Proteomic profile of extracellular vesicles from plasma and CSF of multiple sclerosis patients reveals disease activity-associated EAAT2.

BACKGROUND AND OBJECTIVES: There is an urgent need to discover blood-based biomarkers of multiple sclerosis (MS) to better define the underlying biology of relapses and monitor disease progression. The main goal of this study is to search for candidate biomarkers of MS relapses associated with circulating extracellular vesicles (EVs), an emerging tool for biomarker discovery. METHODS: EVs, purified from unpaired plasma and CSF samples of RRMS patients by size-exclusion chromatography (SEC), underwent proteomic analysis to discover novel biomarkers associated with MS relapses. The candidate biomarkers of disease activity were detected by comparison approach between plasma- and CSF-EV proteomes associated with relapses. Among them, a selected potential biomarker was evaluated in a cohort of MS patients, using a novel and highly reproducible flow cytometry-based approach in order to detect low abundant EV subsets in a complex body fluid such as plasma. RESULTS: The proteomic profiles of both SEC-purified plasma EVs (from 6 patients in relapse and 5 patients in remission) and SEC-purified CSF EVs (from 4 patients in relapse and 3 patients in remission) revealed a set of proteins associated with MS relapses significant enriched in the synaptic transmission pathway. Among common proteins, excitatory amino-acid transporter 2, EAAT2, responsible for the majority of the glutamate uptake in CNS, was worthy of further investigation. By screening plasma samples from 110 MS patients, we found a significant association of plasma EV-carried EAAT2 protein (EV-EAAT2) with MS relapses, regardless of disease-modifying therapies. This finding was confirmed by investigating the presence of EV-EAAT2 in plasma samples collected longitudinally from 10 RRMS patients, during relapse and remission. Moreover, plasma EV-EAAT2 levels correlated positively with Expanded Disability Status Scale (EDSS) score in remitting MS patients but showed a negative correlation with age in patients with secondary progressive (SPMS). CONCLUSION: Our results emphaticize the usefulness of plasma EVs as a source of accessible biomarkers to remotely analyse the CNS status. Plasma EV-EAAT2 showed to be a promising biomarker for MS relapses. Further studies are required to assess the clinical relevance of this biomarker also for disability progression independent of relapse activity and transition from RRMS towards SPMS.

Microbiota-Derived Extracellular Vesicle as Emerging Actors in Host Interactions.

The human microbiota is an intricate micro-ecosystem comprising a diverse range of dynamic microbial populations mainly consisting of bacteria, whose interactions with hosts strongly affect several physiological and pathological processes. The gut microbiota is being increasingly recognized as a critical player in maintaining homeostasis, contributing to the main functions of the intestine and distal organs such as the brain. However, gut dysbiosis, characterized by composition and function alterations of microbiota with intestinal barrier dysfunction has been linked to the development and progression of several pathologies, including intestinal inflammatory diseases, systemic autoimmune diseases, such as rheumatic arthritis, and neurodegenerative diseases, such as Alzheimer's disease. Moreover, oral microbiota research has gained significant interest in recent years due to its potential impact on overall health. Emerging evidence on the role of microbiota-host interactions in health and disease has triggered a marked interest on the functional role of bacterial extracellular vesicles (BEVs) as mediators of inter-kingdom communication. Accumulating evidence reveals that BEVs mediate host interactions by transporting and delivering into host cells effector molecules that modulate host signaling pathways and cell processes, influencing health and disease. This review discusses the critical role of BEVs from the gut, lung, skin and oral cavity in the epithelium, immune system, and CNS interactions.

Extracellular vesicles as contributors in the pathogenesis of multiple sclerosis.

Extracellular vesicles (EVs) are a heterogeneous family of extracellular structures bounded by a phospholipid bilayer, released by all cell types in various biological fluids, such as blood and cerebrospinal fluid (CSF), playing important roles in intercellular communication, both locally and systemically. EVs carry and deliver a variety of bioactive molecules (proteins, nucleic acids, lipids and metabolites), conferring epigenetic and phenotypic changes to the recipient cells and thus resulting as important mediators of both homeostasis and pathogenesis. In neurological diseases, such as multiple sclerosis (MS), the EV ability to cross Blood-Brain Barrier (BBB), moving from central nervous system (CNS) to the peripheral circulation and vice versa, has increased the interest in EV study in the neurological field. In the present review, we will provide an overview of the recent advances made in understanding the pathogenic role of EVs regarding the immune response, the BBB dysfunction and the CNS inflammatory processes.

