Identification of growth arrest and DNA-damage-inducible gene beta (GADD45beta) as a novel tumor suppressor in pituitary gonadotrope tumors

Gonadotrope and null cell pituitary tumors cause significant morbidity, often presenting with signs of hypogonadism together with visual disturbances due to mass effects. Surgery and radiation are the only therapeutic options to date. To identify dysregulated genes and pathways that may play a role in tumorigenesis and/or progression, molecular profiling was performed on 14 gonadotrope tumors, with nine normal human pituitaries obtained at autopsy serving as controls. Bioinformatic analysis identified putative downstream effectors of tumor protein 53 (p53) that were consistently repressed in gonadotrope pituitary tumors, including RPRM, P21, and PMAIP1, with concomitant inhibition of the upstream p53 regulator, PLAGL1(Zac1). Further analysis of the growth arrest and DNA damage-inducible (GADD45) family revealed no change in the p53 target, GADD45α, but identified repression of GADD45β in pituitary tumors in addition to the previously reported inhibition of GADD45γ. Overexpression of GADD45β in LβT2 mouse gonadotrope cells blocked tumor cell proliferation and increased rates of apoptosis in response to growth factor withdrawal. Stable gonadotrope cell transfectants expressing increased GADD45β showed decreased colony formation in soft agar, confirming its normal role as a tumor suppressor. Unlike previous studies of GADD45γ in pituitary tumors and α and β in other tumors, bisulfite sequencing showed no evidence of hypermethylation of the GADD45β promoter in human pituitary tumor samples to explain the repression of its expression. Thus, GADD45β is a novel pituitary tumor suppressor whose reexpression blocks proliferation, survival, and tumorigenesis. Together these studies identify new targets and mechanisms to explore in pituitary tumor initiation and progression.     

Expression and function of sonic hedgehog pathway components in pituitary adenomas: evidence for a direct role in hormone secretion and cell proliferation

CONTEXT: Sonic hedgehog (Shh) belongs to a family of signaling proteins involved in development and has been recently implicated in cancer. Shh signaling is active in the corticotrophs of the adult pituitary gland, where it cross-talks with the CRH pathway and regulates ACTH secretion. Because developmental pathways are involved in pituitary tumorigenesis, we hypothesized that Shh may be important in pituitary tumors. OBJECTIVE: The objective of this study was to examine the expression and function of Shh-pathway components in pituitary adenomas. METHODS: Using immunohistochemistry, we determined the expression of Shh and its receptors Patched 1 (Ptc1) and Patched 2 (Ptc2) in 55 human pituitary adenomas compared with the normal pituitary gland. The AtT-20 and GH3 pituitary tumor cell lines were used as models for studying the role of Shh on cell proliferation and hormone secretion. The effect of Shh on hormone secretion was confirmed in primary cultures of normal rat pituitaries and human pituitary tumors. RESULTS: Ptc1 and Ptc2 were present, whereas Shh was down-regulated in pituitary adenomas and completely absent in Cushing tumors. Shh inhibited cell proliferation in AtT-20 corticotrophinoma cells and the Shh-specific inhibitor cyclopamine increased proliferation in GH3 mammosomatotrophinoma cells. On the other hand, exogenous administration of Shh increased hormone secretion from normal rat pituitaries, pituitary cell lines, and 10 different pituitary tumors. CONCLUSIONS: Our results suggest that Shh might maintain pituitary cells in a nonproliferative state. We conclude that Shh is a newly described hypophysiotropic cytokine and its down-regulation may be involved in the pathogenesis of pituitary adenomas.     

Establishment of a series of pituitary clonal cell lines differing in morphology, hormone secretion, and response to estrogen

Four kinds of cultured clonal cell line were established from estrogen-induced mammotropic pituitary tumor. These clones showed differences of hormone secretion, morphology, and response to estrogen. One clone tentatively designated MtT/E, consisted of spindle-shaped epithelial cells and showed the strongest adhesion to the culture dish, but did not secrete any pituitary hormone. The second cell line, designated MtT/S, secreted only GH, showed very weak contact with the culture dish, and proliferated almost anchorage independently. the MtT/S cells were mainly spherical and formed floating or weakly adherent clusters. Some of them had very long dendrite- or neurite-like cell processes. Electron microscopic examination of the MtT/S cells showed a normal somatotrope-like appearance, i.e. the presence in the cytoplasm of many GH-containing secretory granules, well developed rough endoplasmic reticulum, and Golgi apparatus. Furthermore, these cells secreted GH in response to stimulation with GRF. The third cell line with an ovoid cell appearance tentatively designated MtT/SM, secreted both PRL and GH, and showed anchorage-dependent proliferation. The fourth cell line designated MtT/Se secreted only a small amount of GH. Among these newly established cell lines, MtT/Se was the smallest in size and showed estrogen-dependent proliferation. The many small secretory-like granules present in the cytoplasm of MtT/Se cells showed no immunocytochemically positive reaction for anterior pituitary hormone. MtT/S and MtT/SM cell lines were also sensitive to estrogen.     

