Danika Schepis

Primary HIV-1 infection sets the stage for important B lymphocyte dysfunctions

Objectives:To investigate the effects of primary HIV-1 infection (PHI) and of two antiretroviral therapies [highly active antiretroviral therapy (HAART) or reverse transcriptase inhibitors (RTI)] on activation, differentiation and survival of B cells. Methods:Naive and memory B cells from three groups [PHI (31), chronic infection (26) and healthy donors (12)] were studied for surface expression of Fas, LAIR-1, CD70, intracellular expression of Bcl-2 and spontaneous apoptosis. Fluorescence activated cell sorting (IgD+IgM+CD19+CD27+) and short-term cell culture to analyse induction of CD25 on B cells were performed in five patients with PHI. Patients with PHI were sampled at baseline, and after 1 and 6 months of therapy. Results were analysed by parametric and non-parametric tests and by mathematical modelling. Results:In PHI, B cells were significantly decreased; naive and memory B lymphocytes showed a high degree of activation, manifested by hypergammaglobulinaemia, altered expression of Fas and LAIR-1, and high rate of spontaneous apoptosis. Antiretroviral treatment improved the activation/differentiation status of B cells, reduced apoptosis to levels comparable to those in healthy individuals and restored the ability of B cells to respond to T cell-dependent activation. B cells showed slightly better recovery in patients taking HAART than in those taking RTI. Decreased IgM-positive memory B cells and lower induction of CD25 expression on B cells upon T cell activation at diagnosis of PHI was shown in five patients tested. These parameters normalized after 6 months of therapy. Conclusion:B cell dysfunctions found in chronic HIV-1 infection appear during PHI and initiation of antiretroviral therapy early during infection may help to preserve the B cell compartment.

Increased proportion of CD56bright natural killer cells in active and inactive systemic lupus erythematosus

Natural killer (NK) cells belong to the innate immune system but can also affect adaptive immune reactions. This immune regulatory function is often ascribed to the CD56bright subpopulation of NK cells that is prevalent in secondary lymphoid tissues and has potent cytokine‐producing ability. The NK cells have been described as affecting autoimmune disease and stimulating B‐cell production of antibodies, but their role in systemic lupus erythematosus (SLE) pathology has not been extensively studied. We have studied NK cells in SLE, a B‐cell‐driven systemic autoimmune disease, and phenotypically characterized peripheral blood NK cells in comparison to NK cells from patients with immunoglobulin A nephritis, rheumatoid arthritis and healthy individuals. We have found an increased proportion of CD56bright NK cells in SLE, regardless of disease activity. We detected a somewhat increased expression of the activating receptor NKp46/CD335 on NK cells from SLE patients, although neither the percentage of NK cells of all lymphocytes nor the expression of other NK receptors analysed (LIR‐1/CD85j, CD94, NKG2C/CD159c, NKG2D/CD314, NKp30/CD337, NKp44/CD336, CD69) differed between patient groups. We show that type I interferon, a proinflammatory cytokine known to be abundant in SLE, can cause increases of CD56bright NK cells in vitro. We confirmed that serum levels of interferon‐α were increased in active, but not in inactive, disease in the SLE patient group. In conclusion, we found an increased proportion of CD56bright NK cells in the blood of SLE patients, although it remains to be examined whether and how this relates to the disease process.

Herpes Simplex Virus Infection Downmodulates NKG2D Ligand Expression

Herpes simplex virus (HSV) type 1 infection may cause orofacial infections in humans. The virus resides in a latent form in neural ganglia and occasionally reactivates and infects epithelial cells. Natural killer (NK) cells have been implicated in immune control of herpes virus infections, possibly by downmodulating major histocompatibility complex (MHC) class I and by other, as yet unidentified, mechanisms. Upon HSV‐1 infection of cell lines, surface levels of NKG2D ligands MHC class I related proteins (MIC) A and UL16 binding protein 2 were downmodulated due to late viral gene product(s). As also MHC class I levels were reduced by HSV‐1, NK cell recognition of HeLa cells was not affected by infection. Total cellular MICA contents remained unchanged, suggesting masking, internalization or intracellular retention of MICA as possible mechanisms of viral downregualtion of MICA surface levels. Furthermore, NK cells from patients with active HSV‐1 infection had a tendency towards increased expression level of the activating receptor NKG2D. These data support a role for NKG2D–MICA interactions in immune responses to HSV‐1 reactivation.

