Fingolimod Modulates Peripheral Effector and Regulatory T Cells in MS Patients
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- Serpero, L.D., Filaci, G., Parodi, A. et al. J Neuroimmune Pharmacol (2013) 8: 1106. doi:10.1007/s11481-013-9465-5
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Multiple sclerosis (MS) is a complex neurological disease where, in genetically predisposed individuals, the unbalanced interplay between pathogenic and regulatory T cells will result in the progression of the autoimmune assault to neural antigens. Fingolimod (FTY720), an oral sphingosine 1-phosphate modulator recently approved for the treatment of MS, inhibits the egress of T cells from lymph nodes acting specifically on naïve and memory T cells and sparing effector T cells. Here we characterized IL-17 and IFNγ producing effector CD4 and CD8 positive T cells as well as CD4 positive CD25highCD127low regulatory T cells in MS patients before and 1 month after treatment was started. We observed that fingolimod did not significantly affect the percentage of CCR6 and CD161 positive T cells in both CD4 and CD8 compartments. In contrast, it significantly reduced the levels of both CD4+ CCR6+ CD161+ and CD8+ CCR6+ CD161+ producing IFNγ alone or in combination with IL-17. The percentage of IL-17 secreting cells in both subsets was affected by the treatment to a lesser extent. Finally, we observed that CD4+ CD25highCD127low regulatory T cells were decreased in MS patients compared to healthy controls and fingolimod significantly increased their frequencies. All together these findings demonstrate that fingolimod functionally modulates the ability of potentially pathogenic effector cells to produce relevant pro-inflammatory cytokines and increases the number of circulating regulatory T cells possibly contributing in restoring a balance between these populations.
KeywordsMultiple sclerosisT cellsIL-17IFNγS1PFingolimod
Multiple sclerosis (MS) is a chronic, inflammatory disease of the central nervous system (CNS), driven by autoreactive lymphocytes resulting into an inflammatory cascade and subsequent degeneration of the neural tissue (Compston and Coles 2008). In healthy condition, the onset of an autoimmune response against the CNS is prevented by a tightly regulated balance between self-reacting immune cells and regulatory lymphocytes including both B and T cells. It is accepted that both Th1 and Th17 cells contribute to MS development (Lock et al. 2002; Brucklacher-Waldert et al. 2009; Goverman 2009). Although the implication of Th1 and Th17 CD4+ cells in the pathogenesis of MS has been largely investigated, several evidences support also the involvement of CD8+ T cells (Friese and Fugger 2009). Recently an IL-17-producing CD8+ T cells subset, named Tc17 has been described (Kondo et al. 2009) and reported to be present among cells infiltrating MS tissues (Tzartos et al. 2008; Huber et al. 2013). Moreover, an expansion of proinflammatory of CD161highCD8+ T cells was recently observed in MS subjects (Annibali et al. 2011). In the attempt of maintaining immune homeostasis, regulatory T cells (Treg) are supposed to control self-reacting T cells. In humans, CD4+ CD25+ Foxp3+ Tregs are defined by the low expression of the IL-7 receptor, CD127, (Liu et al. 2006) and high expression of CD39, an immunosuppressive ectonucleotidase reported to be poorly represented on circulating Treg cells of relapsing-remitting MS patients (Borsellino et al. 2007).
Fingolimod (FTY720), a new sphingosine 1-phosphate (S1P) receptor modulator, is approved for the treatment of MS based on results from clinical trials in patients with relapsing remitting MS (Cohen et al. 2010; Kappos et al. 2010). It causes, in its phosphorylated form, internalization and degradation of cell membrane-expressed S1P receptor 1, one of the five known S1P receptors, which is critical for T and B lymphocyte egress from secondary lymphoid organs and thymus. As consequence, lymphocytes retention in the lymph nodes is favored based on the prevalence of the signaling through CCR7, a receptor expressed by memory T cell (Cyster and Schwab 2012). Because of these features, fingolimod has been shown to significantly decrease the number of circulating T cells, interfering differently on naïve and memory T cell subsets (Mehling et al. 2008, 2010). In this study we evaluated the impact of fingolimod on peripheral blood T cell subsets relevant for MS pathogenesis with specific focus on the reciprocal relationship between the effector and regulatory arm of the immune response occurring in MS patients before and following FTY720 administration.
Materials and methods
Peripheral venous blood was obtained with informed consent from ten relapsing remitting MS patients immediately before starting treatment with fingolimod and 1 month after therapy was started. MS patients were treated with fingolimod 0.5 mg once daily, according to the current indication for MS treatment. Blood was also obtained from ten untreated healthy donors matched for age and sex with MS individuals. The number of patients contributing to each experiment is indicated in individual figure legends. The Ethical Committee of the IRCCS San Martino University-Hospital, Genoa, Italy, approved this study.
