Anna E. S. Brooks

Cutting Edge: CD1a+ Antigen-Presenting Cells in Human Dermis Respond Rapidly to CCR7 Ligands

Recent data from murine models have confirmed that Langerhans cells are not the only population of APCs in the skin involved in initiating immune responses. In healthy human skin, we identify CD1a+ dermal APCs located close to the lymphatic vessels in the upper layers of the dermis that are unequivocally distinct from migrating Langerhans cells but exhibit both potent allostimulatory capacity and a chemotactic response to CCR7 ligands. In contrast, CD14+ dermal APCs are distributed throughout the dermis and lack a chemotactic response to CCR7 ligands. CD1a+ dermal APCs therefore represent an APC population distinct from Langerhans cells that are capable of migrating to lymph nodes and stimulating naive T cells. In humans, CD1a+ dermal APCs may fulfill some of the roles previously ascribed to Langerhans cells.

Direct peptide lipidation through thiol-ene coupling enables rapid synthesis and evaluation of self-adjuvanting vaccine candidates.

A radical lipidation: Application of a novel thiol-ene lipidation enables the one-step synthesis of self-adjuvanting antigenic peptides as vaccine candidates. The resultant monoacyl lipopeptides are shown to activate monocytes in a robust manner.

Detailed analysis of inflammatory and neuromodulatory cytokine secretion from human NT2 astrocytes using multiplex bead array

Astrocytes are a very important cell type in the brain fulfilling roles in both neuroimmunology and neurotransmission. We have conducted the most comprehensive analysis of secreted cytokines conducted to date (astrocytes of any source) to determine whether astrocytes derived from the human Ntera2 (NT2) cell-line are a good model of human primary astrocytes. We have compared the secretion of cytokines from NT2 astrocytes with those produced in astrocyte enriched human brain cultures and additional cytokines implicated in brain injury or known to be expressed in the human brain. The concentration of cytokines was measured in astrocyte conditioned media using multiplex bead array (MBA), where 18 cytokines were measured simultaneously. Resting NT2 astrocytes produced low levels (∼1-30 pg/ml) of MIP1α, IL-6 and GM-CSF and higher levels of MCP-1, IP-10 and IL-8 (1-11 ng/ml) under non-inflammatory conditions. All of these in addition to IL-1β, TNFα, and IL-13, were increased by pro-inflammatory activation (TNFα or IL-1β stimulation). In contrast, IL-2, IL-4, IL-5, IL-7, IL-10, IL-12, LTα, and IFNγ were not detected in astrocyte conditioned media under any of the culture conditions tested. NT2 astrocytes were unresponsive to IL-2 and the adenyl cyclase agonist, forskolin. Interestingly, IFNγ stimulation selectively increased IP-10 secretion only. As astrocytes stimulated with IL-1β or TNFα produced several chemokines in the ng/ml range, we next assessed the chemoattractant properties of these cells. Conditioned media from TNFα-stimulated astrocytes significantly chemoattracted leukocytes from human blood. This study provides the most comprehensive analysis of cytokine production by human astrocytes thus far, and shows that NT2 astrocytes are highly responsive to pro-inflammatory mediators including TNFα and IL-1β, producing cytokines and chemokines capable of attracting leukocytes from human blood. We conclude that in the absence of adult human primary astrocytes that NT2-astrocytes may provide a valuable alternative to study the immunological behaviour of human astrocytes.

The adherence of Trichomonas vaginalis to host ectocervical cells is influenced by lactobacilli.