Properties and function of heparanase in cancer metastasis and angiogenesis

Cleavage of heparan sulfate proteoglycans affects the integrity and functional state of tissues and thereby fundamental normal and pathological phenomena involving cell migration and response to changes in the extracellular microenvironment. Heparanase, degrading heparan sulfate (HS) at specific intrachain sites, is synthesized as a latent approximately 65 kDa protein that is processed at the N-terminus into a highly active approximately 50 kDa form. The heparanase enzyme is preferentially expressed in human tumors and its overexpression in low-metastatic tumor cells confers a highly invasive phenotype in experimental animals. Heparanase also releases angiogenic factors and accessory fragments of HS from the tumor microenvironment and induces an angiogenic response in vivo. These effects were best demonstrated when the enzyme was secreted and/or expressed on the cell surface. Heparanase may thus facilitate tumor cell invasion, vascularization and survival, all critical events in cancer progression. These observations, the anti-cancerous effect of heparanase-inhibiting molecules, and the unexpected identification of a single predominant functional heparanase suggest that the enzyme is a promising target for drug development.     

Bone morphogenetic protein and retinoic acid-inducible neural specific protein-3 is expressed in gonadotrope cell pituitary adenomas and induces proliferation, migration, and invasion

Pituitary tumors are common intracranial neoplasms that often result in endocrine dysfunction due to hormone overproduction or deficiencies from mass effects. Gonadotrope cell or gonadotropinomas are tumors that produce LH and/or FSH and represent 40% of macroadenomas. Little is known about their underlying pathogenic mechanisms. We compared expression profiles of 10 gonadotropinomas with nine normal pituitaries by cDNA array and identified bone morphogenetic protein- and retinoic acid-inducible neural-specific protein-3 (BRINP3) as overexpressed in tumors, compared with normals. BRINP3 is a novel, normally brain restricted protein of unknown function. BRINP3 mRNA was expressed selectively in gonadotropinomas. Subcellular localization studies showed that BRINP3 was targeted to the mitochondria, but BRINP3 overexpression was unable to protect pituitary cells against programmed cell death induced by growth factor withdrawal. However, BRINP3 overexpression in pituitary gonadotrope cells promoted proliferation, migration, and invasion. A BRINP3 antibody was raised that demonstrated clustered expression of BRINP3 protein in gonadotropinomas and not in normal human pituitary samples. Thus, BRINP3 is a mitochondrially localized protein that is selectively up-regulated in human gonadotropinomas. Its actions to increase proliferation, migration, and invasion suggest it may play an important role in pituitary tumorigenesis.     

Laminin inhibits lactotroph proliferation and is reduced in early prolactinoma development

Laminin is a component of the extracellular matrix (ECM) that regulates cell proliferation and hormone secretion. Here we describe the effects of laminin on prolactin secretion in normal and tumor cells and analyze laminin expression pattern during prolactinoma development. Prolactin secretion and cell proliferation were inhibited by laminin in GH3 cells. In contrast, no effect was observed in normal pituitary cells. Laminin showed a dynamic expression pattern during prolactinoma development, which was: (a) strong in normal pituitaries from wild type or dopamine D2 receptor deficient mice, (b) lower in pituitary hyperplasia and (c) markedly reduced in prolactinomas from D2R -/- mice. A similar gradual decrease in laminin was found by comparing normal human pituitaries, human pituitary hyperplasia and human prolactinomas. These results show dynamic changes of laminin expression during prolactinoma formation which, due to laminin action on PRL production and cell proliferation, indicate a possible role for laminin in prolactinoma development.     