Monoclonal antibodies (mAbs)
For immunostaining and analysis by flow cytometry the following mAbs were used: allophycocianin (APC)-cyanin 7 conjugated anti-CD3, Horizon 500 conjugated anti-CD3, APC conjugated anti-CD25, phycoerytrin (PE) conjugated anti-CCR6, PE conjugated anti-CD127, Pe-cyanin 7 conjugated anti-IFNγ, fluorescein isothiocynate (FITC) conjugated anti-CD39, Pe-cyanin 7 conjugated anti-CD4 (Becton Dickinson (BD) Biosciences); PerCP-cyanin 5.5 conjugated anti-CD8 (Biolegend); FITC conjugated anti-IL-17A (eBioscience); APC conjugated anti-CD161 (Miltenyi Biotec).
Generation of short-term T cell lines and measurement of intracellular cytokines
Peripheral blood mononuclear cells (PBMC) were isolated from heparinized venous blood by using density-gradient centrifugation over Ficoll-Hypaque (Biochrom). Short term T cell lines were generated by stimulation of PBMC (3 × 106 cells) with anti-CD3 and anti-CD28 mAbs (BD) as described elsewhere (Fenoglio et al. 2011). Frequencies of cytokines producing cells from short-term T cell lines were analyzed following stimulation with phorbo-12-myristate-13-acetate (PMA 50 ng/ml, Sigma) and ionomycine (2 μg/ml, Sigma) as described elsewhere (Fenoglio et al. 2011). The cytokine profile of in vitro expanded T cells was evaluated using a FACSCanto II flow cytometer (BD Bioscience) by a FACSDiva software collecting 30000 viable T CD3+ −gated events. Results were expressed as cytokine positive percentage of CD3+ CD8+ or CD3+ CD8- (for CD4) subsets in activated condition minus background staining, i.e. percentage of cytokine-positive T cells of not activated control.
Treg immunophenotyping was performed on 1 × 106/100 μl PBMC incubated with fluorochrome-conjugated anti-CD3, -CD4, -CD25, -CD127, -CD39 antibodies. LIVE/DEAD (Invitrogen/Molecular Probes) was added to exclude dead cells. Samples were acquired and analyzed on FACSCanto II flow cytometer by FACSDiva software.
Statistically significant differences between mean percentage of different T cell subsets observed in samples from MS patients and controls were analyzed by Mann–Whitney test for nonparametric values. Calculations were performed using GraphPad Prism, Version 4.00 software.
Frequencies of CCR6- and CD161-positive cells are not affected by FTY720
FTY720 significantly reduces CD4+ T cell subsets producing pro-inflammatory cytokines
Fingolimod decreases CD8+ T cells producing IFNγ and IL-17
These findings prove that, similarly to what observed for CD4+ T cells, also levels of circulating CD8+ T cells expressing CD161 and CCR6 and producing IFNγ and, to a lesser extent, IL-17 are decreased 1 month after fingolimod was started.
Treg are increased in MS patients treated with FTY720
Multiple sclerosis is an autoimmune disease where T cells probably recognizing myelin antigens are playing a major role (Goverman 2009). Autoimmune diseases may develop from an unbalanced relationship between effector and regulatory arms of the immune system (Wing and Sakaguchi 2010; Fenoglio et al. 2011). Current evidence acquired from both animal models and MS individuals suggests the involvement of CD4 positive T helper cells producing IFNγ and IL-17, characteristics of a Th1 and Th17 phenotype (Lock et al. 2002; Brucklacher-Waldert et al. 2009). However, T helper subsets are highly heterogeneous as demonstrated by the ability of T cells to often coproduce IL-17 and IFNγ (Kebir et al. 2009; Cosmi et al. 2011). A higher level of complexity is provided by the involvement of CD8 positive T cells in MS pathogenesis (Friese and Fugger 2009). A better elucidation of such intricate picture has been favored by the recent identification of markers, such as the NK receptor CD161, specifically associated with Th17 profile (Cosmi et al. 2008). Th17 cells may acquire a non-classical Th1 phenotype upon inflammatory cues as depicted by the expression of the Th17 marker CD161 (Cosmi et al. 2008). In addition, recent reports suggest a role in MS pathogenesis for IL-17–producing CD8+ T cells (Tc17) (Tzartos et al. 2008; Huber et al. 2013), based on the observation that CD8+ T cells detected in the CNS and cerebrospinal fluid of MS individuals produce IL-17. A pathogenic role for CD8+ T cells is further supported by the observation that CD161highCD8+ T cells are expanded in the peripheral blood and display proinflammatory features including the ability to produce IL-17 (Annibali et al. 2011). Th17 cells also express high levels of CCR6, a receptor involved in the entry of pathogenic T cells into the CNS (Reboldi et al. 2009). In this study we analysed the impact of fingolimod, a new oral drug approved for the treatment of relapsing remitting MS, on classical and non-classical Th17 subsets relevant for MS pathogenesis. FTY720 has been previously demonstrated to significantly decrease the number of circulating CD4+ and, to a lesser extent, CD8+ T cells, affecting mainly naïve and central memory T cells, while