) in the mouse. Different peptides, such as gamma3-melanocyte-stimulating hormone (gamma3-MSH) and gonadotropin-releasing hormone (GnRH), affect different subsets of these cells. In culture, estrogen and GnRH increase the number of 'multi-hormone mRNA cells' that contain prolactin (PRL) mRNA or mRNA of the alpha-subunit of the glycoprotein hormones (alpha-GSU) but not the number of 'multi-hormone mRNA cells' not containing PRL or alpha-GSU mRNA. 'Multi-hormone mRNA cells' may function as 'reserve cells' in which a particular hormone mRNA may be translated under a particular physiological condition demanding a rapid increase of that hormone.

Alpha B-crystallin expression in human and rat hepatic stellate cells.

BACKGROUND/AIMS: We searched for factors implicated in early hepatic stellate cell (HSC) activation in diseased liver, by means of suppression subtractive hybridization (SSH). METHODS: SSH was performed between messenger RNA (mRNA) from normal rat HSC and mRNA from HSC, isolated from rats with acute D-galactosamine (Gal)-induced hepatitis. RESULTS: One of the potentially upregulated factors which we found was alpha B-crystallin (ABCRYS), a small heat-shock protein and a chaperone known to protect the cell against protein degradation in conditions of cellular stress and known to associate with various types of intermediate filaments. Upregulation of ABCRYS mRNA in HSC, following Gal-intoxication (3.5-fold) as well as by culturing the HSC on plastic (20-30-fold), was confirmed by quantitative real-time reverse transcription polymerase chain reaction. The expression of ABCRYS protein in human and rat HSC was demonstrated by immunohistochemistry, in vitro and in vivo, in normal and diseased liver. Double-staining co-localized ABCRYS immunoreactivity with alpha-smooth muscle actin immunoreactivity in human liver and with desmin immunoreactivity in rat liver. In vivo upregulation of ABCRYS protein following Gal-intoxication was also shown, by comparison with desmin expression. CONCLUSIONS: Human and rat HSC express ABCRYS mRNA and protein. Both are rapidly upregulated following HSC activation.

Production of recombinant rat proopiomelanocortin1-74 and characterization of its mitogenic action on pituitary lactotrophs.

We report the production of biologically active recombinant rat Gly-2-Ser-1-POMC1-74 (rrPOMC1-74) in a prokaryotic expression system. The polypeptide was produced as a fusion protein with glutathione-S-transferase (GST), using the pGEX-4T-1 vector and subsequently cleaved by thrombin. Amino acid sequencing, up to residue 45, showed a correct primary structure including the two additional amino acids at the N-terminus, Gly and Ser, derived from the thrombin cleavage site. Electrospray ionization mass spectrometry showed a Mr of 8358.5 Da which was 14-16 Da heavier (oxidation or methylation) than the calculated mass. Combined digestion with trypsin and endoproteinase Glu-C followed by MALDI-TOF mass spectrometry and N-terminal sequencing of the separated fragments showed a correct disulphide bridge configuration. In reaggregate cell cultures of immature rat pituitary, rrPOMC1-74 displayed biological activity similar to that of natural human (h) POMC1-76 or rat POMC1-74: it stimulated DNA replication in lactotrophs but not in other pituitary cell types. However, its efficacy was significantly lower than that of the natural product. Gamma3-MSH, a peptide that can be generated from POMC1-74 and a typical ligand of the melanocortin-3 (MC-3) receptor, also stimulated DNA replication in lactotrophs and, in contrast to rrPOMC1-74, also in somatotrophs and thyrotrophs. rrPOMC1-74 increased cAMP levels in 293HEK cells stably transfected with the MC-3 receptor with an intrinsic activity and potency similar to that of gamma3-MSH. However, natural hPOMC1-76 was inactive in the latter test system. These data show that rrPOMC1-74 mimics the selective mitogenic action of natural POMC1-74 on lactotrophs. Since natural POMC1-74 is N- and O-glycosylated and rrPOMC1-74 is not, glycosylation does not seem to determine the selectivity for lactotrophs. In spite of the feature that rrPOMC1-74 is an agonist at the MC-3 receptor and the reported evidence that the MC-3 receptor is expressed in the anterior pituitary, the mitogenic action of rrPOMC1-74 on lactotrophs does not seem to be mediated by the MC-3 receptor.

Target cells of gamma3-melanocyte-stimulating hormone detected through intracellular Ca2+ responses in immature rat pituitary constitute a fraction of all main pituitary cell types, but mostly express multiple hormone phenotypes at the messenger ribonucleic acid level. Refractoriness to melanocortin-3 receptor blockade in the lacto-somatotroph lineage.

