John D. Hayball

Cross-presentation of male seminal fluid antigens elicits T cell activation to initiate the female immune response to pregnancy.

The events that generate T cell-mediated immune tolerance in early pregnancy are ill-defined. To investigate the significance of seminal fluid Ags in activating maternal T cells, and define the underlying Ag presentation pathways, OVA-specific T cells were adoptively transferred to female mice inseminated by males ubiquitously expressing membrane-bound OVA. OVA-reactive CD8+ OT-I and CD4+ OT-II T cells transferred to mated recipients expressed activation markers CD25 and CD69 and proliferated vigorously in the para-aortic lymph nodes, but not in distal lymph nodes or spleen, and OT-I T cells expressed IFN-γ and IL-2. In contrast, OT-I T cells transferred later in pregnancy or up to 10 days postpartum expressed CD25 and CD69 and proliferated in all peripheral lymphoid tissues examined. OVA Ag was present predominantly in the plasma fraction of seminal fluid, and seminal plasma, but not sperm, was necessary for T cell proliferation. Female H-2Kb bone marrow-derived cells expressing TAP were essential for OT-I T cell proliferation, but responses were not elicited by OVA Ag presented by paternal MHC in seminal fluid or associated with placental cells. This study shows that at conception, seminal fluid drives activation and expansion of paternal Ag-reactive CD4+ and CD8+ T cell populations, and female APCs have an essential role in cross-presenting Ag to CD8+ T cells via a TAP-dependent pathway. Delivery of paternal Ags and immune-deviating cytokines by seminal fluid at conception may activate Ag-dependent CD4+ and CD8+ regulatory T cells mediating tolerance of pregnancy.

Activating T regulatory cells for tolerance in early pregnancy — the contribution of seminal fluid

A state of active tolerance mediated by T regulatory (Treg) cells must be functional from the time of embryo implantation to prevent the conceptus from maternal immune attack. Male seminal fluid and ovarian steroid hormones are implicated in regulating the size and suppressive function of the Treg cell pool during the peri-implantation phase of early pregnancy. Evidence that antigens and cytokine signals in seminal fluid regulate the maternal immune response includes the following: (1) the Treg cell-inducing cytokine TGFbeta and male alloantigens are present in seminal fluid; (2) seminal fluid delivery at coitus is sufficient to induce a state of active immune tolerance to paternal alloantigen, even in the absence of conceptus tissue; (3) female dendritic cells can cross-present seminal fluid antigens to activate both CD8(+) and CD4(+) T cells, and (4) mating events deficient in either sperm or seminal plasma result in diminished CD4(+) CD25(+) Foxp3(+) Treg cell populations at the time of embryo implantation. Ongoing studies indicate that the cytokine environment during priming to male seminal fluid antigens influences the phenotype of responding T cells, and impacts fetal survival in later gestation. Collectively, these observations implicate factors in the peri-conceptual environment of both male and female origin as important determinants of maternal immune tolerance. Defining the mechanisms controlling tolerance induction will be helpful for developing new therapies for immune-mediated pathologies of pregnancy such as miscarriage and pre-eclampsia.

Seminal Fluid Regulates Accumulation of FOXP3+ Regulatory T Cells in the Preimplantation Mouse Uterus Through Expanding the FOXP3+ Cell Pool and CCL19-Mediated Recruitment

Regulatory T (Treg) cells facilitate maternal immune tolerance of the semiallogeneic conceptus in early pregnancy, but the origin and regulation of these cells at embryo implantation is unclear. During the preimplantation period, factors in the seminal fluid delivered at coitus cause expansion of a CD4+CD25+ putative Treg cell population in the para-aortic lymph nodes draining the uterus. Using flow cytometry, immunohistochemistry, and real-time quantitative PCR (qPCR) for the signature Treg cell transcription factor FOXP3, we confirmed the identity of the expanded lymph node population as FOXP3+ Treg cells and showed that this is accompanied by a comparable increase in the uterus of FOXP3+ Treg cells and expression of Foxp3 mRNA by Day 3.5 postcoitum. Seminal plasma was necessary for uterine Treg cell accumulation, as mating with seminal vesicle-deficient males failed to elicit an increase in uterine Treg cells. Furthermore seminal fluid induced expression of mRNA encoding the Treg chemokine CCL19 (MIP3beta), which acts through the CCR7 receptor to regulate Treg cell recruitment and retention in peripheral tissues. Glandular and luminal epithelial cells were identified as the major cellular origins of uterine CCL19, and exposure to both seminal plasma and sperm was required for maximum expression. Together, these results indicate that Treg cells accumulate in the uterus prior to embryo implantation and that seminal fluid is a key regulator of the uterine Treg cell population, operating by both increasing the pool of available Treg cells and promoting their CCL19-mediated recruitment from the circulation into the implantation site.

Overlapping T-cell epitopes in the group I allergen of Dermatophagoides species restricted by HLA-DP and HLA-DR class II molecules

The induction of IgE antibodies reactive with the group I allergen of Dermatophagoides species (house dust mite [HDM]), which comprise a major component of the allergic immune response in HDM-atopic individuals, is dependent on the functional activity of specific CD4+ T cells. In this report we demonstrate that for a particular HDM-atopic individual the T-cell response to the group I allergen of Dermatophagoides pteronyssinus (Der p I) is limited to a single region (residues 101-143) of the protein. By mapping the fine antigen specificity with T-cell clones, we observed that the sequence 101-131 of Der p I contains a cluster of at least three overlapping T-cell epitopes. Analysis of the HLA class II restriction specificity of the T-cell clones revealed that the T-cell epitope, residues 110-131, was restricted by HLA-DRB1*0101. In contrast, peptide Der p I, 110-119 was recognized in association with HLA-DPB1*0402. However, the ability of cloned T cells to proliferate to the peptide Der p I, 107-119 presented by HLA-DPB1*0401, HLA-DPB1*0402, and HLA-DPB1*0501 expressing accessory cells illustrates the heterogeneity of the restriction specificity of this region of Der p I. The application of this information in the design of peptide-based immunotherapy in the management of allergic responses to HDM is discussed.

