Trophoblasts protect the inner cell mass from macrophage destruction

F4/80+ Host Macrophages Are a Barrier to Murine Embryonic Stem Cell-Derived Hematopoietic Progenitor Engraftment In Vivo

Understanding how embryonic stem cells and their derivatives interact with the adult host immune system is critical to developing their therapeutic potential. Murine embryonic stem cell-derived hematopoietic progenitors (ESHPs) were generated via coculture with the bone marrow stromal cell line, OP9, and then transplanted into NOD.SCID.Common Gamma Chain (NSG) knockout mice, which lack B, T, and natural killer cells. Compared to control mice transplanted with adult lineage-negative bone marrow (Lin⁻ BM) progenitors, ESHP-transplanted mice attained a low but significant level of donor hematopoietic chimerism. Based on our previous studies, we hypothesized that macrophages might contribute to the low engraftment of ESHPs in vivo. Enlarged spleens were observed in ESHP-transplanted mice and found to contain higher numbers of host F4/80⁺ macrophages compared to BM-transplanted controls. In vivo depletion of host macrophages using clodronate-loaded liposomes improved the ESHP-derived hematopoietic chimerism in the spleen but not in the BM. F4/80⁺ macrophages demonstrated a striking propensity to phagocytose ESHP targets in vitro. Taken together, these results suggest that macrophages are a barrier to both syngeneic and allogeneic ESHP engraftment in vivo.

Indirect immune recognition of mouse embryonic stem cell-derived hematopoietic progenitors in vitro

The clinical use of embryonic stem cell (ESC)-derived hematopoietic progenitors (ESHPs) requires the generation of ESHPs that produce mature hematopoietic cells and do not induce immune rejection after transplantation. We compared the developmental maturity and immunogenicity of ESHPs generated using two methods: embryoid body (EB) formation and culture of ESCs with the OP9 bone marrow stromal cell line (ESC-OP9). ESHPs derived from EBs displayed an immature hematopoietic phenotype and were devoid of immunogenicity marker expression. In contrast, ESHPs derived via ESC-OP9 displayed a mature phenotype and expressed high levels of some immunostimulatory molecules. ESHPs alone could not stimulate CD4(+) T lymphocyte proliferation directly. However, preferential phagocytosis of ESHPs and T cell proliferation were observed in the presence of antigen-presenting cells, consistent with a model of indirect immune recognition of ESHPs. These results suggest that depletion of host CD4(+) T lymphocytes or antigen-presenting cells may be necessary for successful ESHP transplantation.

Bi-directional calcium signaling between adjacent leukocytes and trophoblast-like cells

PROBLEM

Trophoblasts are believed to play an important role in mitigating immunological responses against the fetus. To better understand the nature of trophoblast-leukocyte interactions, we have studied signal transduction during intercellular interactions.

METHOD OF STUDY

Using a highly sensitive microfluorometric ratioing method and Ca²(+) -sensitive dyes, we measured Ca²(+) signals in trophoblast-like cell lines (JEG-3 and JAR) or in leukocytes (neutrophils and monocytes) during intercellular contact.

RESULTS

Trophoblast cell lines exhibit Ca²(+) signals during leukocyte contact. In contrast, leukocytes cannot elicit Ca²(+) signals in non-opsonized tumour cells, suggesting that Ca²(+) signaling is not a general feature of cell-cell encounters. Similarly, leukocytes demonstrate Ca²(+) signals during contact with trophoblast cell lines. Ca²(+) signals were confirmed using three dyes and with the Ca²(+) buffer BAPTA.

CONCLUSION

We suggest that leukocyte-to-trophoblast interactions lead to mutual Ca²(+) signaling events in both cell types, which may contribute to immunoregulation at the materno-fetal interface.

Maltooligosaccharides from JEG-3 trophoblast-like cells exhibit immunoregulatory properties

PROBLEM

to better understand the immunoregulatory properties of trophoblasts, we have searched for small immunologically active carbohydrates derived from intact trophoblast-like cells.

