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ABSTRACT: The implication of B lymphocytes in the immunopathology of multiple sclerosis (MS) is increasingly recognized. Here we investigated the response of B cells to IFN-β, a first-line therapy for relapsing-remitting MS patients, upon stimulation with TLR. IFN-β restored the frequency of TLR7-induced IgM and IgG-secreting cells in MS patients to the levels found in healthy donors (HDs), showing a specific deficiency in TLR7 pathway. However, no difference was observed in the TLR9 response. Furthermore, in MS-derived PBMCs, TLR7-mediated production of IL-6 and the ex vivo expression of B-cell-activating factor of the TNF family (BAFF), two crucial cytokines for B-cell differentiation and survival, were induced by IFN-β. Depletion of monocytes, which are key producers of both IL-6 and BAFF, showed that TLR7-mediated B-cell differentiation into Ig-secreting cells is strongly dependent on the cross-talk between B cells and monocytes. Accordingly, impaired expression of TLR7 mRNA was observed in PBMCs and monocytes isolated from MS-affected individuals as compared with those from HDs, which was rescued by IFN-β therapy. Collectively, our data unveil a novel TLR7-regulated mechanism in in vivo IFN-β-stimulated whole leukocytes that could be exploited to define new TLR7-based strategies for the treatment of MS. This article is protected by copyright. All rights reserved.
European Journal of Immunology 05/2013; · 5.10 Impact Factor
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Cristina Croia,
Barbara Serafini,
Michele Bombardieri,
Stephen Kelly,
Frances Humby,
Martina Severa,
Fabiana Rizzo, Eliana Marina Coccia,
Paola Migliorini,
Francesca Aloisi,
Costantino Pitzalis
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ABSTRACT: OBJECTIVES: Rheumatoid arthritis (RA) is associated with an increased Epstein-Barr virus (EBV) blood DNA load, a robust immune response to EBV and cross-reactive circulating antibodies to viral and self-antigens. However, the role of EBV in RA pathogenesis remains elusive. Here, we investigated the relationship between synovial EBV infection, ectopic lymphoid structures (ELS) and immunity to citrullinated self and EBV proteins. METHODS: Latent and lytic EBV infection was investigated in 43 RA synovial tissues characterised for presence/absence of ELS and in 11 control osteoarthritis synovia using RT-PCR, in situ hybridisation and immunohistochemistry. Synovial production of anti-citrullinated protein (ACPA) and anti-citrullinated EBV peptide (VCP1/VCP2) antibodies was investigated in situ and in vivo in the severe combined immunodeficiency (SCID)/RA chimeric model. RESULTS: EBV dysregulation was observed exclusively in ELS+ RA but not osteoarthritis (OA) synovia, as revealed by presence of EBV latent (LMP2A, EBV-encoded small RNA (EBER)) transcripts, EBER+ cells and immunoreactivity for EBV latent (LMP1, LMP2A) and lytic (BFRF1) antigens in ELS-associated B cells and plasma cells, respectively. Importantly, a large proportion of ACPA-producing plasma cells surrounding synovial germinal centres were infected with EBV. Furthermore, ELS-containing RA synovia transplanted into SCID mice supported production of ACPA and anti-VCP1/VCP2 antibodies. Analysis of CD4+ and CD8+ T-cell localisation and granzyme B expression suggests that EBV persistence in ELS-containing synovia may be favoured by exclusion of CD8+ T cells from B-cell follicles and impaired CD8-mediated cytotoxicity. CONCLUSIONS: We demonstrated active EBV infection within ELS in the RA synovium in association with local differentiation of ACPA-reactive B cells.
