Lorenz Rieger

Transketolase‐like 1 expression correlates with subtypes of ovarian cancer and the presence of distant metastases

Tumorbiology of ovarian cancer remains unclear. However, it is known that ovarian tumors, especially carcinomas, show elevated expression of glucose membrane transporters for facilitated glucose uptake. It can be assumed that increased glucose uptake leads to higher glucose metabolism. The energy resources of fully malignant transformed carcinomas are mainly supplied by aerobic glycolysis, for which several pathways are known. A key role in aerobic glycolysis is described for the transketolase enzymes. Recently, a novel transketolase-like enzyme called transketolase-like 1 (TKTL1) has been described that links aerobic glycolysis to the synthesis of fatty acids via production of acetyl-CoA. In order to investigate the role of TKTL1 for the progression of ovarian carcinomas, we examined paraffin sections of normal ovarian tissues, ovarian borderline tumors, and mucinous or serous papillary ovarian adenocarcinomas with respect to their expression of TKTL1. We identified a significantly elevated expression of TKTL1 in serous papillary ovarian adenocarcinomas, which correlates with poor prognostic parameters in the examined study group. Therefore, it can be assumed that TKTL1 plays a crucial role in ovarian cancer metabolism and that its expression predicts poor prognosis. Further investigations should be performed in order to evaluate whether this new enzyme is important for ovarian cancer tumorbiology and to analyze the potential role of TKTL1 as new target for specific antitumoral therapy

Profiling Chemokines, Cytokines and Growth Factors in Human Early Pregnancy Decidua By Protein Array

Problem  In human decidua, a significant increase of leukocytes including CD56++CD16– uterine natural killer (uNK) cells and CD14+ monocytes has been observed with the onset of pregnancy. The mechanisms required for the recruitment of those cells to the uterus are still under debate. Cytokines and chemokines have been suggested as key factors for the regulation of these complex cellular migration and interaction processes.

Impact of female sex hormones on the maturation and function of human dendritic cells.

Problem  During pregnancy, the immune and the endocrine system cooperate to ensure that the fetal allograft develops without eliciting a maternal immune response. This is presumably in part achieved by dendritic cells (DCs) that play a dominant role in maintaining peripheral tolerance. In this study, we investigated whether female sex hormones, such as human chorionic gonadotropin (hCG), progesterone (Prog), and estradiol (E2), which are highly elevated during pregnancy, induce the differentiation of DCs into a tolerance‐inducing phenotype.

ORIGINAL ARTICLE: Impact of Female Sex Hormones on the Maturation and Function of Human Dendritic Cells

Problem  During pregnancy, the immune and the endocrine system cooperate to ensure that the fetal allograft develops without eliciting a maternal immune response. This is presumably in part achieved by dendritic cells (DCs) that play a dominant role in maintaining peripheral tolerance. In this study, we investigated whether female sex hormones, such as human chorionic gonadotropin (hCG), progesterone (Prog), and estradiol (E2), which are highly elevated during pregnancy, induce the differentiation of DCs into a tolerance‐inducing phenotype.

Specific subsets of immune cells in human decidua differ between normal pregnancy and preeclampsia - a prospective observational study

BackgroundChanges in the balance of decidual leucocyte populations may lead to an unfavourable uterine microenvironment which may be associated with the development of preeclampsia (PE). In this study, we therefore investigated the leucocyte subpopulations in decidual tissues of 33 women with preeclampsia and 66 control patients.MethodsDecidua was either obtained via curettage during cesarean section or dissected from the surface of the basal plate of the placenta after spontaneous delivery. We used FACS analysis to quantify decidual leukocytes (CD45), NK cells (CD56+/CD16+ and CD56++/CD16-), antigen presenting cells (HLA-DR, DC-Sign, CD14) and T/B cells (CD8, CD4, alpha-beta-T-cell receptor, gamma-delta-T-cell receptor, CD25, CD19).ResultsThe number of decidual cytotoxic CD8+T-lymphocytes (P < 0.02), alpha-beta -T-cell receptor positive T cells (P < 0.03) and of CD56+/CD16+ NK cells (P < 0.03) was lower in decidua from women with PE than in decidua from control patients.ConclusionThe observed reduction of specific leucocyte subsets could create a microenvironment which is unfavourable for an appropriate placentation and could thereby be involved in the development of preeclamptic symptoms.