METHOD OF STUDY

using solid phase extraction coupled with HPLC and mass spectrometry methods, we have characterized a low molecular weight carbohydrate-rich fraction associated with JEG-3 cells. We have also tested the bioactivities of selected authentic oligosaccharides found in the oligosaccharide fraction.

RESULTS

the most abundant components of the low molecular weight carbohydrate-rich fraction were maltotriose and maltotetraose, with detectable amounts of maltopentaose. When authentic maltooligosaccharides were tested using lymphocytes, IL-2 inhibition was observed. This activity was dependent upon the number of saccharide subunits, stereochemistry, and concentration. To further test maltooligosaccharide properties, maltopentose was attached to glass cover slips. Although spontaneous neutrophil motility was observed on unmodified and control surfaces, it was inhibited on maltooligosaccharide-derivatized surfaces.

CONCLUSION

maltooligosaccharides are associated with the trophoblast's surface where they may exhibit immunoregulatory activities.

Human amniotic epithelial cells ameliorate behavioral dysfunction and reduce infarct size in the rat middle cerebral artery occlusion model

Human amniotic epithelial cells (hAECs), having the characteristics of both embryonic and pluripotent stem cells, have the potential to differentiate into various cells. A good deal of research has explored the clinical therapeutic potential of hAECs; rat amniotic epithelial cells have been reported to ameliorate functional deficits after stroke in rats, likely due to neuronal differentiation and cytokine secretion by these cells. We isolated hAECs and transfected them with glial cell line-derived neurotrophic factor (GDNF) or enhanced green fluorescent protein (EGFP) gene using lentiviral vectors. These cells were then transplanted into the brains of rats subjected to a transient middle cerebral artery occlusion. The hAECs survived and migrated to the ischemic area of rats, and some of the transplanted hAECs expressed the neuronal marker MAP2 and the neuronal progenitor marker Nestin, together with the astrocyte marker glial fibrillary acidic protein, and hAEC-EGFP can significantly ameliorate behavioral dysfunction and reduce infarct volume of ischemic rats. By transfecting the cells with lentiviral vectors, GDNF can be stably overexpressed in hAECs, and hAEC-GDNF can more rapidly rescue the deficits of rats after middle cerebral artery occlusion compared with hAEC-EGFP-treated rats. Moreover, the nontransduced cells also had effects comparable to the GDNF-transduced cells on caspase-3 and lesion volume. Because hAECs are in unlimited supply, and their use is not encumbered by ethical arguments, hAECs have a great advantage for stem cell therapy. This model holds tremendous potential for development into wide use in cell-mediated gene therapy in the future.

Ocular Surface Epithelial Cells Up-Regulate HLA-G When Expanded In Vitro on Amniotic Membrane Substrates

PURPOSE

To study the modulation of immunoregulatory genes in ocular surface epithelial cells cultured on amniotic membrane (AM).

METHODS

Microarray analysis was performed in a conjunctival epithelial cell line (CCL20.2) expanded on denuded AM. Among the genes that were upregulated by an AM substrate compared with collagen-coated dishes, the fetal nonclassic major histocompatibility complex molecule, HLA-G, was found to be the only immunoregulatory gene up-regulated by more than 2.5-fold. Because CCL20.2 is contaminated by HeLa cells, expression of HLA-G mRNA was confirmed in primary-cultured limbal (LE) and conjunctival epithelial (CE) cells by reverse transcriptase-polymerase chain reaction (RT-PCR), semiquantitative real-time PCR, immunocytochemistry, and Western blot analysis. A functional assay was performed using an HLA-G-transfected K-562 human erythroleukemia cell line.