Analysis of human T cell responses to the group II allergen of Dermatophagoides species: Localization of major antigenic sites

BACKGROUND IgE antibodies reactive with the group II allergens of Dermatophagoides species (house dust mite [HDM]) are a major component of the allergic immune response in HDM-allergic atopic individuals. METHODS Here we demonstrate, with the use of overlapping synthetic peptides of the group II allergen of Dermatophagoides pteronyssinus (Der p II), that polyclonal T cells isolated from the majority of atopic HDM-allergic individuals and healthy nonatopic control subjects respond to Der p II and that T-cell epitopes are present in all regions of the protein. RESULTS From comparison of peptide-specific T-cell proliferation in both groups of individuals, it appears that together peptides 61-86 and 78-104 are the most frequently recognized (16 of 18 individuals). We also observed that nine of the 18 individuals responded to T-cell epitopes in the region 11-50, and with Der p II-reactive T-cell clones, three distinct T-cell epitopes were mapped within the sequence 11-35. Also, with the use of T-cell clones, two additional epitopes were identified at residues 81-96 and 91-101. CONCLUSIONS These results suggest that T-cell epitopes located in these regions (11-50 and 61-104) are immunodominant. The value of this information in the potential application of Der p II peptides to desensitize HDM allergic responses is discussed.

Guanylated Polymethacrylates: A Class of Potent Antimicrobial Polymers with Low Hemolytic Activity

We have synthesized a series of copolymers containing both positively charged (amine, guanidine) and hydrophobic side chains (amphiphilic antimicrobial peptide mimics). To investigate the structure-activity relationships of these polymers, low polydispersity polymethacrylates of varying but uniform molecular weight and composition were synthesized, using a reversible addition-fragmentation chain transfer (RAFT) approach. In a facile second reaction, pendant amine groups were converted to guanidines, allowing for direct comparison of cation structure on activity and toxicity. The guanidine copolymers were much more active against Staphylococcus epidermidis and Candida albicans compared to the amine analogues. Activity against Staphylococcus epidermidis in the presence of fetal bovine serum was only maintained for guanidine copolymers. Selectivity for bacterial over mammalian cells was assessed using hemolytic and hemagglutination toxicity assays. Guanidine copolymers of low to moderate molecular weight and hydrophobicity had high antimicrobial activity with low toxicity. Optimum properties appear to be a balance between charge density, hydrophobic character, and polymer chain length. In conclusion, a suite of guanidine copolymers has been identified that represent a new class of antimicrobial polymers with high potency and low toxicity.

Peptide-induced nonresponsiveness of HLA-DP restricted human T cells reactive with Dermatophagoides spp. (house dust mite)☆

The activation of CD4+ T lymphocytes, which play a central role in allergic inflammation, depends on the recognition of allergen-derived peptides in association with major histocompatibility complex class II gene products. In this report we demonstrate, at a clonal level, that a component of the T-cell repertoire reactive with Dermatophagoides spp. (house dust mite) in atopic individuals, is restricted by HLA-DP class II molecules. This supports the recent results emerging from genetic epidemiologic studies that indicate positive associations between the HLA-DP phenotype and immune responsiveness to a variety of common allergens. Our findings also reveal that the T cells restricted by HLA-DP recognize a species-specific epitope located in the group I allergen of Dermatophagoides pteronyssinus (residues 101-119). Furthermore, we report that the pretreatment of the T cells restricted by HLA-DP with the Der p I peptide renders them nonresponsive to an immunogenic challenge with house dust mite allergen, and the loss of antigen-dependent proliferation is associated with downregulation of membrane expression of the T-cell antigen receptor. The ability to functionally inactivate T cells restricted by HLA-DP, as well as those that recognize allergen in association with HLA-DR class II molecules, suggests that desensitization with allergen-derived peptides may have therapeutic potential in the management of allergic diseases irrespective of their HLA class II association.

Dasatinib suppresses in vitro natural killer cell cytotoxicity

To the editor: The recent publication by Schade et al[1][1] demonstrated that the Src/Abl kinase inhibitor dasatinib (Sprycel), used for the treatment of chronic myeloid leukemia,[2][2] inhibits the function of T cells in vitro and in vivo. Dasatinib inhibition of the Src-family kinase LCK, which

Improving vaccines by incorporating immunological coadjuvants

While vaccination continues to be the most successful interventionist health policy to date, infectious disease remains a significant cause of death worldwide. A primary reason that vaccination is not able to generate effective immunity is a lack of appropriate adjuvants capable of initiating the desired immune response. Adjuvant combinations can potentially overcome this problem; however, the possible permutations to consider, which include the route and kinetics of vaccination, as well as combinations of adjuvants, are practically limitless. This review aims to summarize the current understanding of adjuvants and related immunological processes and how this knowledge can and has been applied to the strategic selection of adjuvant combinations as components of vaccines against human infectious disease.

Inhibiting the TLR4-MyD88 signalling cascade by genetic or pharmacological strategies reduces acute alcohol-induced sedation and motor impairment in mice.

BACKGROUND AND PURPOSE Emerging evidence implicates a role for toll‐like receptor 4 (TLR4) in the CNS effects of alcohol. The aim of the current study was to determine whether TLR4–MyD88‐dependent signalling is involved in the acute behavioural actions of alcohol and if alcohol can activate TLR4‐downstream MAPK and NF‐κB pathways.