35 research outputs found
Immune Checkpoint Molecules in Reproductive Immunology
Immune checkpoint molecules, like CTLA-4, TIM-3, PD-1, are negative regulators of immune responses to avoid immune injury. Checkpoint regulators are thought to actively participate in the immune defense of infections, prevention of autoimmunity, transplantation, and tumor immune evasion. Maternal-fetal immunotolerance represents a real immunological challenge for the immune system of the mother: beside acceptance of the semiallogeneic fetus, the maternal immune system has to be prepared for immune defense mostly against infections. In this particular situation, the role of immune checkpoint molecules could be of special interest. In this review, we describe current knowledge on the role of immune checkpoint molecules in reproductive immunology
The Role of Type I and Type II NKT Cells in Materno-Fetal Immunity
NKT cells represent a small but significant immune cell population as being a part of and bridging innate and adaptive immunity. Their ability to exert strong immune responses via cytotoxicity and cytokine secretion makes them significant immune effectors. Since pregnancy requires unconventional maternal immunity with a tolerogenic phenotype, investigation of the possible role of NKT cells in materno-fetal immune tolerance mechanisms is of particular importance. This review aims to summarize and organize the findings of previous studies in this field. Data and information about NKT cells from mice and humans will be presented, focusing on NKT cells characteristics during normal pregnancy in the periphery and at the materno-fetal interface and their possible involvement in female reproductive failure and pregnancy complications with an immunological background
Examination of the TIGIT, CD226, CD112, and CD155 Immune Checkpoint Molecules in Peripheral Blood Mononuclear Cells in Women Diagnosed with Early-Onset Preeclampsia
Early-onset preeclampsia is a common obstetrical disease with a potential genetic back-
ground and is characterized by the predominance of Th1 immune response. However, although many
studies investigated the immunological environment in preeclamptic patients, no information is
available about the potential role of the TIGIT/CD226/CD112/CD155 immune checkpoint pathway.
A total of 37 pregnant women diagnosed with early-onset preeclampsia and 36 control women with
appropriately matched gestational age were enrolled in this study. From venous blood, mononu-
clear cells were isolated and stored in the freezer. Using multicolor flow cytometry T-, NK cell and
monocyte subpopulations were determined. After characterization of the immune cell subsets, TIGIT,
CD226, CD112, and CD155 surface expression and intracellular granzyme B content were determined
by flow cytometer. Significantly decreased CD226 expression and increased CD112 and CD155 sur-
face expression were detected in almost all investigated T-cell, NK cell, and monocyte subpopulations
in women diagnosed with preeclampsia compared to the healthy group. Furthermore, reduced
TIGIT and granzyme B expression were measured only in preeclamptic CD8+ T cells compared to
healthy pregnant women. A decreased level of the activatory receptor CD226 in effector lymphocytes
accompanied with an elevated surface presence of the CD112 and CD155 ligands in monocytes could
promote the TIGIT/CD112 and/or TIGIT/CD155 ligation, which mediates inhibitory signals. We
assume that the inhibition of the immune response via this immune checkpoint pathway might
contribute to compensate for the Th1 predominance during early-onset preeclampsia
Influence of Galectin-9 Treatment on the Phenotype and Function of NK-92MI Cells in the Presence of Different Serum Supplements
Galectins are one of the critical players in the tumor microenvironment–tumor crosstalk
and the regulation of local immunity. Galectin-9 has been in the limelight in tumor immunology.
Galectin-9 possesses its multiplex biological functions both extracellularly and intracellularly, plays
a pivotal role in the modulation of adaptive and innate immunity, and induces immune tolerance.
NK-92MI cell lines against different malignancies were extensively studied, and recently published
trials used genetically chimeric antigen receptor-transfected NK-92MI cells in tumor immunotherapy.
Besides the intensive research in tumor immunotherapy, limited information is available on their
immune-checkpoint expression and the impact of checkpoint ligands on their effector functions.
To uncover the therapeutic potential of modulating Galectin-9-related immunological pathways in
NK-cell-based therapy, we investigated the dose-dependent effect of soluble Galectin-9 on the TIM-3
checkpoint receptor and NKG2D, CD69, FasL, and perforin expression of NK-92MI cells. We also
examined how their cytotoxicity and cytokine production was altered after Gal-9 treatment and in
the presence of different serum supplements using flow cytometric analysis. Our study provides
evidence that the Galectin-9/TIM-3 pathway plays an important role in the regulation of NK cell
function, and about the modulatory role of Galectin-9 on the cytotoxicity and cytokine production of
NK-92MI cells in the presence of different serum supplements. We hope that our results will aid the
development of novel NK-cell-based strategies that target Galectin-9/TIM-3 checkpoint in tumors
resistant to T-cell-based immunotherapy
Forest Bathing Always Makes Sense: Blood Pressure-Lowering and Immune System-Balancing Effects in Late Spring and Winter in Central Europe
Various formats of forest bathing have been receiving increasing attention owing to their
perspectives in health promotion and the treatment of chronic lifestyle diseases. The majority of
field studies are still being conducted in the Far Eastern region, and they often make psychological
assessments mainly in the green season. In our pretest–posttest field experiment, twelve healthy,
working-age volunteers participated in a 2-h leisurely forest walking program, first in the green
season (May) and then in the winter season (January), in the Mecsek Hills, next to PĂ©cs, Hungary.