Multiple Polymorphisms Affect Expression and Function of the Neuropeptide S Receptor (NPSR1)

Background neuropeptide S (NPS) and its receptor NPSR1 act along the hypothalamic-pituitary-adrenal axis to modulate anxiety, fear responses, nociception and inflammation. The importance of the NPS-NPSR1 signaling pathway is highlighted by the observation that, in humans, NPSR1 polymorphism associates with asthma, inflammatory bowel disease, rheumatoid arthritis, panic disorders, and intermediate phenotypes of functional gastrointestinal disorders. Because of the genetic complexity at the NPSR1 locus, however, true causative variations remain to be identified, together with their specific effects on receptor expression or function. To gain insight into the mechanisms leading to NPSR1 disease-predisposing effects, we performed a thorough functional characterization of all NPSR1 promoter and coding SNPs commonly occurring in Caucasians (minor allele frequency >0.02). Principal Findings we identified one promoter SNP (rs2530547 [−103]) that significantly affects luciferase expression in gene reporter assays and NPSR1 mRNA levels in human leukocytes. We also detected quantitative differences in NPS-induced genome-wide transcriptional profiles and CRE-dependent luciferase activities associated with three NPSR1 non-synonymous SNPs (rs324981 [Ile107Asn], rs34705969 [Cys197Phe], rs727162 [Arg241Ser]), with a coding variant exhibiting a loss-of-function phenotype (197Phe). Potential mechanistic explanations were sought with molecular modelling and bioinformatics, and a pilot study of 2230 IBD cases and controls provided initial support to the hypothesis that different cis-combinations of these functional SNPs variably affect disease risk. Significance these findings represent a first step to decipher NPSR1 locus complexity and its impact on several human conditions NPS antagonists have been recently described, and our results are of potential pharmacogenetic relevance.

Concerted effect of lymphopenia, viraemia and T-cell activation on Fas expression of peripheral B cells in HIV-1-infected patients.

Objective:Decreased memory B-cell maintenance during HIV-1 infection has been associated with the viraemia-induced accumulation of activated memory B cells, sensitive to Fas-mediated apoptosis. We aimed at clarifying whether other B-cell subsets might also be affected by an increased Fas expression in HIV-1-infected patients, and we studied the possible contribution of viraemia, lymphopenia or T-cell activation in Fas upregulation on B cells. We analysed whether Fas upregulation might have collaborative effects with the dysregulation of other B-cell modulatory molecules, leukocyte-associated immunoglobulin-like receptor 1 (LAIR1) and programmed cell death protein 1 (PD-1), on B-cell homeostasis. Design:Fas, LAIR1 and PD-1 were analysed on B-cell subpopulations in HIV-1-infected patients who were treatment naive, nonlymphopenic; antiretroviral therapy (ART)-treated, nonlymphopenic; or ART-treated, lymphopenic or in noninfected controls. Methods:Flow cytometry was used to study B-cell subsets and Milliplex for serum cytokines. Results:Fas expression increased on all B-cell subpopulations of viraemic or lymphopenic individuals. The decreased ratio of resting memory B cells and their increased Fas expression were not normalized by ART. Cytokines associated with T-cell activation might influence Fas expression on the naive and transitional B cells. LAIR1 expression decreased in all HIV-1-infected patients, but only on memory B cells, whereas PD-1 increased on resting memory B cells in viraemic patients. Conclusion:Fas is regulated by the concerted action of viraemia, lymphopenia and T-cell activation during HIV-1 infection, and Fas expression is altered on all peripheral B-cell subsets. Resting memory B-cell homeostasis shows the highest sensitivity to HIV-1-induced perturbations.

Integration of known DNA, RNA and protein biomarkers provides prediction of anti-TNF response in rheumatoid arthritis: results from the COMBINE study.