The influence of sex and gender on immunity, infection and vaccination.

Sex/gender significantly contribute to shape the immune responses, contributing to differences in the pathogenesis of infectious diseases in males and females, the response to viral vaccines and the prevalence of autoimmune diseases. Females typically develop higher innate, humoral and cellular immune responses to viral infections and in response to vaccine. At the same time, women are more prone to autoimmune diseases and experience more adverse reactions to vaccination. Hormonal, genetic and environmental factors between males and females may affect the immune responses and the sex-related outcome of vaccination. Knowledge of the mechanisms involved in sex disparity in immune responses will contribute to identify the ways to reduce adverse reactions in females and to improve the immune responses in males. This is necessary to adequately protect both sexes against the immune-mediated and infectious diseases with the long-term goal of personalizing the therapies for males and females.

Lamina Propria CD4+LAP+ Regulatory T Cells Are Increased in Active Ulcerative Colitis but Show Increased IL-17 Expression and Reduced Suppressor Activity.

BACKGROUND: A CD4+CD25- regulatory T cell population expressing the surface TGF-ß in its latent form LAP+ [latency associated peptide] cells was proved to be protective in experimental colitis and to be suppressive of human peripheral blood [PB] T proliferation. We investigated the frequency and function of lamina propria [LP] CD4+LAP+ T cells in inflammatory bowel disease [IBD] patients. METHODS: Specimens from patients undergoing colonoscopy or bowel resection for IBD and colonic cancer were used as source of lamina propria mononuclear cells [LPMC]. The ulcerative colitis [UC] group was divided according to endoscopic activity evaluated with modified Baron Score. IL-17, IFN-γ, IL-10, LAP, and Foxp3 expression in CD3+CD8- [CD4] or CD3+/CD4+ gated cell population was assessed by immunofluorescence. The ability of FACS-sorted LP CD3+CD8-[CD4] LAP+CD25- to inhibit stimulated autologous PB CD3+CD8-[CD4] LAP- CD25- cells proliferation was assessed. RESULTS: LP CD4LAP+ cells were significantly increased, when compared with controls, in active UC patients and not in Crohn's disease patients. The majority of LP CD4+LAP+ cells were Foxp3-. The percentage of IL-17+ cells in LP CD3+CD8-[CD4] LAP+ cells was significantly higher in active UC patients when compared with controls. LP CD3+CD8-[CD4]LAP+CD25- isolated from UC patients showed reduced or no ability to inhibit autologous PB CD3+CD8-[CD4]LAP-CD25- cell proliferation when compared with controls. Removal of IL-17+ cells from LP CD3+CD8-[CD4] LAP+ cells increases their suppressive ability. CONCLUSIONS: The percentage of LP CD4LAP+ cells is increased in active UC, showing reduced suppressor activity due to their increased proportion of intracellular IL-17 expression.

Peripheral blood biomarkers in multiple sclerosis.

Multiple sclerosis is the most common autoimmune disorder affecting the central nervous system. The heterogeneity of pathophysiological processes in MS contributes to the highly variable course of the disease and unpredictable response to therapies. The major focus of the research on MS is the identification of biomarkers in biological fluids, such as cerebrospinal fluid or blood, to guide patient management reliably. Because of the difficulties in obtaining spinal fluid samples and the necessity for lumbar puncture to make a diagnosis has reduced, the research of blood-based biomarkers may provide increasingly important tools for clinical practice. However, currently there are no clearly established MS blood-based biomarkers. The availability of reliable biomarkers could radically alter the management of MS at critical phases of the disease spectrum, allowing for intervention strategies that may prevent evolution to long-term neurological disability. This article provides an overview of this research field and focuses on recent advances in blood-based biomarker research.

Diltiazem induces regulatory T cells in vitro by modulating human dendritic cell maturation.

