Direct and Indirect endocrine-mediated suppression of human endometrial CD8+T cell cytotoxicity.

Regulation of endometrial (EM) CD8+T cells is essential for successful reproduction and protection against pathogens. Suppression of CD8+T cells is necessary for a tolerogenic environment that promotes implantation and pregnancy. However, the mechanisms regulating this process remain unclear. Sex hormones are known to control immune responses directly on immune cells and indirectly through the tissue environment. When the actions of estradiol (E2), progesterone (P) and TGFß on EM CD8+T cells were evaluated, cytotoxic activity, perforin and granzymes were directly suppressed by E2 and TGFß but not P. Moreover, incubation of polarized EM epithelial cells with P, but not E2, increased TGFß secretion. These findings suggest that E2 acts directly on CD8+T cell to suppress cytotoxic activity while P acts indirectly through induction of TGFß production. Understanding the mechanisms involved in regulating endometrial CD8+T cells is essential for optimizing reproductive success and developing protective strategies against genital infections and gynecological cancers.

Dendritic cells from the human female reproductive tract rapidly capture and respond to HIV.

Dendritic cells (DCs) throughout the female reproductive tract (FRT) were examined for phenotype, HIV capture ability and innate anti-HIV responses. Two main CD11c+ DC subsets were identified: CD11b+ and CD11blow DCs. CD11b+CD14+ DCs were the most abundant throughout the tract. A majority of CD11c+CD14+ cells corresponded to CD1c+ myeloid DCs, whereas the rest lacked CD1c and CD163 expression (macrophage marker) and may represent monocyte-derived cells. In addition, we identified CD103+ DCs, located exclusively in the endometrium, whereas DC-SIGN+ DCs were broadly distributed throughout the FRT. Following exposure to GFP-labeled HIV particles, CD14+ DC-SIGN+ as well as CD14+ DC-SIGN- cells captured virus, with ∼30% of these cells representing CD1c+ myeloid DCs. CD103+ DCs lacked HIV capture ability. Exposure of FRT DCs to HIV induced secretion of CCL2, CCR5 ligands, interleukin (IL)-8, elafin, and secretory leukocyte peptidase inhibitor (SLPI) within 3 h of exposure, whereas classical pro-inflammatory molecules did not change and interferon-α2 and IL-10 were undetectable. Furthermore, elafin and SLPI upregulation, but not CCL5, were suppressed by estradiol pre-treatment. Our results suggest that specific DC subsets in the FRT have the potential for capture and dissemination of HIV, exert antiviral responses and likely contribute to the recruitment of HIV-target cells through the secretion of innate immune molecules.

Phenotype and susceptibility to HIV infection of CD4+ Th17 cells in the human female reproductive tract.

Prevention of sexual acquisition of HIV in women requires a substantial increase in our knowledge about HIV-target cell availability and regulation in the female reproductive tract (FRT). In this study, we analyzed the phenotype and susceptibility to HIV infection of CD4(+) T cell in the endometrium (EM), endocervix (END), and ectocervix (ECT) of the FRT. We found that T helper type 17 (Th17) cells represent a major subset in FRT tissues analyzed and that Th17 cells were the main CD4(+) T-cell population expressing C-C motif chemokine receptor 5 (CCR5) and CD90. In premenopausal women, CD4(+) T cells and Th17 cells, in particular, were significantly lower in EM relative to END and ECT. Th17 cells were elevated in EM from postmenopausal women relative to premenopausal tissues but not changed in END and ECT. Susceptibility of CD4(+) T cells to HIV infection measured as intracellular p24 was lowest in the EM and highest in the ECT. Additionally, we found that Th17 cells co-expressing CCR5 and CD90 were the most susceptible to HIV infection. Our results provide valuable information for designing preventive strategies directed at targeting highly susceptible target cells in the FRT.

Innate and adaptive immunity at mucosal surfaces of the female reproductive tract: stratification and integration of immune protection against the transmission of sexually transmitted infections.