OBJECTIVE: In rheumatoid arthritis (RA) several recent efforts have sought to discover means of predicting which patients would benefit from treatment. However, results have been discrepant with few successful replications. Our objective was to build a biobank with DNA, RNA and protein measurements to test the claim that the current state-of-the-art precision medicine will benefit RA patients. METHODS: We collected 451 blood samples from 61 healthy individuals and 185 RA patients initiating treatment, before treatment initiation and at a 3 month follow-up time. All samples were subjected to high-throughput RNA sequencing, DNA genotyping, extensive proteomics and flow cytometry measurements, as well as comprehensive clinical phenotyping. Literature review identified 2 proteins, 52 single-nucleotide polymorphisms (SNPs) and 72 gene-expression biomarkers that had previously been proposed as predictors of Tumor Necrosis Factor (TNF) inhibitor response (ΔDAS28-CRP), RESULTS: From these published TNFi biomarkers we found that 2 protein, 2 SNP and 8 mRNA biomarkers could be replicated in the 59 TNF initiating patients. Combining these replicated biomarkers into a single signature we found that we could explain 51% of the variation in ΔDAS28-CRP. This corresponds to a sensitivity of 0.73 and specificity of 0.78 for the prediction of three month ΔDAS28-CRP better than −1.2. CONCLUSIONS: The COMBINE biobank is currently the largest collection of multi-omics data from RA patients with high potential for discovery and replication. Taking advantage of this we surveyed the current state-of-the-art of drug-response stratification in RA, and identified a small set of previously published biomarkers available in peripheral blood which predicts clinical response to TNF blockade in this independent cohort.

Increased Cell-Mediated Immune Responses in Patients with Recurrent Herpes Simplex Virus Type 2 Meningitis

ABSTRACT The clinical picture of herpes simplex virus type 2 (HSV-2) infection includes genital blisters and less frequently meningitis, and some individuals suffer from recurrent episodes of these manifestations. We hypothesized that adaptive and/or innate immune functional deficiencies may be a major contributing factor in susceptibility to recurrent HSV-2 meningitis. Ten patients with recurrent HSV-2 meningitis were studied during clinical remission. For comparison, 10 patients with recurrent genital HSV infections as well as 21 HSV-seropositive and 19 HSV-seronegative healthy blood donors were included. HSV-specific T cell blasting and cytokine secretion were evaluated in whole blood cultures. HSV-2-induced NK cell gamma interferon production, dendritic cell Toll-like receptor (TLR) expression, and TLR agonist-induced alpha interferon secretion were analyzed. Patients with recurrent HSV-2 meningitis had elevated T cell blasting and Th1 and Th2 cytokine production in response to HSV antigens compared to those of patients with recurrent genital infections. A somewhat increased NK cell response, increased dendritic cell expression of TLR3 and -9, and increased TLR-induced alpha interferon responses were also noted. Contrary to our expectation, recurrent HSV-2 meningitis patients have increased HSV-specific adaptive and innate immune responses, raising the possibility of immune-mediated pathology in the development of recurrent HSV2 meningitis.

Functional Analyses of the Crohn's Disease Risk Gene LACC1

Background Genetic variation in the Laccase (multicopper oxidoreductase) domain-containing 1 (LACC1) gene has been shown to affect the risk of Crohn’s disease, leprosy and, more recently, ulcerative colitis and juvenile idiopathic arthritis. LACC1 function appears to promote fatty-acid oxidation, with concomitant inflammasome activation, reactive oxygen species production, and anti-bacterial responses in macrophages. We sought to contribute to elucidating LACC1 biological function by extensive characterization of its expression in human tissues and cells, and through preliminary analyses of the regulatory mechanisms driving such expression. Methods We implemented Western blot, quantitative real-time PCR, immunofluorescence microscopy, and flow cytometry analyses to investigate fatty acid metabolism-immune nexus (FAMIN; the LACC1 encoded protein) expression in subcellular compartments, cell lines and relevant human tissues. Gene-set enrichment analyses were performed to initially investigate modulatory mechanisms of LACC1 expression. A small-interference RNA knockdown in vitro model system was used to study the effect of FAMIN depletion on peroxisome function. Results FAMIN expression was detected in macrophage-differentiated THP-1 cells and several human tissues, being highest in neutrophils, monocytes/macrophages, myeloid and plasmacytoid dendritic cells among peripheral blood cells. Subcellular co-localization was exclusively confined to peroxisomes, with some additional positivity for organelle endomembrane structures. LACC1 co-expression signatures were enriched for genes involved in peroxisome proliferator-activated receptors (PPAR) signaling pathways, and PPAR ligands downregulated FAMIN expression in in vitro model systems. Conclusion FAMIN is a peroxisome-associated protein with primary role(s) in macrophages and other immune cells, where its metabolic functions may be modulated by PPAR signaling events. However, the precise molecular mechanisms through which FAMIN exerts its biological effects in immune cells remain to be elucidated.