Wnt pathway inhibitors are strongly down-regulated in pituitary tumors

The etiology of sporadic pituitary tumors is currently unknown. The Wnt pathways have been implicated in the pathogenesis of a variety of human tumors, but the role of these pathways in pituitary tumors is unclear. Microarray analysis using the Affymetrix HG U133 plus 2.0 GeneChips identified four secreted frizzled-related protein (sFRP) family members of Wnt pathway inhibitors that were differentially expressed in both nonfunctioning and clinically functioning pituitary tumors (n = 20) compared with normal pituitary controls (n = 3). Reduced tumor expression of Wnt inhibitory factor-1 (WIF1), sFRP2, and sFRP4 mRNA was confirmed by real-time quantitative RT-PCR (P <0.001 and P = 0.002 and 0.013, respectively) in all pituitary subtypes. Hypermethylation of the WIF1 promoter was present in 88% of the pituitary tumors (n = 41). Seventy-six percent of pituitary tumors demonstrated absent or weak cytoplasmic WIF1 staining by immunohistochemistry (n = 41), although preserved staining was seen in some functioning tumors, with strong staining in 92% of normal pituitary controls (n = 13). The Wnt pathway target gene cyclin D1 was found to be up-regulated specifically in the nonfunctioning pituitary tumors compared with controls at both mRNA and protein level, supportive of activation of the Wnt-beta-catenin pathway. Nuclear accumulation of beta-catenin, however, was not observed in any pituitary tumors (n = 70). By transfecting GH3 cells with WIF1, decreased cell proliferation and colony formation was observed compared with empty vector controls. In conclusion, our data suggest that WIF1 may be a tumor suppressor, specifically in nonfunctioning pituitary tumors, and that the Wnt pathways are important in pituitary tumorigenesis.     

Heparanase-neutralizing antibodies attenuate lymphoma tumor growth and metastasis

Heparanase is an endoglycosidase that cleaves heparan sulfate side chains of proteoglycans, resulting in disassembly of the extracellular matrix underlying endothelial and epithelial cells and associating with enhanced cell invasion and metastasis. Heparanase expression is induced in carcinomas and sarcomas, often associating with enhanced tumor metastasis and poor prognosis. In contrast, the function of heparanase in hematological malignancies (except myeloma) was not investigated in depth. Here, we provide evidence that heparanase is expressed by human follicular and diffused non-Hodgkin''s B-lymphomas, and that heparanase inhibitors restrain the growth of tumor xenografts produced by lymphoma cell lines. Furthermore, we describe, for the first time to our knowledge, the development and characterization of heparanase-neutralizing monoclonal antibodies that inhibit cell invasion and tumor metastasis, the hallmark of heparanase activity. Using luciferase-labeled Raji lymphoma cells, we show that the heparanase-neutralizing monoclonal antibodies profoundly inhibit tumor load in the mouse bones, associating with reduced cell proliferation and angiogenesis. Notably, we found that Raji cells lack intrinsic heparanase activity, but tumor xenografts produced by this cell line exhibit typical heparanase activity, likely contributed by host cells composing the tumor microenvironment. Thus, the neutralizing monoclonal antibodies attenuate lymphoma growth by targeting heparanase in the tumor microenvironment.Heparanase is an endo-β-d-glucuronidase capable of cleaving heparan sulfate (HS) side chains at a limited number of sites, releasing saccharide products with appreciable size (4–7 kDa) and biological potency. Enzymatic degradation of HS leads to disassembly of the extracellular matrix (ECM) and correlates with the metastatic potential of tumor-derived cells, attributed to enhanced cell dissemination as a consequence of HS cleavage and remodeling of the ECM and basement membrane underlying epithelial and endothelial cells (1, 2). Heparanase expression is induced in human cancer, most often associating with reduced patients’ survival postoperation, increased tumor metastasis, and higher vessel density (3–5). In addition, heparanase up-regulation is associated with tumors larger in size (3, 5). Likewise, heparanase over-expression enhanced (6, 7), whereas local delivery of anti-heparanase siRNA inhibited (8), the growth of tumor xenografts. These results imply that heparanase function is not limited to tumor metastasis but is engaged in progression of the primary lesion, thus critically supporting the intimate involvement of heparanase in tumor progression and encouraging the development of heparanase inhibitors as anticancer therapeutics (9–12). As a consequence, heparanase inhibitors are currently evaluated in phase 1 clinical trials (13).Heparanase activity is similarly implicated in the progression of multiple myeloma (14–16), but its significance in other hematologic malignancies has not yet been characterized. Lymphomas are a heterogeneous group of cancers that arise from developing lymphocytes and produce tumors predominantly in lymphoid structures (i.e., bone marrow), but also in extranodal tissues. Collectively, lymphomas constitute the fifth most common cancer in North America, with more than 90% of the patients being affected by lymphomas of B-cell origin (17). Despite overall improvements in outcomes of lymphoma, ∼30–40% of patients have disease that is either refractory or relapses after standard therapy (18). Therefore, a better understanding of the molecular pathobiology of lymphomas is needed for the development of new therapeutic approaches. Here, we provide evidence that heparanase is expressed by B-lymphomas and that heparanase inhibitors restrain tumor growth. Furthermore, we describe the development of novel heparanase-neutralizing monoclonal antibodies (mAbs) that attenuate lymphoma growth by targeting heparanase in the tumor microenvironment.     