Systolic blood pressure decreased after the trips both in late spring and in the winter. Based on
changes in the expressions of CD69, an early activation marker, NKG2D, a major recognition receptor,
perforin, granzyme B, and TIM-3, an inhibitory immune checkpoint molecule, on CD8+ cytotoxic
T, NK, NKdim, NKbright, and NKT cells, we detected the stimulation of NKbright cells and activation
of all examined immune cell subsets in the green season. In the winter, a slight activating and an
interesting balancing effect regarding TIM-3 could be observed considering our finding that basal
(pretest) TIM-3 expression by NK cells was significantly lower in the winter. Our work expands the
knowledge on and potentials of forest medicine
Peripartum Investigation of Red Blood Cell Properties in Women Diagnosed with Early-Onset Preeclampsia
We investigated peripartum maternal red blood cell (RBC) properties in early-onset
preeclampsia (PE). Repeated blood samples were taken prospectively for hemorheological measurements at PE diagnosis (n = 13) or during 26–34 weeks of gestation in healthy pregnancies (n = 24),
then at delivery, and 72 h postpartum. RBC aggregation was characterized by M index (infrared
light transmission between the aggregated RBCs in stasis) and aggregation index (AI—laser backscattering from the RBC aggregates). We observed significantly elevated RBC aggregation (M index
= 9.8 vs. 8.5; AI = 72.9% vs. 67.5%; p < 0.001) and reduced RBC deformability in PE (p < 0.05). A
positive linear relationship was observed between AI and gestational age at birth in PE by regression
analysis (R
2 = 0.554; p = 0.006). ROC analysis of AI showed an AUC of 0.84 (0.68–0.99) (p = 0.001)
for PE and indicated a cutoff of 69.4% (sensitivity = 83.3%; specificity = 62.5%), while M values
showed an AUC of 0.75 (0.58–0.92) (p = 0.019) and indicated a cutoff of 8.39 (sensitivity = 90.9% and
specificity = 50%). The predicted probabilities from the combination of AI and M variables showed
increased AUC = 0.90 (0.79–1.00) (p < 0.001). Our results established impaired microcirculation in
early-onset PE manifesting as deteriorated maternal RBC properties. The longer the pathologic
pregnancy persists, the more pronounced the maternal erythrocyte aggregation. AI and M index
could help in the prognostication of early-onset PE, but further investigations are warranted to
confirm the prognostic role before the onset of symptoms
Influence of Galectin-9 Treatment on the Phenotype and Function of NK-92MI Cells in the Presence of Different Serum Supplements
Galectins are one of the critical players in the tumor microenvironment–tumor crosstalk and the regulation of local immunity. Galectin-9 has been in the limelight in tumor immunology. Galectin-9 possesses its multiplex biological functions both extracellularly and intracellularly, plays a pivotal role in the modulation of adaptive and innate immunity, and induces immune tolerance. NK-92MI cell lines against different malignancies were extensively studied, and recently published trials used genetically chimeric antigen receptor-transfected NK-92MI cells in tumor immunotherapy. Besides the intensive research in tumor immunotherapy, limited information is available on their immune-checkpoint expression and the impact of checkpoint ligands on their effector functions. To uncover the therapeutic potential of modulating Galectin-9-related immunological pathways in NK-cell-based therapy, we investigated the dose-dependent effect of soluble Galectin-9 on the TIM-3 checkpoint receptor and NKG2D, CD69, FasL, and perforin expression of NK-92MI cells. We also examined how their cytotoxicity and cytokine production was altered after Gal-9 treatment and in the presence of different serum supplements using flow cytometric analysis. Our study provides evidence that the Galectin-9/TIM-3 pathway plays an important role in the regulation of NK cell function, and about the modulatory role of Galectin-9 on the cytotoxicity and cytokine production of NK-92MI cells in the presence of different serum supplements. We hope that our results will aid the development of novel NK-cell-based strategies that target Galectin-9/TIM-3 checkpoint in tumors resistant to T-cell-based immunotherapy
The importance of the PD-1/PD-L1 pathway at the maternal-fetal interface
Abstract Background Our goal with this study was to investigate the contribution of PD-1/PD-L1 immune-checkpoint pathway to maternal immunotolerance mechanisms. Methods Thirteen healthy pregnant women and 10 non-pregnant controls were involved in this project. PBMCs and DICs were isolated from peripheral blood and from decidual tissues. After the characterization of different immune cell subsets, we used fluorochrome-conjugated monoclonal antibodies to measure the expression level of PD-1, PD-L1, NKG2D, and CD107a molecules by flow cytometry. Results We measured significant alternations in the proportion of decidual immune cell subsets compared to the periphery. Elevated PD-1 expression by decidual CD8+ T, CD4+ T, and NKT-like cells were also detected accompanied by the increased PD-L1 expression by decidual CD4+ T, Treg, NKT-like and CD56 + NK cell subsets compared to peripheral blood. The cytotoxic potential was significantly higher in PD-1- decidual immune cells compared to the periphery, however we measured a significantly lower cytotoxicity in the decidual PD-1+ CD8+ T cells compared with the peripheral subsets. An activation receptor NKG2D expression was decreased by the PD-1+ CD8+ T subsets in the first trimester compared to non-pregnant condition but the expression level of the decidual counterparts was significantly elevated compared to the periphery. The cytotoxic potential of decidual PD1/NKG2D double positive CD8+ T cells was significantly decreased compared to the peripheral subsets. Conclusions Based on our results we assume that PD-1/PD-L1 pathway might have a novel role in the maintaining of the local immunological environment. Accompanied by NKG2D activating receptor this checkpoint interaction could regulate decidual CD8 Tc cell subsets and may contribute maternal immunotolerance