Objectives Trichomoniasis is a common sexually transmitted disease, and adhesion of the pathogen Trichomonas vaginalis to the host vaginal cells is the first step in establishing infection. For this to happen, the pathogen has to overcome a natural protective barrier composed mostly of lactobacilli. The objective of this study was to understand the role of lactobacilli in the adhesion of T vaginalis to host cells. Methods Adhesion assays were carried out by incubating vaginal epithelial cells (VECs) with T vaginalis and lactobacilli together and compared with non-lactobacilli recipient controls. By varying incubation parameters and testing several microbial isolates, the number of pathogens that adhered to the VECs was determined by flow cytometry. Results Overall, but with few exceptions, lactobacilli caused inhibition of T vaginalis adhesion to a variable degree. Lactobacillus gasseri ATCC 9857 and CBI3 (ambiguous Lactobacillus plantarum or Lactobacillus pentosus) caused the highest level of parasite adhesion inhibition and enhancement, respectively. These isolates of Lactobacillus can profoundly alter the adhesive properties of low-adherent and high-adherent strains of T vaginalis in a dose-dependent manner. Additionally, the effects of lactobacilli on T vaginalis adhesion are strictly contact-dependent, and surface lipoglycans of T vaginalis are most likely not involved in this modulation of adhesion mediated by the bacteria. Conclusions Lactobacilli can modulate adhesion of T vaginalis by significantly modifying the natural adhesive properties of various T vaginalis strains. This study highlights the importance of considering the role of the vaginal microbiota in the pathogenesis of trichomoniasis.

Clinical variability of family members with the C104R mutation in transmembrane activator and calcium modulator and cyclophilin ligand interactor (TACI).

PurposeCommon Variable Immunodeficiency Disorder (CVID) is a complex disorder that predisposes patients to recurrent and severe infections. The C104R mutation in the transmembrane activator and calcium modulator and cyclophilin ligand interactor (TACI) is the most frequent mutation identified in patients with CVID. We carried out a detailed immunological and molecular study in a family with a C104R mutation.MethodsWe have undertaken segregation analysis of a kindred with C104R mutations of the TACI gene. Detailed immunological and molecular investigations were carried out for this kindred and the clinical phenotype was compared to the genotype.ResultsSegregation analysis of our kindred showed that inheriting single or double copy of the C104R mutation does not consign an individual to CVID. All heterozygotes in the family were phenotypically different, ranging from asymptomatic to ill-health. A family member with a wild type TACI variant had CVID-related phenotype including IgA deficiency and type 1 diabetes. Interestingly, a family member with the homozygous C104R/C104R variant did not meet the criteria for CVID because he had excellent, albeit unsustained, vaccine responses to T cell dependent and T cell independent vaccine antigens despite profound hypogammaglobulinemia.ConclusionThe C104R mutation does not correlate with the clinical phenotypes in this family.

Sphingosine‐1‐phosphate lyase is expressed by CD68+ cells on the parenchymal side of marginal reticular cells in human lymph nodes

Lymph nodes (LNs) form the intersection between the vascular and lymphatic systems. Lymphocytes and antigen‐presenting cells (APCs) traffic between these systems, but the barriers crossed during this trafficking in human LNs are poorly defined. We identified a population of cells in human LNs that lines the boundary between the parenchyma and lymphatic sinuses, consistent with descriptions of marginal reticular cells (MRCs) in murine LNs. Human MRCs are CD141high podoplanin+, CD90+, ICAM1+, and VCAM1+ but lack endothelial and hematopoietic cell markers, or alpha‐smooth muscle actin. We then examined expression of the enzyme sphingosine‐1‐phosphate (S1P) lyase (SGPL1) relative to the boundary defined by MRCs. SGPL1 expression was almost exclusively restricted to cells on the parenchymal side of MRCs, consistent with a role in maintaining the S1P gradient between the sinuses and the parenchyma. Surprisingly the cells expressing SGPL1 in the parenchyma were CD68+ APCs. CD68+ APCs generated from human monocytes were able to internalize and irreversibly degrade S1P, and this activity was inhibited by the S1P analogue FTY720. This work provides a map of the key structures at the boundary where human lymphocytes egress into sinuses, and identifies a novel potential mechanism for the activity of S1P analogues in humans.