sparing CCR7- effector memory T cells, possibly involved in the efficient control of microbial infections observed in treated patients (Mehling et al. 2008). FTY720 significantly decreased peripheral blood levels of IL-17 producing T cells, which were demonstrated to reside mainly in the CCR4+ CCR6+ CD4+, thus supporting their, drug induced, retention in the secondary lymphoid organs (Mehling et al. 2010). In contrast with the latter study we demonstrated that fingolimod modestly affects the ex-vivo relative frequencies of CCR6+ CD161+ T cells both in the circulating CD4 and CD8 positive compartments of MS patients when compared to levels observed before therapy was started. Similar results were observed when these subsets were evaluated following short term in vitro stimulation suggesting that T cell activation, in fingolimod-treated patients, does not result in a significant change of these subpopulations. However, in agreement with Mehling and collaborators (Mehling et al. 2010), we observed that fingolimod administration resulted in a significant change of the frequencies of CD4 positive T cells producing IL-17 alone or in combination with IFNγ. In the CD8 positive T cells, FTY720 affected mainly the IFNγ-producing subset. Accordingly, when the phenotype of potentially pathogenic T cells was further dissected, we observed that treatment decreased frequencies of CCR6+ and CD161+ T cells producing IL-17 in combination with IFNγ or IFNγ alone both in the CD4+ and in the CD8+ compartments. In particular, fingolimod significantly reduced levels of CD8+ CD161highCCR6+ T cells producing IFNγ alone or in combination with IL-17, a subset of CD8 positive T cells endowed by a remarkable pathogenic potential in MS (Annibali et al. 2011). These results further confirm that fingolimod appears to affect significantly CD4+ Th17 cells but also IFNγ producing Th17 cells, a non-classical Th1/Th17 subpopulation, which is dynamically generated from classical Th17 cells under inflammatory condition (Annunziato et al. 2012). The preferred effect of fingolimod on CCR6+ CD161+ IFNγ and IL-17 co-producing T cells might be explained by the inability of Th17 cells to proliferate upon TCR stimulation under inflammatory conditions because of reduced responsiveness to IL2 and impairment of RORC-dependent pathways that lead to IL2 production and cell proliferation resulting in a limited Th17 cells expansion at sites of inflammation (Santarlasci et al. 2012). In addition, these findings further support a selective effect of fingolimod on different T cell populations in MS individuals (Mehling et al. 2008, 2010), probably based on its ability to modulate S1PR1 on lymphocytes and therefore controlling their egress from lymphoid organs (Cyster and Schwab 2012). Of note, we observed also a statistically significant reduction of the frequencies of CD4+ CD25highCD127low T cells in MS subjects naïve of therapy compared to controls. An impairment of Treg functions has been described in MS patients, which may underlie the compromised control of auto-reactive cells (Viglietta et al. 2004). Interestingly, the frequency of CD4+ CD25highCD127low T cells was significantly increased close to levels observed in controls 1 month after fingolimod was started. These results are in line with the recent report that CD127 polymorphisms can influence the frequency of circulating Treg in MS patients (Broux et al. 2010). Accordingly, we detected a drastic decrease in the percentage of CD39 expressing CD4+ CD25highCD127low Tregs in MS patients compared to controls, which was significantly increased after FTY720 was started. These results are of remarkable importance as it has been suggested that CD39, an ectoenzyme with immunosuppressive features due to its involvement in ATP degradation, plays a major role in Treg activity leading to defective Tregs functions in CD4+ (Borsellino et al. 2007) and CD8+ subsets (Parodi et al. 2013). Therefore fingolimod increases the circulating levels of CD39-expressing Tregs consistent with the capability to restore Treg homeostasis and functions in MS patients. Taken together these data suggest a double beneficial role of fingolimod in negatively modulating inflammatory T cell circulation and/or activation and restoring Treg homeostasis. Based on this scenario, the analysis of frequencies of peripheral effector and regulatory T cell populations and their mutual balance, is of particular interest for the assessment of the mechanisms of action of immunomodulatory drugs relevant to MS treatment.
AU and GLM received honoraria to act as advisor or speaker from BiogenIdec, Novartis, Merck Serono, Teva, Sanofi-Aventis, Bayer-Schering, AU also acted as advisor for Roche and Allergan. AU and GLM received financial support for research, not related to the study described in this manuscript from Merck Serono, BiogenIdec and Novartis.
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