Diltiazem is a calcium channel antagonist that has been commonly associated with currently used immunosuppressants to prevent acute graft rejection in humans. In this study, we examined the possibility that diltiazem may affect human dendritic cell (DC) functions in response to lipopolysaccharide (LPS) stimulation and may induce the generation of DC with the capacity to generate CD4(+) regulatory T cells (Tregs). Blood monocytes were cultured in the presence of diltiazem at the beginning of their differentiation process into DC. Monocyte-derived DCs were stimulated with LPS, and DCs differentiated in the presence of diltiazem showed a decreased interleukin (IL)-12 production and an enhanced IL-10 production. When cultured with CD4(+) CD45RA(+) they were able to enhance the CD4(+) Foxp3(+) T-cell population and to induce slowly proliferating T cells, which showed a significant increase of transforming growth factor (TGF)-ß production. These T cells suppress proliferation of activated autologous T cells, and we show that this effect is attributable to soluble factors, primarily to TGF-ß. Blockade of TGF-ß by specific monoclonal antibodies reversed this inhibitory effect. Herein, we provide new evidence that diltiazem-conditioned monocyte-derived DC induce T cells which acquire a regulatory phenotype and activity similar to those described for Tregs.

Modulation of human peripheral blood mononuclear cell proliferative response by diltiazem : in vitro comparison in younger versus older subjects.

BACKGROUND: The gradual aging of population has increased the number of elderly patients receiving kidney transplants. In elderly transplant recipients, careful immunosuppression has to be maintained to avoid both rejection and adverse effects. Clinical protocols after kidney transplantation include use of the calcium channel antagonist diltiazem to ameliorate the hypertensive effect and nephrotoxicity of the immunosuppressant agent ciclosporin (cyclosporine). OBJECTIVE: Since immune response can be impaired by senescence, we evaluated the influence of diltiazem on lymphocyte proliferation both alone and in the presence of ciclosporin in younger versus older subjects. METHODS: Peripheral blood mononuclear cells (PBMC) from younger healthy donors (aged 19-24 years) and older subjects (aged 59-65 years) were isolated and stimulated with mitogens, recombinant human interleukin-2 (IL-2), purified protein derivative (PPD) antigen from Mycobacteriumtuberculosis, and anti-CD3 monoclonal antibody (alphaCD3 moAb) in the presence or absence of 10(-4), 10(-5), 10(-6), 10(-7) mol/L concentrations of diltiazem. In some experiments, lymphocytes from younger and older subjects were used as responder cells in an allogeneic mixed lymphocyte reaction (MLR) in the presence of different concentrations of diltiazem and 10 ng/mL of ciclosporin. RESULTS: We found that PBMC from older subjects were more susceptible to immunosuppression induced by low concentrations of diltiazem when mitogens were used to stimulate cells. In particular, when pokeweed mitogen was used, diltiazem 10(-7) mol/L was associated with statistically significant immunosuppression in older subjects compared with younger subjects. This effect was not observed when IL-2, PPD antigen and alphaCD3 moAb were used as stimulators. Moreover, in the allogeneic MLR, we found no differences between younger and older subjects when the 10(-)(5), 10(-)(6) and 10(-7) mol/L concentrations of diltiazem were used alone or in the presence of ciclosporin. Only addition of the supratherapeutic 10(-4) mol/L concentration of diltiazem to ciclosporin was associated with statistically significant immunosuppression in older versus younger subjects. DISCUSSION: Our results show that PBMC from older subjects are no more susceptible than PBMC from younger subjects to therapeutic doses of diltiazem when T-cell receptors are directly or indirectly involved. On the contrary, when PBMC activation was not mediated by T-cell receptor involvement, as in the case of pokeweed mitogen, susceptibility to a therapeutic concentration of diltiazem in older subjects was enhanced. Moreover, co-administration of therapeutic doses of diltiazem and ciclosporin in an MLR showed no significant differences between younger and older subjects in an in vitro model of lymphocyte response to allogeneic transplantation. CONCLUSION: Since we found no variations in immunosuppression between older and younger subjects when therapeutic doses of diltiazem were added to ciclosporin, our data do not discourage the use of diltiazem in older kidney transplant recipients receiving ciclosporin therapy.

Cholera toxin B subunit promotes the induction of regulatory T cells by preventing human dendritic cell maturation.

Cholera toxin B subunit (CTB) is an efficient mucosal carrier molecule for the generation of immune responses to linked antigens. There is also good evidence that CTB acts as an immunosuppressant, as it is able to down-modulate human monocyte/macrophage cell line activation and to suppress Th1-type responses. In the present study, we examined the possibility that recombinant CTB (rCTB) may affect human dendritic cell (DC) functions in response to LPS stimulation and may induce the generation of DC with the capacity to generate CD4(+) regulatory T cells (Tregs). Our findings show that rCTB partially prevents the LPS-induced maturation process of monocyte-derived DC (MDDC) and decreases their IL-12 production with no relevant effect on IL-10 production. LPS-stimulated MDDC pretreated with rCTB are able to promote the induction of low proliferating T cells, which show an enhanced IL-10 production associated with a reduced IFN-gamma production and the same high levels of TGF-beta as the control. These T cells suppress proliferation of activated autologous T cells. Transwell experiments and blockade of IL-10R and TGF-beta showed that the immunomodulatory effect is mediated by soluble factors. Thus, T cells induced by rCTB-conditioned MDDC acquire a regulatory phenotype and activity similar to those described for type 1 Tregs.