RESULTS

Freshly dissociated limbal epithelial cells express HLA-G mRNA; however, protein levels were low. Western blots and immunocytochemistry showed that both LE and CE cells upregulated the HLA-G protein when cultured on collagen-coated dishes and on AM. HLA-G mRNA levels were significantly higher in CE cultured on AM compared with collagen. Natural killer (NK) cell-induced cell lysis of an HLA class 1-negative K-562 human erythroleukemia cell line was slightly reduced when transfected with LE-derived HLA-G mRNA.

CONCLUSION

CE and LE cells express functional HLA-G when expanded ex vivo, which may affect inflammation and immune reaction when transplanted to the ocular surface.

Trophoblast contact deactivates human neutrophils

Trophoblasts are fetal epithelial cells that form an interface between mother and offspring. To evaluate their anti-inflammatory capacity, we tested the hypothesis that trophoblasts deactivate neutrophils using single-cell assays. Several biophysical (Ca2+ and NAD(P)H oscillation frequency) and physiological (oxidant production) markers of activated neutrophils revert to a nonactivated phenotype as activated cells make contact with trophoblasts. Indistinguishable results were obtained using syncytiotrophoblasts and in experiments using trophoblasts and neutrophils from the same mother to recapitulate the semiallogeneic system. These changes suggest reduced hexose monophosphate shunt (HMS) activity. We discovered that two metabolic regulatory points, glucose transport and HMS enzyme trafficking, are affected by trophoblasts. This restriction in HMS activity deactivates neutrophils, thereby limiting oxidative DNA damage within trophoblasts.

Heat shock reduces developmental competence and alters spindle configuration of bovine oocytes

Heat shock may enhance the thermotolerance of, or cause detrimental effects on, a variety of cell types or organisms, depending on the duration and intensity of the thermal challenge. Experiments were designed to investigate the effect of heat shock on the developmental competence and cytoskeletal structures of bovine oocytes following IVF. In Experiment 1, bovine cumulus-oocyte complexes (COCs) were subjected to standard IVM culture conditions for 20 h and were then randomly allocated to groups for heat shock at 42 degrees C for 0 (control), 1, 2, or 4h. The oocytes were fertilized after heat shock and followed by culture in KSOM for 8d. There were no significant differences in cleavage rates, but blastocyst formation (27% versus 44%) and total cell number per blastocyst (82+/-21 versus 108+/-36; mean+/-S.D.) were lower in the 4-h heat shock group compared to the control (P<0.05). Trophectoderm, but not ICM, cell numbers were decreased (P<0.05) in the 4-h heat shock group compared to the control. Alterations in the meiotic spindle of IVM oocytes (n=120-126) were examined after 1 to 4-h of heat shock in Experiments 2 and 3. The metaphase spindle became elongated or aberrant and smaller following heat shock, compared to the non-heat shock oocytes (P<0.05). The basis for changes in spindle configuration and the differential decrease in trophectoderm cell numbers after heat shock are not clear, but may lead to reduced embryonic development and perhaps the low pregnancy rate of domestic animals during hot seasons.

Implantation and immunology: maternal inflammatory and immune cellular responses to implantation and trophoblast invasion

Implantation and placentation present an immune challenge because of the semi-allogeneic nature of the conceptus. In this review, histological evidence for maternal immune cellular responses at the implantation site is summarized. Decidualization of the endometrium itself has features in common with an inflammatory response. During decidualization, infiltration by uterine natural killer (NK) cells occurs, and these interact with the non-polymorphic human leukocyte antigen (HLA) class I antigens expressed by invading extravillous trophoblasts. In humans, extension of trophoblast invasion beyond the decidual layer into the myometrium presents an additional challenge, which might be relevant for pregnancy complications such as pre-eclampsia. How far maternal cellular responses to invading trophoblasts seen at later stages of pregnancy can be traced back to the implantation period is an open question.