Multistep differentiation of GH-producing cells from their immature cells

In order to study GH cell differentiation, we used the clonal cell lines called MtT/E and MtT/S cells, which were derived from a rat mammotrophic pituitary tumor. Although MtT/E cells are non-hormone-producing ones, Pit-1 protein is present in their nuclei, which suggests that MtT/E cells are progenitor cells of the Pit-1 cell lineage and have the potential to differentiate into hormone-producing cells. On the other hand, MtT/S cells produce GH; however, the responsiveness to GH-releasing hormone (GHRH) is weak and only a small number of secretory granules are present in their cytoplasm, which suggests that MtT/S cells are premature GH cells. In order to differentiate into GH cells from MtT/E cells as a progenitor cell, we examined several differentiation factors and found that retinoic acid (RA) induced the differentiation of MtT/E cells into GH-producing cells. RA-induced GH cells partially matured with the glucocorticoid treatment; however, the responsiveness to GHRH on GH secretion was incomplete. In order to elucidate the mechanism underlying full differentiation of GH cells, we used MtT/S cells. We treated MtT/S cells with glucocorticoid and found that they differentiated into mature GH cells with many secretory granules in their cytoplasm and they responded well to GHRH. These results suggested that MtT/E and MtT/S cells are progenitor or premature GH cells, and show different responses to differentiation factors. Our data also suggested that GH cells differentiate from their progenitor cells through multistep processes.     

Thyrotrophin and growth hormone secretion and cell morphology in hypothyroid pituitary cells cultured on a natural extracellular matrix

Hypothyroid rat pituitary cells were cultured on an extracellular matrix (ECM) produced by corneal endothelial cells. ECM markedly affected the following parameters. 1) Cell attachment, spreading and proliferation were improved, resulting in a more rapid formation of confluent cell monolayers. 2) In the presence of ECM the production of both thyrotrophin (TSH) and growth hormone (GH) was larger than in its absence. Immunofluorescence studies revealed that 20% of the cells in these monolayers were thyrotrophs; consequently, TSH content was higher while GH level was lower than in control cultures of euthyroid pituitaries. These data suggest that the in vivo physiological differences are maintained by the conditions of the culture. 3) ECM enabled the response of both the somatotrophs and the thyrotrophs to thyrotrophin releasing hormone (TRH) and the cells remained responsive for at least 10 days. Maximal stimulation (1.3- to 6-fold) was obtained with 14 nM of TRH. In the absence of ECM the cells failed to respond to TRH. 4) Cell morphology was examined by scanning electron microscopy (SEM). Cells grown on ECM were characteristically epithelial, whereas those cultured on plastic plates had a fibroblast-like appearance. Four types of cells were identified in the epithelial cell monolayers by the appearance of their surface. TRH induced a 2-fold increase in the number of cells covered with microvilli and a corresponding decrease in the number of smooth surfaced cells. This suggests that hormone secretion is associated with the formation of microvilli.     