This review examines the multiple levels of pre-existing immunity in the upper and lower female reproductive tract. In addition, we highlight the need for further research of innate and adaptive immune protection of mucosal surfaces in the female reproductive tract. Innate mechanisms include the mucus lining, a tight epithelial barrier and the secretion of antimicrobial peptides and cytokines by epithelial and innate immune cells. Stimulation of the innate immune system also serves to bridge the adaptive arm resulting in the generation of pathogen-specific humoral and cell-mediated immunity. Less understood are the multiple components that act in a coordinated way to provide a network of ongoing protection. Innate and adaptive immunity in the human female reproductive tract are influenced by the stage of menstrual cycle and are directly regulated by the sex steroid hormones, progesterone and estradiol. Furthermore, the effect of hormones on immunity is mediated both directly on immune and epithelial cells and indirectly by stimulating growth factor secretion from stromal cells. The goal of this review is to focus on the diverse aspects of the innate and adaptive immune systems that contribute to a unique network of protection throughout the female reproductive tract.

Epithelial cell secretions from the human female reproductive tract inhibit sexually transmitted pathogens and Candida albicans but not Lactobacillus.

Female reproductive tract (FRT) epithelial cells protect against potential pathogens and sexually transmitted infections. The purpose of this study was to determine if epithelial cells from the upper FRT secrete antimicrobials that inhibit reproductive tract pathogens that threaten women's health. Apical secretions from primary cultures of Fallopian tube, uterine, cervical, and ectocervical epithelial cells were incubated with Neisseria gonorrhoeae, Candida albicans (yeast and hyphal forms), human immunodeficiency virus 1 (HIV-1), and Lactobacillus crispatus before being tested for their ability to grow and/or infect target cells. Epithelial cell secretions from the upper FRT inhibit N. gonorrhoeae and both forms of Candida, as well as reduce HIV-1 (R5) infection of target cells. In contrast, none had an inhibitory effect on L. crispatus. An analysis of cytokines and chemokines in uterine secretions revealed several molecules that could account for pathogen inhibition. These findings provide definitive evidence for the critical role of epithelial cells in protecting the FRT from infections, without comprising the beneficial presence of L. crispatus, which is part of the normal vaginal microflora of humans.

Human decidual NK cells from gravid uteri and NK cells from cycling endometrium are distinct NK cell subsets.

Human NK cells from the decidua basalis of gravid uteri and from the cycling endometrium of women undergoing hysterectomy were isolated and compared by gene expression profiling using Affymetrix microarrays with probes representing approximately 47,400 transcripts. Substantial differences indicate that these two types of NK cells represent distinct subsets.

Estradiol selectively regulates innate immune function by polarized human uterine epithelial cells in culture.

The goal of this study was to examine the role of E(2) in regulating innate immune protection by human uterine epithelial cells (UECs). Recognizing that UECs produce cytokines and chemokines to recruit and activate immune cells as well as viral and bacterial antimicrobials, we sought to examine the effect of E(2) on constitutive and Toll-like receptor (TLR) agonist (lipopolysaccharide (LPS) and poly (I:C))-induced immune responses. The secretion by polarized UECs in culture of interleukin (IL)-6, macrophage inhibitory factor (MIF), and secretory leukocyte protease inhibitor (SLPI) was examined as well as the mRNA expression of human beta-defensin-2 (HBD2), tumor necrosis factor (TNF)-alpha, IL-8, and nuclear factor (NF)-kB. When incubated with E(2) for 24-48 h, we found that E(2) stimulated UEC secretion of SLPI (fourfold) and mRNA expression of HBD2 (fivefold). Moreover, when antibacterial activity in UEC secretions was measured using Staphylococcus aureus, E(2) increased the secretion of soluble factor(s) with antibacterial activity. In contrast, E(2) had no effect on constitutive secretion of proinflammatory cytokines and chemokines by UECs but completely inhibited LPS- and poly (I:C)-induced secretion of MIF, IL-6, and IL-8. Estradiol also reversed the stimulatory effects of IL-1beta on mRNA expression of TNF-alpha, IL-8, and NF-kB by 85, 95, and 70%, respectively. As SLPI is known to inhibit NF-kB expression, these findings suggest that E(2) inhibition of proinflammatory cytokines may be mediated through SLPI regulation of NF-kB. Overall, these findings indicate that the production of cytokines, chemokines, and antimicrobials by UECs are differentially regulated by E(2). Further, it suggests that with E(2) regulation, epithelial cells that line the uterine cavity have evolved immunologically to be sensitive to viral and bacterial infections as well as the constraints of procreation.