Cultured pericytes from human brain show phenotypic and functional differences associated with differential CD90 expression

The human brain is a highly vascular organ in which the blood-brain barrier (BBB) tightly regulates molecules entering the brain. Pericytes are an integral cell type of the BBB, regulating vascular integrity, neuroinflammation, angiogenesis and wound repair. Despite their importance, identifying pericytes amongst other perivascular cell types and deciphering their specific role in the neurovasculature remains a challenge. Using primary adult human brain cultures and fluorescent-activated cell sorting, we identified two CD73+CD45− mesenchymal populations that showed either high or low CD90 expression. CD90 is known to be present on neurons in the brain and peripheral blood vessels. We found in the human brain, that CD90 immunostaining localised to the neurovasculature and often associated with pericytes. In vitro, CD90+ cells exhibited higher basal proliferation, lower expression of markers αSMA and CD140b, produced less extracellular matrix (ECM) proteins, and exhibited lesser pro-inflammatory responses when compared to the CD90− population. Thus, CD90 distinguishes two interrelated, yet functionally distinct pericyte populations in the adult human brain that may have discrete roles in neurovascular function, immune response and scar formation.

An improved quantitative method to assess adhesive properties of Trichomonas vaginalis to host vaginal ectocervical cells using flow cytometry

Microbial adhesion is a critical step for infection and colonization of the host. Trichomonas vaginalis, a human urogenital extracellular parasite, relies on host cell adhesion for infection and pathogenesis. Although host cell adhesion of T. vaginalis is strain-dependent and it may be influenced by many environmental factors, a technical limitation to quantify T. vaginalis adhesion falls upon a laborious and time-consuming protocol of fluorescent microscopy. This technical limitation reduces the ability of screening multiple parameters or detecting multiple cell types simultaneously. Here we tested the capability of using flow cytometry as a qualitative and quantitative method to measure adhesion of this human infectious microorganism to vaginal ectocervical cells. Various strains of T. vaginalis with different adhesion properties were stained with CellTracker Orange (CMTMR) prior to incubation with host cells. Analyses by flow cytometry revealed that adhered CMTMR-stained parasites were clearly distinguishable from the host cells and also enabled absolute cell counts to be determined. This method was validated with the comparison of parasite strains that display variable degrees of host cell adhesion. This assay can now be applied to test many variables and environmental factors simultaneously that may affect T. vaginalis adhesion.

A multi-laboratory comparison of blood dendritic cell populations

HLDA10 collated a panel of monoclonal antibodies (mAbs) that primarily recognised molecules on human myeloid cell and dendritic cell (DC) populations. As part of the studies, we validated a backbone of mAbs to delineate monocyte and DC populations from peripheral blood. The mAb backbone allowed identification of monocyte and DC subsets using fluorochromes that were compatible with most ‘off the shelf’ or routine flow cytometers. Three laboratories used this mAb backbone to assess the HLDA10 panel on blood monocytes and DCs. Each laboratory was provided with enough mAbs to perform five repeat experiments. The data were collated and analysed using Spanning‐tree Progression Analysis of Density‐normalised Events (SPADE). The data were interrogated for inter‐ and intra‐laboratory variability. The results highlight the definition of DC populations using current readily available reagents. This collaborative process provides the broader scientific community with an invaluable data set that validates mAbs to leucocyte surface molecules.

New insights into the phenotype of human dendritic cell populations

HLDA10 is the Tenth Human Leukocyte Differentiation Antigen (HLDA) Workshop. The HLDA Workshops provide a mechanism to allocate cluster of differentiation (CD) nomenclature by engaging in interlaboratory studies. As the host laboratory, we invited researchers from national and international academic and commercial institutions to submit monoclonal antibodies (mAbs) to human leukocyte surface membrane molecules, particularly those that recognised molecules on human myeloid cell populations and dendritic cells (DCs). These mAbs were tested for activity and then distributed as a blinded panel to 15 international laboratories to test on different leukocyte populations. These populations included blood DCs, skin‐derived DCs, tonsil leukocytes, monocyte‐derived DCs, CD34‐derived DCs, macrophage populations and diagnostic acute myeloid leukaemia and lymphoma samples. Each laboratory was provided with enough mAb to perform five repeat experiments. Here, we summarise the reactivity of different mAb to 68 different cell‐surface molecules expressed by human myeloid and DC populations. Submitted mAbs to some of the molecules were further validated to collate data required to designate a formal CD number. This collaborative process provides the broader scientific community with an invaluable data set validating mAbs to leukocyte‐surface molecules.