Gamma3-MSH has recently been shown to be a biologically active peptide in the rat anterior pituitary. It induces a sustained rise in intracellular free calcium levels ([Ca2+]i) in a relatively small population of immature pituitary cells. The present study was intended to identify the target cells of this peptide and to discern the signal-transducing melanocortin (MC) receptor. In dispersed pituitary cells from 14-day-old rats, increasing doses of gamma3-MSH (0.1, 1, and 10 nM) evoked a sustained oscillating [Ca2+]i rise in an increasing number of cells (up to 14.5%). Within the responsive cells, 53% showed GH immunoreactivity (-ir), 12% showed PRL-ir, 2% showed TSHbeta-ir, 5% showed LHbeta-ir, and 10% showed ACTH-ir, whereas 18% did not express any hormone-ir to a detectable level. As assessed by single cell RT-PCR for the presence of pituitary hormone messenger RNA (mRNA), 26% of the gamma3-MSH-responsive cells contained only GH mRNA, 5% contained only PRL mRNA, and 4% contained only TSHbeta mRNA. Twenty-two percent contained mRNA of GH, PRL, and TSHbeta in various dual or triple combinations. About 24% of the gamma3-MSH-responsive cells expressed POMC mRNA, mostly together with other mRNAs, i.e. with GH mRNA and/or PRL mRNA or with mRNA of GH, PRL, and TSHbeta. Eighteen percent of the responsive cells expressed LHbeta, all of them together with mRNA of GH, PRL, and TSHbeta in various combinations. The absence of hormone mRNA was found in less than 1% of the responsive cells. In cells chosen at random (representative of the total pituitary cell population), the proportion of cells expressing two or multiple hormone mRNAs was twice as low as that in the gamma3-MSH-responsive population, whereas the proportion of cells expressing a single hormone mRNA was twice as high (about two thirds of all cells). Moreover, unlike in the gamma3-MSH-responsive cell population, randomly chosen cells were found that coexpressed POMC mRNA with LHbeta mRNA. The effect of gamma3-MSH on [Ca2+]i was blocked by the MC-3 receptor antagonist SHU9119 (used up to a 1000-fold excess) in 46% or less of the responsive cells. SHU9119 failed to block the [Ca2+]i response to gamma3-MSH in PRL-, GH-, and TSHbeta-ir cells, but it did block the response in most ACTH-ir cells and in cells expressing no hormone to a detectable level. Single cell RT-PCR revealed that expression of MC-3 receptor mRNA was detected in only 16% of gamma3-MSH-responsive cells. The present data suggest that the target cells of gamma3-MSH in terms of [Ca2+]i responses in the immature rat pituitary constitute subpopulations of all main pituitary cell types, including nonhormonal (or low expression hormonal) cells. However, in contrast to the total pituitary cell population, most of these cells display multilineage gene activation at the mRNA level, i.e. express mRNA of GH, PRL, TSHbeta, POMC, and LHbeta in dual, triple, or quadruple combinations. Although gamma3-MSH may act through the MC-3 receptor in a portion of these cells, most of these cells (mainly in the lacto-somatotroph lineage) may transduce the signal through another receptor or through an MC-3 receptor with unconventional binding characteristics.

Targeted ablation of gonadotrophs in transgenic mice affects embryonic development of lactotrophs.

Ablation of pituitary gonadotrophs was obtained in transgenic mice expressing diphtheria toxin A (DTA) under control of the -313/+48 bovine glycoprotein hormone alpha-subunit (alphaSU) promoter, previously shown to be active in mouse gonadotrophs but not in thyrotrophs. Development of hormone-producing cell types was assessed on the day of birth by computer-assisted image analysis on paraffin-embedded, immunostained pituitary sections. Six out of 50 transgenic F0 ('founder') mice (3 males and 3 females) showed a nearly complete disappearance of gonadotrophs but not of thyrotrophs. The number of lactotrophs and the relative area occupied by PRL-immunoreactivity were significantly reduced in the gonadotroph-depleted mice. The size of lactotroph clusters was smaller in the absence of gonadotrophs. The number and immunoreactive area of corticotrophs and somatotrophs, on the other hand, were not significantly affected by gonadotroph ablation. Based on the reported evidence that fetal ovaries do not produce steroid hormones as a result of lack of expression of at least three of the steroidogenic enzymes, P450scc, P450c17, and P450arom, the present observations can hardly be explained by a decline in estrogen levels due to gonadotroph ablation. Rather, the present data indicate that gonadotrophs directly stimulate the development of lactotrophs during fetal and early postnatal life, consistent with previous in vitro observations, and/or that gonadotrophs may share a cell-lineage relationship with a subpopulation of lactotrophs.