Immunosuppressive properties of human amniotic membrane for mixed lymphocyte reaction

The combination of allograft limbal transplantation (ALT) and amniotic membrane transplantation (AMT) has been applied in the treatment of severe ocular surface diseases. The beneficial effect of this combination has been thought to result from possible immunosuppressive ability of amniotic membrane (AM). However, the mechanisms of any such ability remain unknown. In this study, we investigated whether human AM has the ability to suppress allo-reactive T cell responses in vitro. For mixed lymphocyte reaction (MLR), lymphocytes isolated from lymph nodes of C57BL/6 mice (Mls1b, Vbeta6+) were cultured with irradiated splenocytes from DBA/2 mice (Mls1a, Vbeta6-) with or without human AM. For carboxyfluorescein diacetate succinimidyl ester (CFSE) experiments, responder lymph node cells were labelled with a stable intracellular fluorescent dye and cultured with irradiated stimulator cells. The ratio of responder Vbeta6+ T cells was then determined by FACS analysis, and the division profiles of responder Vbeta6+ T cells were analysed by CFSE content. Furthermore, Th1 and Th2 cytokine synthesis by allo-reactive T cells in MLR culture supernatants was determined by enzyme-linked immunosorbent assay (ELISA). Addition of AM to the MLR culture resulted in the significant inhibition of thymidine incorporation compared with control culture lacking AM. The population of responder CD4+Vbeta6+ T cells was significantly reduced in the AM-treated culture in comparison to control. CFSE analysis revealed less division and lower proliferation of responder CD4+Vbeta6+ T cells in cultures with AM than without. In addition, allo-rective T cell synthesis of both Th1 (IL-2 and IFNgamma) and Th2 (IL-6 and IL-10) type cytokine was significantly decreased in the presence of AM. These results indicate that human AM has the ability to suppress allo-reactive T cells in vitro. This inhibitory effect likely contributes to the success of the ALT-AMT combination.

T-Ag inhibits implantation by EC cell derived embryoid bodies

When introduced into EC cells of a blastocyst, polyomavirus (Py) T-Ag results in mice mosaic for T-Ag but otherwise essentially normal. It had been reported that SV40 T-Ag does not inhibit differentiation of F9 EC cells, but did inhibit endogenous retrovirus (ERV) production. We therefore sought to determine if Py T-Ag had any affect on EC derived embryoid body implantation onto mouse placenta. F9 EC cells were selected for T-Ag maintenance. Like the SV40 transformed cells, we show that these Py T-Ag selected EC cells no longer express IAP transcripts following differentiation into embryoid bodies. Normal and Py T-Ag selected F9 cells were differentiated into embryoid bodies then implanted into pseudopregnant mice. We observe, that normal F9 derived embryoid bodies underwent the initial stages of implantation whereas the Py T-Ag selected embryoid bodied did not implant. The implications of this observation with respect to trophectoderm and ERV function are discussed. We examine the idea that ERVs may be a required element for normal embryo implantation.

Use of a chemically defined system for the direct comparison of inner cell mass and trophectoderm distribution in murine, porcine and bovine embryos

The mammalian blastocyst comprises an inner cell mass (ICM) and a trophectoderm cell layer. In this study the allocation of blastomeres to either cell lineage was compared between murine, porcine and bovine blastocysts. Chemical permeation of trophectoderm cells by the Ca2+ ionophore A23187 in combination with DNA-specific fluorochromes resulted in the differential staining of trophectoderm and ICM. Confocal microscopy confirmed the exclusive permeation of trophectoderm and the internal localisation of intact ICM cells in bovine blastocysts. Overall, differential cell counts were obtained in approximately 85% of the embryos assessed. Mean (+/-SEM) total cell numbers were 72.2+/-3.1 and 93.1+/-5 for in vivo derived murine (n = 41) and porcine (n = 21) expanded blastocysts, respectively. Corresponding ICM cell number counts revealed ICM/total cell number ratios of 0.27 and 0.21, respectively. Comparison of in vivo (n = 20) and in vitro derived bovine embryos on day 8 (n = 29) or day 9 (n = 29) revealed a total cell number of 195.25+/-9.9, 166.14+/-9.9 and 105+/-6.7 at the expanded blastocyst stage with corresponding ICM/total cell ratios of 0.27, 0.23 and 0.23, respectively. While total cell numbers differed significantly among the three groups of bovine embryos (p < 0.05), the ICM/total cell ratio did not. These results indicate that a similar proportion of cells is allocated to the ICM among blastocysts of genetically divergent species.