The glycoprotein-hormones activin A and inhibin A interfere with dendritic cell maturation

BackgroundPregnancy represents an exclusive situation in which the immune and the endocrine system cooperate to prevent rejection of the embryo by the maternal immune system. While immature dendritic cells (iDC) in the early pregnancy decidua presumably contribute to the establishment of peripheral tolerance, glycoprotein-hormones of the transforming growth factor beta (TGF-beta) family including activin A (ActA) and inhibin A (InA) are candidates that could direct the differentiation of DCs into a tolerance-inducing phenotype.MethodsTo test this hypothesis we generated iDCs from peripheral-blood-monocytes and exposed them to TGF-beta1, ActA, as well as InA and Dexamethasone (Dex) as controls.ResultsBoth glycoprotein-hormones prevented up-regulation of HLA-DR during cytokine-induced DC maturation similar to Dex but did not influence the expression of CD 40, CD 83 and CD 86. Visualization of the F-actin cytoskeleton confirmed that the DCs retained a partially immature phenotype under these conditions. The T-cell stimulatory capacity of DCs was reduced after ActA and InA exposure while the secretion of cytokines and chemokines was unaffected.ConclusionThese findings suggest that ActA and InA interfere with selected aspects of DC maturation and may thereby help preventing activation of allogenic T-cells by the embryo. Thus, we have identified two novel members of the TGF-beta superfamily that could promote the generation of tolerance-inducing DCs.

MIC-1 (a multifunctional modulator of dendritic cell phenotype and function) is produced by decidual stromal cells and trophoblasts

BACKGROUND Macrophage inhibitory cytokine-1 (MIC-1) is a multifunctional cytokine produced in high amounts by placental tissue. Inhibiting trophoblast invasion and suppressing inflammation through inhibition of macrophage activation, MIC-1 is thought to provide pleiotropic functions in the establishment and maintenance of pregnancy. So far, little is known about the decidual cell subsets producing MIC-1 and the effect of this cytokine on dendritic cells (DCs), which are known to play a distinct role in the development of pro-fetal tolerance in pregnancy. METHODS To identify the decidual cell types expressing and secreting MIC-1, immunohistochemical staining, PCR experiments, western blot analysis and ELISAs were performed. Immature DCs (iDCs) were generated from peripheral blood-derived monocytes and differentiated in the presence of MIC-1 or dexamethasone (Dex) for control. Migratory and proliferative activity of DCs after MIC-1 exposure was investigated by migration and proliferation assay. Cytokine secretion after MIC-1 exposure was tested in isolated uNK cells, isolated CD14+ monocytes, monocyte-derived iDCs and mature DCs. Subsequently, the phenotype of DCs was studied using FACS analysis. To test the T-cell stimulatory capacity of pre-incubated DCs, mixed lymphocyte reaction was applied. Finally, the expression of the tryptophan-catabolizing enzyme indoleamine 2,3-dioxygenase (IDO) after the exposure of MIC-1 to maturing DCs was analysed by western blot. RESULTS Immunohistochemical staining, PCR and western blot experiments demonstrated that MIC-1 is mainly expressed by trophoblast cells and decidual stromal cells. Analysis of the MIC-1 secretion of decidual cell types by ELISA again characterized trophoblast and stromal cells as main producers. The migratory activity of iDCs was significantly induced by MIC-1. No changes in proliferative activity of DCs were observed after MIC-1 pre-incubation. The secretion of pro- or anti-inflammatory cytokines was not affected significantly by MIC-1. Studying the phenotype of DCs after MIC-1 exposure by FACS analysis, we observed that MIC-1 suppresses the expression of typical maturation molecules such as CD25 and CD83 as well as of CD86 during cytokine-induced DC maturation similar to Dex. In addition, T-cell stimulatory capacity of DCs was significantly reduced after MIC-1 exposure. MIC-1 was also able to increase slightly the expression of IDO (a key immunomodulatory enzyme promoting periphereal tolerance) in maturing DCs. CONCLUSIONS We have identified MIC-1 as a novel factor (secreted by decidual cells in early pregnancy) that could promote the increase of a tolerogenic subtype of DC in decidua.