Detection of melanocortin-3 receptor mRNA in immature rat pituitary: functional relation to gamma3-MSH-induced changes in intracellular Ca2+ concentration?

We have previously shown that gamma3-MSH stimulates DNA replication in lactotrophs, somatotrophs and thyrotrophs of early postnatal rat pituitary in culture. Since the melanocortin-3 (MC-3) receptor is the only known receptor displaying high affinity for gamma3-MSH, the present study explored whether mRNA of the latter receptor is present in the pituitary and whether the receptor is functional. RT-PCR of RNA extracts from 14-day-old rat pituitary revealed the presence of MC-3 receptor mRNA in both the anterior and the neurointermediate lobe. The identity of the amplified products was confirmed by sequence analysis. Dispersed cells of 14-day-old female rats (24 h in culture) were exposed to gamma3-MSH, and changes in intracellular free calcium levels ([Ca2+]i) were assessed by means of fluo-3 video imaging. Gamma3-MSH evoked a rapid and maintained oscillating [Ca2+]i increase in 5%, 10% and 15% of the cells at a dose of 0.1, 1 and 10 nM, respectively. The MC-3/MC-4 receptor antagonist Ac-Nle4-c[Asp5,(D-Nal(2)7,Lys10]alpha-MSH-(4-10)-NH2 (SHU 9119) blocked the effect of gamma3-MSH in about 50% of the responsive cells. The present data suggest that the MC-3 receptor is expressed in the rat pituitary but that this receptor mediates only half of the effects of its putative ligand, gamma3-MSH, on [Ca2+]i. Part of the effect of gamma3-MSH may be mediated by a MC-3 receptor in a functional state different from the one studied previously in transfected cell lines or by a hitherto unidentified MC receptor.

Paracrine communication in the anterior pituitary as studied in reaggregate cell cultures.

The classical image of the endocrine system is that secretory function of a gland is regulated from outside that gland by other organs. Focused on the pituitary gland, hormone secretion by the anterior lobe is under control of peptides and biogenic amines produced by the hypothalamus. About a decade ago, our group launched the new idea that functioning of the anterior pituitary (AP) is also regulated from within, i.e., that the constituent cell types inter-communicate to control hormone secretion. Extensive in vitro research has now provided a body of evidence that paracrine communication plays an important role, not only in regulation of hormone secretion but also in development, growth, and differentiation of the AP [reviewed in Denef (1994) The Pituitary Gland, pp. 351-378]. It further revealed that crosstalk between the cells is mediated by local, paracrine, factors. The main objective of our research is to identify those factors, their actions and the producing and target cell type(s) in order to unravel the paracrine communication network that is functional in the AP. Equally important, we set the step towards in vivo examination of the results obtained in vitro using transgenic mice. In the present article, we will review the technology used, three examples of AP cell-to-cell interactions studied, and we will discuss the value of transgenic animal models in the study of AP paracrine communication.

Inducible nitric oxide synthase in the anterior pituitary gland: induction by interferon-gamma in a subpopulation of folliculostellate cells and in an unidentifiable population of non-hormone-secreting cells.

In the context of immune-endocrine relationships, we have previously shown that interferon-gamma (IFN-gamma) inhibits hormone secretion in anterior pituitary (AP) cell cultures. The non-hormone-secreting folliculostellate (FS) cells were found to mediate this inhibitory action. Because in the immune system IFN-gamma is a strong stimulator of nitric oxide (NO) release through the induction of NO synthase (NOS), we investigated whether the inducible form of NOS (iNOS) is present in (rat) AP cell cultures, and whether its expression is stimulated by IFN-gamma. Immunocytochemistry revealed that under basal in vitro conditions only a very few AP cells contained iNOS. Treatment with IFN-gamma caused a sixfold rise in the number of iNOS-positive cells and augmented the intensity of the staining. The increased number of iNOS-expressing cells was paralleled by elevated production of NO. Some of the iNOS-positive cells extended cytoplasmic processes between hormone-secreting cells, which is a characteristic of FS cells. Immunostaining of FS cell-poor and FS cell-enriched populations (obtained by gradient sedimentation) also suggested the presence of iNOS in a subpopulation of FS cells. By double immunofluorescence techniques we found that about 65% of iNOS-expressing cells were positive for S-100, a marker protein for FS cells. However, around 80% of the S-100-positive cells were not labeled for iNOS. On the other hand, the majority of the S-100-negative iNOS-containing cells could not be further identified by antisera against the classical AP hormones, suggesting the presence of iNOS in a still unidentified non-hormone-secreting cell type of the AP gland. This report is the first to demonstrate the expression of the inducible form of NOS in the AP gland. IFN-gamma upregulates this expression, showing that cytokines may use the same signalling mechanisms in both the immune and the endocrine system. In addition, a putative new function of a subpopulation of FS cells in the paracrine regulation of the AP gland is suggested.