Heparanase expression correlates with malignant potential in human colon cancer

Purpose Heparanase cleaves carbohydrate chains of heparan sulphate proteoglycans and is an important component of the extracellular matrix. This study was designed to determine the relation between heparanase expression and prognosis of patients with colon cancer.Methods The study included 54 patients (35 males and 19 females) who underwent colorectal resection for colorectal cancer between January 1992 and December 1994. Expression of heparanase protein and mRNA were determined and correlated with various clinicopathological parameters. In vitro studies were also performed to examine tumor invasion and to test the effects of heparanase inhibition, and in vivo studies were performed to examine tumor metastasis and prognosis.Results Heparanase expression was detected in the invasion front of the tumor in 37 of 54 (69%) colon cancer samples, whereas 17 of 54 (31%) tumors were negative. Expression of heparanase was significantly more frequent in tumors of higher TNM stage (P=0.0481), higher Dukes stage (P=0.0411), higher vascular infiltration (P=0.0146), and higher lymph vessel infiltration (P=0.0010). Heparanase expression in colon cancers correlated significantly with poor survival (P=0.0361). Heparanase-transfected colon cancer cells exhibited significant invasion compared with control-transfected colon cancer cells (P=0.001), and the peritoneal dissemination model also showed the malignant potential of heparanase-transfected cells, as assayed by number of nodules (P=0.017) and survival (P=0.0062). Inhibition of heparanase significantly reduced the invasive capacity of cancer cells (P=0.003).Conclusions Heparanase is a marker for poor prognosis of patients with colon cancer and could be a suitable target for antitumor therapy in colon cancer.     

Bcl‐2 overexpression in hepatic stellate cell line CFSC‐2G,induces a pro‐fibrotic state

Background and Aim: Development of hepatic fibrosis is a complex process that involves oxidative stress (OS) and an altered balance between pro‐ and anti‐apoptotic molecules. Since Bcl‐2 overexpression preserves viability against OS, our objective was to address the effect of Bcl‐2 overexpression in the hepatic stellate cells (HSC) cell‐line CFSC‐2G under acetaldehyde and H₂O₂ challenge, and explore if it protects these cells against OS, induces replicative senescence and/or modify extracellular matrix (ECM) remodeling potential. Methods: To induce Bcl‐2 overexpression, HSC cell line CFSC‐2G was transfected by lipofection technique. Green fluorescent protein‐only CFSC‐2G cells were used as a control. Cell survival after H₂O₂ treatment and total protein oxidation were assessed. To determine cell cycle arrest, proliferation‐rate, DNA synthesis and senescence were assessed. Matrix metalloproteinases (MMP), tissue‐inhibitor of MMP (TIMP), transglutaminases (TG) and smooth muscle a‐actin (α‐SMA) were evaluated by western blot in response to acetaldehyde treatment as markers of ECM remodeling capacity in addition to transforming growth factor‐β (TGF‐β) mRNA. Results: Cells overexpressing Bcl‐2 survived ≈ 20% more than control cells when exposed to H₂O₂ and ≈ 35% proteins were protected from oxidation, but Bcl‐2 did not slow proliferation or induced senescence. Bcl‐2 overexpression did not change α‐SMA levels, but it increased TIMP‐1 (55%), tissue transglutaminases (tTG) (25%) and TGF‐β mRNA (49%), when exposed to acetaldehyde, while MMP‐13 content decreased (47%). Conclusions: Bcl‐2 overexpression protected HSC against oxidative stress but it did not induce replicative senescence. It increased TIMP‐1, tTG and TGF‐β mRNA levels and decreased MMP‐13 content, suggesting that Bcl‐2 overexpression may play a key role in the progression of fibrosis in chronic liver diseases.     

Corticotropin-releasing factor-like activity in ACTH producing tumors.

Corticotropin-releasing factor (CRF)-like activity in two different kinds of ACTH-producing tumors (human ectopic ACTH-producing colonic cancer and rat MtT/F4 tumor) was determined by an in vitro method using isolated normal rat pituitary cells. The ACTH content of the post mortem colonic cancer was 5.5 ng/g w.wt. The ACTH content of the medium of MtT/F4 tumor cells was 153+/-32 pg/10(5) cells. The ACTH content of MtT/F4 tumor cell suspensions was elevated with increasing doses of hypothalamic median eminence extract (HME). The response of MtT/F4 tumor cells to HME was suppressed by 1 mug/ml of dexamethasone. Extracts of colonic cancer, MtT/F4 tumor and HME produced elevation of the ACTH content of the medium of isolated rat pituitary cells. The CRF-like activities of two kinds of tumor extracts in multiple dilutions ran parallel to that of HME. The CRF-like activities were 0.037 HME equiv/mg w.wt in MtT/F4 tumor and 0.052 HME equiv/mg w.wt. in colonic cancer. These results demonstrated that CRF-like activity existed in these two kinds of ACTH-producing tumors.