Quantification of the predominant immune cell populations in decidua throughout human pregnancy.

To date, a multiplicity of factors contributing to the establishment and progression of a successful pregnancy have been postulated. There is emerging evidence that decidual leukocytes could be decisive factors during pregnancy. Despite numerous investigations on immune cells in human early pregnancy decidua, little is known about the physiological composition and proportion of the various immune cell populations during the different phases of pregnancy. In this study, we therefore analyzed the proportion of the dominant decidual leukocytes in human tissue samples derived from all phases of pregnancy.

Increased tartrate-resistant acid phosphatase (TRAP) expression in malignant breast, ovarian and melanoma tissue: an investigational study

BackgroundTartrate-resistant acid phosphatase (TRAP) is a metalloprotein enzyme that belongs to the acid phosphatases and is known to be expressed by osteoclasts. It has already been investigated as a marker of bone metastases in cancer patients. In this study, which examined the value of serum TRAP concentrations as a marker of bone disease in breast cancer patients, we observed high concentrations of TRAP even in patients without bone metastases. To elucidate this phenomenon, we examined the expression of TRAP in breast cancer cells and the cells of several other malignancies.MethodsTRAP concentrations in the serum of tumor patients were determined by ELISA. The expression of TRAP in breast, ovarian, and cervical cancer and malignant melanoma was analyzed by immunohistochemistry. RT-PCR and immunocytology were used to evaluate TRAP expression in cultured tumor cells.ResultsA marked increase in serum TRAP concentrations was observed in patients with breast and ovarian cancer, regardless of the presence or absence of bone disease. TRAP expression was found in breast and ovarian cancers and malignant melanoma, while cervical cancer showed only minimal expression of TRAP. Expression of TRAP was absent in benign tissue or was much less marked than in the corresponding malignant tissue. TRAP expression was also demonstrated in cultured primary cancer cells and in commercially available cell lines.ConclusionOverexpression of TRAP was detected in the cells of various different tumors. TRAP might be useful as a marker of progression of malignant disease. It could also be a potential target for future cancer therapies.

Perifosine inhibits growth of human experimental endometrial cancers by blockade of AKT phosphorylation

OBJECTIVE Perifosine is an orally active alkylphospholipid analog, which has shown anti-tumor activity in a variety of cancers by inhibition of AKT phosphorylation. The objective of the current study was to evaluate its efficacy in in vitro models of human endometrial cancer. STUDY DESIGN The effect of 10microM and 40microM perifosine on AKT phophorylation in human endometrial cancer cell lines Ishikawa and HEC 1A was determined by Western blotting. To screen for a putative anti-tumor effect, HEC 1A and Ishikawa cells were incubated with increasing concentrations of perifosine for 24h, 48h and 72h and the number of viable cells was determined by crystal violet staining. Also the effect of a combined treatment with cisplatin and perifosine was investigated in Ishikawa cells. Flow cytometric analysis of DNA content was used to determine the effect of perifosine on the cell cycle distribution of HEC 1A and Ishikawa cells and to assess potential toxic side effects of perifosine on peripheral blood lymphocytes (PBL). RESULTS AKT phosphorylation was dose-dependently inhibited by perifosine. Concomitantly, perifosine displayed anti-tumor activity in both cell lines at concentrations that showed no effect on peripheral blood lymphocytes. Growth inhibitory effects became more pronounced with increasing treatment time. While IC 50 values at 24h were >40microM, IC 50 values after 48h were approximately 7microM in Ishikawa and 25microM in HEC 1A cells. After 72h, the IC 50 was below 1.25microM for Ishikawa and about 6microM for HEC 1A cells. Perifosine cotreatment substantially increased cytotoxic effects of cisplatin in human Ishikawa endometrial cancer cells. Of note, the anti-tumor activity of perifosine was not confined to a specific phase of the cell cycle. CONCLUSIONS The small molecule AKT inhibitor perifosine showed substantial anti-tumor activity in human endometrial cancer cell lines. Since these effects were increased with cisplatin, perifosine seems to be a good candidate for treatment combinations with classical cytostatic compounds. Thus, perifosine should be further evaluated in clinical studies in endometrial cancer.