Annals of the rheumatic diseases 12/2012; · 8.11 Impact Factor
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ABSTRACT: Plasmacytoid DCs (pDCs) are crucial mediators in the establishment of immunity against most viruses, given their extraordinary capacity to produce a massive quantity of type I IFN. In this study we investigate the response of pDCs to infection with EBV, a γ-herpes virus that persists with an asymptomatic infection in immunocompetent hosts, although in certain conditions it can promote development of cancers or autoimmune diseases. We show that high amounts of type I IFNs were released from isolated pDCs after exposure to EBV by a mechanism requiring TLRs and a functional autophagic machinery. We next demonstrate that EBV can infect pDCs via viral binding to MHC class II molecule HLA-DR and that pDCs express EBV-induced latency genes. Furthermore, we observe that EBV is able to induce activation but not maturation of pDCs, which correlates with an impaired TNF-α release. Accordingly, EBV-infected pDCs are unable to mount a full T-cell response, suggesting that impaired pDC maturation, combined with a concomitant EBV-mediated up-regulation of the T-cell inhibitory molecules B7-H1 and ICOS-L, could represent an immune-evasion strategy promoted by the virus. These mechanisms might lead to persistence in immunocompetent hosts or to dysregulated immune responses linked to EBV-associated diseases.
European Journal of Immunology 09/2012; · 5.10 Impact Factor
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ABSTRACT: Mycobacterium tuberculosis (Mtb) evades the immune response by impairing the functions of different antigen-presenting cells. We have recently shown that Mtb hijacks differentiation of monocytes into dendritic cells (DCs). To further characterize the mechanisms underlying this process, we investigated the consequences of inducing dendritic cell differentiation using interferon-α and granulocyte-macrophage colony-stimulating factor in the presence of supernatants (SNs) obtained from monocyte cultures treated with or without heat-inactivated Mtb. Although the SNs from control cultures do not interfere with the generation of fully differentiated DCs, monocytes stimulated with SNs from Mtb-stimulated cells (SN Mtb) remained CD14(+) and poorly differentiated into CD1a(+) cells. Among cytokines known to affect dendritic cell differentiation, we observed a robust production of interleukin-1β, interleukin-6, interleukin-10 and tumor necrosis factor-α upon Mtb stimulation. However, only interleukin-10 neutralization through the addition of soluble interleukin-10 receptor reversed the inhibitory activity of SN Mtb. Accordingly, the addition of recombinant interleukin-10 was able to significantly reduce CD1a expression. The interaction of Mtb with differentiating monocytes rapidly activates p38 mitogen-activated protein kinase, signal transducer and activator of transcription pathways, which are likely involved in interleukin-10 gene expression. Taken together, our results suggest that Mtb may inhibit the differentiation of bystander non-infected monocytes into DCs through the release of interleukin-10. These results shed light on new aspects of the host-pathogen interaction, which might help to identify innovative immunological strategies to limit Mtb virulence.
Immunology and Cell Biology 03/2011; 89(3):437-46. · 3.66 Impact Factor
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ABSTRACT: A cardinal feature of multiple sclerosis (MS) is the persistent intrathecal synthesis of antibodies. Our previous finding that a large fraction of B cells infiltrating the MS brain are infected with Epstein-Barr virus (EBV) raises the possibility that this virus, because of its ability to establish a latent infection in B cells and interfere with their differentiation, contributes to B-cell dysregulation in MS. The aim of this study was to gain further insight into EBV latency programs and their relationship to B-cell activation in the MS brain. Immunohistochemical analysis of postmortem MS brain samples harboring large EBV deposits revealed that most B cells in white matter lesions, meninges, and ectopic B-cell follicles are CD27+ antigen-experienced cells and coexpress latent membrane protein 1 and latent membrane protein 2A, 2 EBV-encoded proteins that provide survival and maturation signals to B cells. By combining laser-capture microdissection with preamplification reverse transcription-polymerase chain reaction techniques, EBV latency transcripts (latent membrane protein 2A, EBV nuclear antigen 1) were detected in all MS brain samples analyzed. We also found that B cell-activating factor of the tumor necrosis factor family is expressed in EBV-infected B cells in acute MS lesions and ectopic B-cell follicles. These findings support a role for EBV infection in B-cell activation in the MS brain and suggest that B cell-activating factor of the tumor necrosis factor family produced by EBV-infected B cells may contribute to this process resulting in viral persistence and, possibly, disruption of B-cell tolerance.