Involvement of nitric oxide in the interferon-gamma-induced inhibition of growth hormone and prolactin secretion in anterior pituitary cell cultures.

In previous work it was shown that the immune cytokine interferon-gamma (IFN-gamma) inhibits hormone secretion in anterior pituitary (AP) cell cultures, an action most likely mediated by folliculostellate (FS) cells. In the present study, we wanted to investigate whether nitric oxide (NO) is involved in this inhibitory action of IFN-gamma. NO synthase (NOS) inhibitors with affinity for the inducible (iNOS) and the constitutive (cNOS) isoform such as N(G)-monomethyl-L-arginine (L-NMMA) and S-methyl-L-thiocitrulline (SMLT) dose-dependently blocked the inhibitory action of IFN-gamma on GHRH-stimulated GH secretion, and partially reversed the inhibitory effect on basal prolactin (PRL) release. In the absence of IFN-gamma these inhibitors significantly augmented basal PRL release and slightly enhanced GHRH-stimulated GH release. L-N6-(1-iminoethyl)lysine (L-NIL), a NOS inhibitor with preferential affinity for iNOS, abrogated the IFN-gamma effect on GHRH-stimulated GH secretion and partially reversed IFN-gamma inhibition of PRL release. However, L-NIL did not exert a stimulatory effect on basal PRL and GHRH-stimulated GH release by its own. 2,4-diamino-6-hydroxypyrimidine (DAHP), a NOS inhibitor by interfering with tetrahydrobiopterin (BH4) cofactor availability, showed the same activity profile as L-NIL. NOS inhibitors blocked or reduced the production of NO as detected by measuring nitrite (NO2-) levels in AP cell cultures and cGMP levels in the NO-reporter cell line RFL-6. The NOS inhibiting action of L-NMMA was confirmed by competition experiments with the natural NOS substrate L-arginine. Thus, in culture medium with lower amounts of L-arginine, L-NMMA blocked the IFN-gamma-induced inhibition of GHRH-stimulated GH release at a lower dose. The inhibition of PRL and GH release by IFN-gamma was markedly reduced in L-arginine-depleted medium. The NO donor sodium nitroprusside (SNP) mimicked the inhibitory action of IFN-gamma on GHRH-stimulated GH and basal PRL release. Similarly to IFN-gamma, SNP did not affect basal GH release. As previously reported, inhibition by IFN-gamma occurred only in AP cell populations containing a minimal proportion of FS cells. As studied in different cell populations obtained by unit gravity sedimentation in a serum albumin gradient, L-NMMA reversed the IFN-gamma effect in the same populations enriched in FS cells. Interestingly, in the absence of IFN-gamma L-NMMA strongly stimulated basal PRL release in the population most enriched in FS cells. It is concluded that IFN-gamma through activation of the iNOS pathway probably in FS cells enhances the production of NO and that this effect is responsible for the inhibitory action of IFN-gamma on GHRH-stimulated GH release and partially for the IFN-gamma-induced decrease in basal PRL release. On the other hand, NO, likely produced by cNOS, appears to exert a tonic inhibitory effect on GHRH-stimulated GH and basal PRL release. It seems therefore that low amounts of NO produced constitutively may take charge of subtle physiological adaptations, and higher levels of NO produced by iNOS under the influence of IFN-gamma may attenuate PRL and GH release during emergency conditions of immune and inflammatory reactions.

The crystal structure and biological function of leukemia inhibitory factor: implications for receptor binding.

The structure of murine leukemia inhibitory factor (LIF) has been determined by X-ray crystallography at 2.0 A resolution. The main chain fold conforms to the four alpha-helix bundle topology previously observed for several members of the hematopoietic cytokine family. Of these, LIF shows closest structural homology to granulocyte colony-stimulating factor and growth hormone (GH). Sequence alignments for the functionally related molecules oncostatin M and ciliary neurotrophic factor, when mapped to the LIF structure, indicate regions of conserved surface character. Analysis of the biological function and receptor specificity of a series of human-mouse LIF chimeras implicate two regions of receptor interaction that are located in the fourth helix and the preceding loop. A model for receptor binding based on the structure of the GH ligand-receptor complex requires additional, novel features to account for these data.

