Cell Death Mechanisms at the Maternal-Fetal Interface: Insights into the Role of Granulysin

During mammal pregnancy, a sensitive balance between hormones, cytokines, humoral factors, and local cellular interactions must be established. Cytotoxic cells infiltrating the decidua are heavily equipped with cytolytic molecules, in particular perforin and granulysin. Granulysin is especially abundant in NK cells which are able to spontaneously secrete high quantities of granulysin. Besides being a potent bactericidal and tumoricidal molecule, granulysin is also found to be a chemoattractant and a proinflammatory molecule. The precise role(s) of granulysin at the maternal-fetal interface has not been elucidated yet. It is possible that it behaves as a double-edged sword simultaneously acting as an immunomodulatory and a host defense molecule protecting both the mother and the fetus from a wide spectrum of pathogens, and on the other hand, in case of an NK cell activation, acting as an effector molecule causing the apoptosis of semiallograft trophoblast cells and consequently leading to various pregnancy disorders or pregnancy loss

Optineurin Dysfunction in Amyotrophic Lateral Sclerosis: Why So Puzzling?

Mutations in optineurin have been linked to amyotrophic lateral sclerosis (ALS) a decade ago, but its exact role in the neurodegenerative process is still unclear. As a lysine 63 (K63) and methionine (M1) poly-ubiquitin binding protein, optineurin has been reported to act as an adaptor in inflammatory signaling pathways mediated via nuclear factor kappa-light-chain-enhancer of activated B cells (NF-kB) and interferon regulatory factor 3 (IRF3), as well as in membrane-associated trafficking events including autophagy, maintenance of the Golgi apparatus, and exocytosis. Other studies have demonstrated its role in other processes such as regulation of mitosis, transcription, necroptosis and apoptosis. However, many of the reported effects in cell models have been proven difficult to reproduce in optineurin animal models, demonstrating the challenges of extrapolation between model systems. Knowing that multifunctional proteins present a “nightmare” for researchers, to help navigating through this field, we address the most common controversies, open questions, and artefacts related to optineurin and its role in pathogenesis of ALS and other neurodegenerative diseases.</p

Mucins help to avoid alloreactivity at the maternal fetal interface

During gestation, many different mechanisms act to render the maternal immune system tolerant to semi-allogeneic trophoblast cells of foetal origin, including those mediated via mucins that are expressed during the peri-implantation period in the uterus. Tumour- associated glycoprotein-72 (TAG-72) enhances the already established tolerogenic features of decidual dendritic cells with the inability to progress towards Th1 immune orientation due to lowered interferon (IFN)- γ and interleukin (IL)-15 expression. Mucine 1 (Muc 1) supports alternative activation of decidual macrophages, restricts the proliferation of decidual regulatory CD56(+) bright natural killer (NK) cells, and downregulates their cytotoxic potential, including cytotoxic mediator protein expression. Removing TAG-72 and Muc 1 from the eutopic implantation site likely contributes to better control of trophoblast invasion by T cells and NK cells and appears to have important immunologic advantages for successful implantation, in addition to mechanical advantages. However, these processes may lead to uncontrolled trophoblast growth after implantation, inefficient defence against infection or tumours, and elimination of unwanted immunocompetent cells at the maternal-foetal interface. The use of mucins by tumour cells to affect the local microenvironment in order to avoid the host immune response and to promote local tumour growth, invasion, and metastasis confirms this postulation

Comparative study of frequency of different lymphocytes subpopulation in peripheral blood of patients with prostate cancer and benign prostatic hyperplasia