Journal of Neuropathology and Experimental Neurology 07/2010; 69(7):677-93. · 4.26 Impact Factor
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Maria Cristina Gagliardi,
Raffaela Teloni,
Federico Giannoni,
Sabrina Mariotti,
Maria Elena Remoli,
Valeria Sargentini,
Melissa Videtta,
Manuela Pardini,
Gennaro De Libero, Eliana Marina Coccia,
Roberto Nisini
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ABSTRACT: Group I CD1 proteins are specialized antigen-presenting molecules that present both microbial and self lipid antigens to CD1-restricted alpha/beta T lymphocytes. The production of high levels of gamma interferon and lysis of infected macrophages by lipid-specific T lymphocytes are believed to play pivotal roles mainly in the defense against mycobacterial infections. We previously demonstrated that Mycobacterium tuberculosis and bacillus Calmette-Guérin (Mycobacterium bovis BCG) induce human monocytes to differentiate into CD1- dendritic cells (DC), which cannot present lipid antigens to specific T cells. Here, we show that in human monocytes mycobacteria trigger phosphorylation of p38 mitogen-activated protein kinase to inhibit CD1 expression in DC derived from infected monocytes. Pretreatment with a specific p38 inhibitor renders monocytes insensitive to mycobacterial subversion and allows them to differentiate into CD1+ DC, which are fully capable of presenting lipid antigens to specific T cells. We also report that one of the pathogen recognition receptors triggered by BCG to activate p38 is complement receptor 3 (CR3), as shown by reduced p38 phosphorylation and partial reestablishment of CD1 membrane expression obtained by CR3 blockade before infection. In conclusion, we propose that p38 signaling is a novel pathway exploited by mycobacteria to affect the expression of CD1 antigen-presenting cells and avoid immune recognition.
Infection and immunity 09/2009; 77(11):4947-52. · 4.21 Impact Factor
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Roberto Lande,
Valérie Gafa,
Barbara Serafini,
Elena Giacomini,
Andrea Visconti,
Maria Elena Remoli,
Martina Severa,
Marc Parmentier,
Giovanni Ristori,
Marco Salvetti,
Francesca Aloisi, Eliana Marina Coccia
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ABSTRACT: The roles of plasmacytoid dendritic cells (pDCs) and their response to interferon (IFN)-beta therapy in multiple sclerosis (MS) patients are poorly understood. We identified pDC accumulation in white matter lesions and leptomeninges of MS brains and abundant expression of the Type I IFN-induced protein MxA, mainly in perivascular CD3+ lymphocytes in lesions, indicating Type I IFN production by activated pDCs. The pDC chemoattractant chemerin was detected in intralesional cerebrovascular endothelial cells, and the chemerin receptor was expressed on infiltrating leukocytes, including pDCs. The effect of IFN-beta on pDC phenotype and function was evaluated in MS patients before and during IFN-beta treatment. Although IFN-beta did not modify the frequency and immature phenotype of circulating pDC, they showed lower expression of major histocompatibility complex Class II and blood-dendritic cell antigen 2 molecules and upregulation of CD38 and B7H1 costimulatory molecules. On exposure to CpG (a site where cytosine [C] lies next to guanine [G] in the DNA sequence [the p indicates that C and G are connected by a phosphodiester bond]) oligodeoxynucleotides in vitro, pDCs from IFN-beta-treated MS patients showed reduced expression of the pDC maturation markers CD83 and CD86 molecules; in vitro IFN-beta treatment of pDCs from healthy donors resulted in lower secretion of proinflammatory cytokines, including IFN-alpha, and a decreased ability to stimulate allogeneic T cells in response to maturative stimuli. These data indicate that IFN-beta modulates the immunologic functions of pDC, thus identifying pDCs as a novel target of IFN-beta therapy in MS patients.
Journal of Neuropathology and Experimental Neurology 06/2008; 67(5):388-401. · 4.26 Impact Factor
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Eliana Marina Coccia
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ABSTRACT: A central issue in dendritic cells (DC) biology is to understand how type I IFNs modulate the immuno-regulatory properties of DC. In this review I will address this issue in light of the recent experimental evidence on the expression and function of these cytokines in myeloid DC. This knowledge may have important therapeutic implications in infectious and neoplastic diseases and open new perspectives in the use of IFNs as vaccine adjuvants and in the development of DC-based vaccines.