Inhibition of interleukin-12 expression in diltiazem-treated dendritic cells through the reduction of nuclear factor-kappa B transcriptional activity.

Diltiazem is a calcium channel blocker that suppresses the activation of a variety of immune cells, such as T and B cells, NK cells, monocytes and dendritic cells (DCs). It has been used in the treatment of cardiovascular disorders and has been widely included in clinical protocols to prevent rejection after kidney transplantation. In line with these data, we previously showed that diltiazem directly affects maturation of human DCs and the production of IL-12. Here, we extended our analysis studying the effect of diltiazem on the transcription of IL-12 p35 and p40 subunits focusing on the activity of nuclear factor-kappa B (NF-kappa B). A marked reduction of NF-kappa B binding to the kappa B sequences present within the p35 and p40 subunit promoters was observed in diltiazem-treated DCs following the stimulation with lipopolysaccharide (LPS) or CD40L. In order to examine the mechanisms by which NF-kappa B binding activity is reduced by diltiazem, we analyzed the NF-kappa B inhibitor, I kappa B alpha. No significant differences were observed in the phosphorylation and/or the degradation of I kappa B alpha. On the other hand, the subcellular distribution of NF-kappa B subunits was clearly affected in diltiazem-treated DCs following LPS stimulation, with a reduced nuclear translocation of p65, and RelB, and a nuclear accumulation of p50 subunit. Thus, all together, our data provided evidence that in addition to the inhibition of p65/p50 nuclear translocation, the selective induction and translocation of p50/p50 homodimers is an important mechanism by which diltiazem inhibits NF-kappa B activity, and in turn, IL-12 expression.

Effect of novel non-peptidic delta opioid receptor antagonists on human T and B cell activation.

The effects of the antagonist naltrindole (NTI) on cells of the immune system have been largely studied although the mechanisms of action are still unclear. The aim of this study is to evaluate, in vitro, the immunomodulatory activity of four new delta-selective opioid compounds structurally related to naltrindole. The effects at different concentrations of these opioid antagonists on proliferative response were studied on normal human peripheral blood mononuclear cells (PBMC) stimulated with different stimuli: mitogens, the antigen PPD, the anti-CD3 monoclonal antibodies (mAb), the superantigen Staphylococcus aureus Cowan strain 1 (SAC) and alloantigens in the mixed lymphocyte cultures (MLR). The immunomodulatory capacity of these compounds was evaluated by determining the interleukin-2 (IL-2) release in mitogen activated PBMC. The present study shows that all the new delta opioid antagonists at 10(-5) M concentration are immunosuppressive. The inhibitory action is also evident at lower concentrations when anti-CD3 mAb and SAC were used as stimulators. In addition, the production of IL-2 was inhibited by the opioid treatment, but this might not be the only mechanism of action.

Diltiazem impairs maturation and functions of human dendritic cells.

The aim of this study was to define the effects of diltiazem, a calcium antagonist drug used in cardiology and in clinical transplantation, on the differentiation and maturation of human dendritic cells (DC). Herein, we demonstrate that diltiazem, in association with granulocyte macrophage-colony-stimulating factor (GM-CSF) and interleukin-4 (IL-4), induces monocytes to differentiate into cells with many of the characteristic of DC. However, diltiazem-induced DC express high levels of mannose receptor and Fc gamma RII and, consequently, manifest a higher endocytic activity compared with GM-CSF+IL-4-induced DC. Importantly, diltiazem-induced DCs have an impaired responsiveness to lipopolysaccharide and CD40 ligand because they produce decreased levels of IL-12 and reveal a reduced ability to stimulate alloreactive T-cell responses as well as in inducing interferon-gamma producing Th1 cells. These effects may contribute to a decreased DC-dependent T-cell activation and may help to explain the immunoregulatory function of diltiazem and its effectiveness in preventing transplant rejection.