Human placental cytotrophoblasts produce the immunosuppressive cytokine interleukin 10

The mechanism by which the mammalian mother accepts the implanting fetus as an allograft remains unexplained, but is likely to be the result of a combination of factors. Mononuclear cytotrophoblasts, the specialized fetal cells of the placenta that invade the uterus, play an important role. These cells express HLA-G, an unusual major histocompatibility complex class I-B molecule, and secrete cytokines and pregnancy-specific proteins that can regulate immune function. We investigated whether cytotrophoblasts secrete interleukin 10 (IL-10), a cytokine that potently inhibits alloresponses in mixed lymphocyte reactions. Cytotrophoblasts from all stages of pregnancy produced IL-10 in vitro, but neither placental fibroblasts nor choriocarcinoma (malignant trophoblast) cell lines did so. Spontaneous IL-10 production averaged 650, 853, and 992 pg/10(6) cells in the first, second, and third trimesters of pregnancy, respectively. IL-10 secretion dropped approximately 10-fold after the first 24 h of culture, and was paralleled by a decrease in messenger RNA. IL-10 messenger RNA was detected in biopsies of the placenta and the portion of the uterus that contains invasive cytotrophoblasts, suggesting that this cytokine is also produced in vivo. IL-10 secreted by cytotrophoblasts in vitro is bioactive, as determined by its ability to suppress interferon gamma production in an allogeneic mixed lymphocyte reaction. We conclude that human cytotrophoblast IL-10 may be an important factor that contributes to maternal tolerance of the allogeneic fetus.

Modulation of mouse sperm-egg interaction, early embryonic development and trophoblastic outgrowth by activated and unactivated macrophages

Exposure of mouse spermatozoa and oocytes duringin vitro fertilization (IVF) to lipopolysaccharide (LPS) and phorbol myristate acetate (PMA) activated macrophages (U937 cell line), but not unactivated macrophages cultureconditioned medium or control medium (RMPI+DMEM with 0.5% FBS) resulted in inhibition of IVF (87.2%), first cleavage (90.8%) and total blastocyst formation 97.5%). The direct coculture of the activated macrophages with 2-cell stage embryos resulted in arrested development (91.2%), an effect that was significantly diminished in the presence of monolayer of human endometrial stromal cells in the coculture (58.3%). In contrast, the majority of 2-cell embryos developed to blastocysts when exposed to unactivated macrophages, or macrophage-stromal cell cocultures (94.1%). The majority of 2-cell embryos cultured in control medium (DMEM/Ham's F12 with 2% FBS) developed to morulae (96.2%), then underwent growth arrest and degeneration. Furthermore, culturing blastocyst stage embryos in the above groups resulted in a significant enhancement of trophoblast outgrowth, particularly in coculture with activated macrophages as compared to any other group (P<0.005). There was a significant increase in the levels of TGF-β, GM-CSF, IL-1α, IL-1β, TNF-α, PGE(2), TXB(2) and LTB(4) released into the culture conditioned medium of activated macrophages compared to unactivated macrophages (P<0.001). These results suggest that the secretory products of activated macrophages, among them those determined in this study, in a stage-specific manner can directly effect sperm-egg interaction, early embryonic development and trophoblastic outgrowth. This data provides further support for the hypothesis that in endometriosis-associated infertility, continuous exposure of spermatozoa, oocytes and early embryos to activated macrophage-derived factors may play a vital role in their survival during transportation and fertilization as well as development during early embryonic stage.