Herpes simplex virus specific T cell response in a cohort with primary genital infection correlates inversely with frequency of subsequent recurrences

Objectives During the last decades, a changing epidemiological pattern of genital herpes simplex virus (HSV) infection has emerged. Primary infection is now caused as often by HSV-1 as by HSV-2. Once established, HSV can be reactivated leading to recurrent mucocutaneous lesions as well as meningitis. Why some otherwise immune-competent individuals experience severe and frequent recurrences is not known, and the immunological mechanism underlying recurrent symptomatic HSV infection is not fully understood. In this study, we investigate and characterise the immune response of patients with first episode of HSV genital infection and its relation to the frequency of symptomatic recurrences. Methods In this cohort study, clinical and immunological data were collected from 29 patients who were followed 1 year after presenting with a first episode of genital or meningeal HSV infection. They were classified by PCR and serology as those with primary HSV-1, primary HSV-2 and non-primary HSV-2 infection. Results HSV-specific interleukin(Il)-4 and Il-10 responses at first visit were higher in primary infected HSV-2 infected patients experiencing lower numbers of recurrences during subsequent year. Conclusions The median number of recurrences following primary HSV-2 genital infection may partly be predicted by the strength of an early HSV-specific IL-4 and IL-10 response.

MASKING CD94/NKG2A USING A NOVEL THERAPEUTIC MAB RESULTS IN SIGNIFICANT SUPPRESSION OF IL-6 LEVELS AND REDUCED OSTEOCLAST FORMATION IN RHEUMATOID ARTHRITIS EX VIVO CULTURES

Background Natural killer (NK) cells expressing CD94/NKG2A, an inhibitory receptor binding HLA-E, accumulate in the inflamed joints of Rheumatoid Arthritis (RA) patients [1]. At this site they frequently interact with multiple inflammatory cell subsets. Recent data indicate that NK cells may play a role in RA disease pathology by their capacity to trigger the differentiation of monocytes into osteoclasts [2]. Objectives The aim of this study was to determine whether blocking the CD94/NKG2A interactions with HLA-E using a novel therapeutic mAb affects osteoclastogenesis in ex vivo RA synovial fluid mononuclear cell (SFMC) cultures. Methods To study osteoclastogenesis and in vitro bone mineral erosion, SFMCs were cultured in the absence or presence of IL-15. These cultures were treated with and without the antagonistic humanized anti-NKG2A mAb (NNC141-0100) followed by analysis of the formation of TRAP+ multinucleated osteoclasts and functional bone mineral erosion. To measure cytokine release, supernatants were harvested at various time points followed by detection using a Bioplex array. Results Blocking CD94/NKG2A in SFMC cultures resulted in a significantly reduced formation of TRAP+ multinucleated cells (p<0.01, n=14), reduced bone mineral erosion (p<0.03, n=5), and reduced IL-6 levels (p<0.01, n=11). Conclusions This study shows that blocking CD94/NKG2A with anti-NKG2A mAb NNC141-0100 that is currently being developed for the treatment of RA, leads to suppression of osteoclast formation and subsequent bone erosion, as well as a reduction in IL-6 levels in vitro. Based on these findings, we propose that anti-NKG2A therapy may have a beneficial effect in vivo in RA patients. References Teixeira de Matos C et al. Activating and inhibitory receptors on synovial fluid natural killer cells of arthritis patients: role of CD94/NKG2A in control of cytokine secretion. Immunology. 2007 Oct;122(2):291-301. Söderström K et al. Natural killer cells trigger osteoclastogenesis and bone destruction in arthritis. Proc Natl Acad Sci U S A. 2010 Jul 20;107(29):13028-33. Disclosure of Interest K. Söderström Employee of: novo nordisk, Y. Sundström Grant/Research support from: novo nordisk, L. Berg Grant/Research support from: novo nordisk, D. Schepis Grant/Research support from: novo nordisk, E. Galsgaard Shareholder of: novo nordisk, Employee of: novo nordisk, L. Klareskog Grant/Research support from: novo nordisk, N. Wagtmann Shareholder of: novo nordisk, Employee of: novo nordisk