PURPOSE: Benign prostatic hyperplasia (BPH) and prostate cancer (PC) are the most common urologic diseases among men over fifty and, until recently, they were considered to be caused by the impaired immune response. Despite many studies designed to investigate T-cell-based antitumor immunity, the role of innate immune cells in BPH and PC is still poorly understood. In this study the frequency of different leukocytes subpopulation in peripheral blood of BPH, PC patients and in healthy volunteers was analysed and compared. METHODS: In a cross-sectional study 60 subjects were enrolled (20 patients with BPH or with PC and 20 healthy volunteers). Peripheral blood mononuclear cells (PBMC) were isolated and the percentage of T lymphocytes, natural killer (NK) and NKT cells, as well as subsets of T lymphocytes [CD3(+)CD56(-)CD4(+), T-regs (CD4(+)CD25(+)FoxP3(+)) and CD3(+)CD56(-)CD8(+)] and NK cells (CD3(-)CD56(+dim) and CD3(-)CD56(+bright)) were analysed by flow cytometry. Intracellular content of interleukin-4 (IL-4) and interferon gamma (IFN gamma in T lymphocytes, NK and NKT cells were also detected. RESULTS: The percentage of T lymphocytes and their subsets in peripheral blood lymphocytes did not differ among investigated groups, while the frequency of Tregs was the highest in PC patients. The percentage of NK cell and their subsets did not differ among investigated groups. Negative correlation between PSA value, percentage of T lymphocytes and NK cells was observed only in PC patients. Highly positive correlation between the PSA value and the percentage of Tregs was found in PC patients. CONCLUSION: Different frequencies in distinctly lymphocyte subpopulation in peripheral blood of healthy men, BPH and PC patients could be responsible for occurrence and progression of prostatic hyperplasia or tumour. Due to the ability of tumours to suppress the cognate T cell immune response, the cells of innate immunity (NKT and Tregs) may be playing a key role in the immunopathogenesis of PC and BPH

Assessing whether progesterone-matured dendritic cells are responsible for retention of fertilization products in missed abortion

We hypothesize that progesterone causes tolerogenic maturation of myeloid dendritic cells (DCs) in human decidua of threatened miscarriage or missed abortion characterized by a distinct phenotype and cytokine production, including reduction of the main NK cell proliferation and cytotoxic factor interleukin (IL)-15. During DC/NK cell interaction, progesterone-shaped DCs cannot efficiently multiply or equip NK cells with the cytotoxic mediators peforin and granulysin, which might harm trophoblasts and induce abortion. We propose that the presence, and maturation stage of decidual myeloid DCs be investigated using semi-quantitative immunohistological analyses and/or double-color immuno-fluorescent labeling of DC lineage and activation markers. The spatial arrangement of granulysin+ cells, NKp46+ NK cells, DCs, and trophoblasts might provide information about their mutual interactions in vivo. Multiple flow cytometry analyses of NK-receptors would provide insight into NK cell activation status. NK cell activation status could be also assessed by cytotoxicity assays against trophoblast cell lines, or isolated cognate extra-villous trophoblast cells. A correlation between decidual progesterone concentration or IL-15 expression, and the degree of DC maturation or the frequency of granulysin+ cells, might help to elucidate the mechanism of abortion retention in utero

Extracellular vesicles in blood, milk and body fluids of the female and male urogenital tract and with special regard to reproduction

Extracellular vesicles (EVs) are released from almost all cells and tissues. They are able to transport substances (e.g. proteins, RNA or DNA) at higher concentrations than in their environment and may adhere in a receptor- controlled manner to specific cells or tissues in order to release their content into the respective target structure. Blood contains high concentrations of EVs mainly derived from platelets, and, at a smaller amount, from erythrocytes. The female and male reproductive tracts produce EVs which may be associated with fertility or infertility and are released into body fluids and mucosas of the urogenital organs. In this review, the currently relevant detection methods are presented and critically compared. During pregnancy, placenta-derived EVs are dynamically detectable in peripheral blood with changing profiles depending upon progress of pregnancy and different pregnancy- associated pathologies, such as preeclampsia. EVs offer novel non-invasive diagnostic tools which may reflect the situation of the placenta and the fetus. EVs in urine have the potential of reflecting urogenital diseases including cancers of the neighbouring organs. Several methods for detection, quantification and phenotyping of EVs have been established, which include electron microscopy, flow cytometry, ELISA-like methods, Western blotting, and analyses based on Brownian motion. This review article summarises the current knowledge about EVs in blood and cord blood, in the different compartments of the male and female reproductive tract, in trophoblast cells from normal and pre-eclamptic pregnancies, in placenta ex vivo perfusate, in the amniotic fluid, and in breast milk, as well as their potential effects on natural killer (NK) cells as possible target