Immunocytochemical evidence that S-100-positive cells of the mouse anterior pituitary contain interleukin-6 immunoreactivity.

We have previously shown that bioactive interleukin-6 (IL-6) is produced by rat and mouse (anterior) pituitary cells in vitro. Since the amount produced correlated with the presence of S-100-containing folliculostellate (FS) cells, these cells were suggested to be a source of IL-6 in the anterior pituitary (AP) lobe. In the present study we used immunocytochemical techniques to confirm this presumption. Freshly isolated mouse pituitary cells were subjected to immunocytochemical procedures whereby two different (neutralizing) monoclonal antibodies (MAb) against mouse IL-6 (6B4 and 20F3) and a polyclonal antiserum raised against bovine S-100 were used as primary antibodies. Single immunostaining revealed a small portion of mouse pituitary cells (about 6.5%) to be positive for IL-6 immunoreactivity with both antibodies. Importantly, the same proportion of cells was found to be IL-6 positive if only the AP was used as the cell source. About 7.5% of the pituitary cells stained for the presence of S-100 immunoreactivity. Positive staining for IL-6 was also found in pituitary cell samples from 2-day-old monolayer cultures and from redispersed 9-day-old histotypic aggregates, which both secreted bioassayable IL-6. In contrast, no IL-6 staining was found in AtT-20 cells, an established ACTH-secreting tumor cell line of the mouse pituitary which did not secrete bioactive IL-6. The specificity of the IL-6 immunostaining was demonstrated by a total loss of staining when MAb 6B4 was omitted or replaced by irrelevant rat IgG. Conclusively, pre-adsorption of the anti-IL-6 MAb (6B4) with recombinant mouse IL-6 totally abolished staining of pituitary cells. Double immunostaining for IL-6 and S-100 revealed that most if not all of the IL-6-containing pituitary cells were positive for S-100. Few of the S-100-containing cells did not stain for IL-6. These results confirm our previous hypothesis that FS cells, characterized by immunostaining of S-100 protein, contain bioactive and immunoreactive IL-6 and therefore are very likely producers of IL-6 in the AP. Furthermore, our results suggest that IL-6 is implicated in the local regulatory role ascribed to FS cells in the pituitary gland.

Evidence that folliculo-stellate cells mediate the inhibitory effect of interferon-gamma on hormone secretion in rat anterior pituitary cell cultures.

Interferon-gamma (IFN-gamma) is known to inhibit the release of ACTH, PRL, and GH by rat anterior pituitary (AP) cells, stimulated by appropriate hypothalamic releasing factors. In the present study we examined the mechanisms underlying this inhibition. Dose-response studies, revealing a maximal inhibitory effect with an IFN-gamma dose as small as 10 U/ml, suggested the existence of a limiting intermediate step. In addition, in perifusion experiments with aggregates of established hormone-secreting tumor cell lines (AtT-20 and GH3), IFN-gamma had no inhibitory effect, suggesting that an accessory cell type was involved. Studies on differentially enriched cell populations of normal rat AP, obtained by velocity and buoyant density sedimentation, indicated that the inhibitory effect of IFN-gamma on stimulated ACTH and GH release was absent in those populations that contained only few folliculo-stellate (FS) cells. The presence of a minimal proportion of FS cells was found to be necessary for the inhibition to be manifest. This was seen in monolayers, but also in cultures of AP cell aggregates, which are well known to closely mimic the behavior of the AP gland in vivo. Definitive evidence for the role of FS cells was obtained by reconstitutive coculture experiments; FS cell-poor populations, which by themselves resisted the inhibitory effect of IFN-gamma, became sensitive when cocultured with an FS cell-rich population. Basal ACTH and GH release were not influenced by preincubation with IFN-gamma in either original or fractionated AP cell populations. In contrast, basal PRL release was inhibited in both systems. In cultures of AP cell populations, separated by velocity sedimentation, this inhibition showed a pattern similar to that observed for stimulated release of ACTH and GH, i.e. more inhibition in fractions with a higher proportion of FS cells. However, in FS cell-poor cultures, inhibition of basal PRL release did occur, although to a lesser degree than in FS cell-rich cultures. Our results indicate that IFN-gamma affects AP hormone secretion through the FS cell. In addition, they suggest that IFN-gamma and the FS cell constitute a system through which the pituitary gland perceives changes in the activation state of the immune system.