Cytokine & Growth Factor Reviews 03/2008; 19(1):21-32. · 7.81 Impact Factor
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ABSTRACT: Bordetella pertussis has a distinctive cell wall lipooligosaccharide (LOS) that is released from the bacterium during bacterial division and killing. LOS directly participates in host-bacterial interactions, in particular influencing the dendritic cells' (DC) immune regulatory ability. We analyze LOS mediated toll-like receptor (TLR) activation and dissect the role played by LOS on human monocyte-derived (MD)DC functions and polarization of the host T cell response. LOS activates TLR4-dependent signaling and induces mature MDDC able to secrete IL-10. LOS-matured MDDC enhance allogeneic presentation and skew T helper (Th) cell polarization towards a Th2 phenotype. LOS protects MDDC from undergoing apoptosis, prolonging their longevity and their functions. Compared to Escherichia coli lipopolysaccharide (LPS), the classical DC maturation stimulus, LOS was a less efficient inducer of TLR4 signaling, MDDC maturation, IL-10 secretion and allogeneic T cell proliferation and it was not able to induce IL-12p70 production in MDDC. However, the MDDC apoptosis protection exerted by LOS and LPS were comparable. In conclusion, LOS treated MDDC are able to perform antigen presentation in a context that promotes licensing of Th2 effectors. Considering these properties, the use of LOS in the formulation of acellular pertussis vaccines to potentiate protective and adjuvant capacity should be taken into consideration.
Microbes and Infection 07/2007; 9(7):855-63. · 3.10 Impact Factor
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Viviana Annibali,
Simone Di Giovanni,
Stefania Cannoni,
Elisabetta Giugni,
Roberto Bomprezzi,
Carlo Mattei,
Abdel Elkahloun, Eliana Marina Coccia,
Marco Alfò,
Francesco Orzi,
Giovanni Ristori,
Marco Salvetti
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ABSTRACT: Understanding the mechanisms that sustain the effects of disease modifying drugs in multiple sclerosis (MS) may help refine current therapies and improve our knowledge of disease pathogenesis. By using cDNA microarrays, we investigated gene expression in the peripheral blood mononuclear cells (PBMC) of 7 MS patients, at baseline (T0) as well as after 1 (T1) and 3 months (T3) of interferon beta-1a (IFN-beta-1a; Rebif 44 microg) therapy. Gene expression changes involved genes of both immunological and non-immunological significance. We validated IL-10 up-regulation, which is in accordance with previous reports, and other novel changes that underscore the capacity of IFN-beta to impair antigen presentation and migration of inflammatory elements into the central nervous system (up-regulation of filamin B and down-regulation of IL-16 and rab7). Overall, gene expression changes became less pronounced after 3 months of therapy, suggesting a homeostatic response to IFN-beta. This may be of use for the design of new treatment schedules.
Autoimmunity 03/2007; 40(1):16-22. · 2.47 Impact Factor
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ABSTRACT: As a result of their close association with the blood-brain barrier, astrocytes play an important role in regulating the homing of different leukocyte subsets to the inflamed central nervous system (CNS). In this study, we investigated whether human astrocytes produce chemokines that promote the migration of myeloid dendritic cells (DCs). By reverse transcriptase-polymerase chain reaction and enzyme-linked immunosorbent assay, we show that cultured human astrocytes stimulated with interleukin-1beta and tumor necrosis factor produce CCL2, CCL3, CCL4, CCL5, CCL20, and CXCL12 that act on immature DCs, but not CCL19 and CCL21, 2 chemokines specific for mature DCs. Compared with controls, supernatants of cytokine-stimulated astrocytes are more effective in promoting the migration of immature monocyte-derived DCs (iMDDCs). Desensitization of CXCR4 (receptor for CXCL12), CCR1-3-5 (shared receptors for CCL3-4-5), and CCR6 (receptor for CCL20) on iMDDC reduces cell migration toward astrocyte supernatants, indicating that astrocytes release biologically relevant amounts of iMDDC-attracting chemokines. By immunohistochemistry, we show that CXCL12 and, to a lesser extent, CCL20 are expressed by reactive astrocytes in multiple sclerosis lesions. These data lend support to the idea that astrocyte-derived chemokines may contribute to immature DC recruitment to the inflamed CNS.
Journal of Neuropathology and Experimental Neurology 09/2005; 64(8):706-15. · 4.26 Impact Factor