Inhibition of human neutrophil degranulation by transforming growth factor-beta1.

Neutrophils enter tissues including the uterus and are found in the endometrium in increased numbers prior to menses. In this environment, they are exposed to transforming growth factor (TGF)-beta1 produced by endometrial stromal and epithelial cells. We observed that incubation of neutrophils in vitro with TGF-beta1 at 1 pg/ml significantly reduced their secretion of lactoferrin in response to lipopolysaccharide (LPS). This effect was achieved with as little as 15 min of pretreatment with TGF-beta1. Inhibition of lactoferrin release by TGF-beta1 was observed irrespective of whether neutrophils were stimulated by ligands for Toll-like receptor (TLR)-2, TLR-4 or FPR, the G protein-coupled receptor for formylated peptides. Inhibition by TGF-beta1 was negated by SB-431542, a small molecule inhibitor that specifically blocks the kinase activity of the type I TGF-beta receptor (ALK5) In contrast to lactoferrin release, another important neutrophil function, interleukin (IL)-8 driven chemotaxis, was not affected by TGF-beta1 at 1 pg/ml or 100 pg/ml. We conclude that in tissues of the female reproductive tract, TGF-beta1 inhibition of neutrophil degranulation may prevent these cells from initiating an inflammatory response or releasing degradative enzymes that could potentially damage the oocyte or fetus.

Secretion of cytokines and chemokines by polarized human epithelial cells from the female reproductive tract.

BACKGROUND: Pro-inflammatory chemokines that attract and cytokines that activate immune cells contribute to normal physiological homeostasis in the female reproductive tract, and are needed to deal effectively with potential pathogenic microbes. Mucosal epithelial cells are capable of producing these factors that communicate with cells of the innate and adaptive immune systems. METHODS: Epithelial cells from Fallopian tube, endometrium and endocervix were isolated and grown to high transepithelial resistance in cell inserts from seven patients who had hysterectomies. Interleukin (IL)-8, IL-6, granulocyte colony-stimulating factor (G-CSF), monocyte chemoattractant protein-1 (MCP-1), granulocyte-macrophage colony-stimulating factor (GM-CSF), tumour necrosis factor-alpha (TNF-alpha) and macrophage inflammatory peptide-1beta (MIP-1beta) were assessed by Luminex bead analysis or enzyme-linked immunosorbent assay (ELISA) in epithelial cell conditioned media from the apical and basolateral compartments. RESULTS: With the exception of MCP-1, the seven chemokines/cytokines constitutively produced by the polarized epithelial cells were preferentially secreted apically. A concentration pattern was found in all cases, with IL-8 and IL-6 produced in the greatest quantity. CONCLUSIONS: The concentrations of IL-8, IL-6, G-CSF and MCP-1 are similar to the levels found in reproductive tract fluids of patients with infection. The constitutive secretion and compartmentalization of large quantities of bioactive chemokines and cytokines provide additional evidence for the role of epithelial cells as gatekeepers of innate immune protection in the female reproductive tract.

MHC class II expression and antigen presentation by human endometrial cells.

It has been demonstrated previously that mixed cell suspensions from the female reproductive tract consisting of human epithelial and stromal cells were capable of presenting foreign antigen to autologous T cells. There have been, however, no reported studies examining antigen presentation by isolated epithelial cells from the human female reproductive tract. It is now shown that freshly isolated epithelial cells from the uterine endometrium constitutively express MHC class II antigen and that class II was upregulated on cultured epithelium by interferon gamma (IFNgamma). Using a highly purified preparation, it was demonstrated that these epithelial cells were able to process and present tetanus toxoid recall antigen driving autologous T cell proliferation. Cells isolated from the basolateral sub-epithelium stroma were also potent antigen presenting cells in this model system. Thus, isolated endometrial epithelial cells were able to directly process and present antigen to T cells and may be responsible for the transcytosis and delivery of antigen to professional antigen presenting cells found in the sub-epithelial stroma.