Francesca Meloni

An emerging player in the adaptive immune response: MicroRNA-146a is a modulator of IL-2 expression and activation-induced cell death in T lymphocytes

Activation of the T cell-mediated immune response has been associated with changes in the expression of specific microRNAs (miRNAs). However, the role of miRNAs in the development of an effective immune response is just beginning to be explored. This study focuses on the functional role of miR-146a in T lymphocyte-mediated immune response and provides interesting clues on the transcriptional regulation of miR-146a during T-cell activation. We show that miR-146a is low in human naive T cells and is abundantly expressed in human memory T cells; consistently, miR-146a is induced in human primary T lymphocytes upon T-cell receptor (TCR) stimulation. Moreover, we identified NF-kB and c-ETS binding sites as required for the induction of miR-146a transcription upon TCR engagement. Our results demonstrate that several signaling pathways, other than inflammation, are influenced by miR-146a. In particular, we provide experimental evidence that miR-146a modulates activation-induced cell death (AICD), acting as an antiapoptotic factor, and that Fas-associated death domain (FADD) is a target of miR-146a. Furthermore, miR-146a enforced expression impairs both activator protein 1 (AP-1) activity and interleukin-2 (IL-2) production induced by TCR engagement, thus suggesting a role of this miRNA in the modulation of adaptive immunity.

miR-223 is overexpressed in T-lymphocytes of patients affected by rheumatoid arthritis

miRNAs have recently emerged as key regulators of the immune system, being involved in lymphocyte selection and proliferation, in T(reg) cells differentiation, and in hematopoiesis in general. Rheumatoid arthritis (RA) is an autoimmune pathology the etiology of which is still obscure. Although a multifactorial pathogenesis has been hypothesized, the precise mechanisms leading to the disease are still poorly understood at the molecular level. miRNA expression profile analysis highlighted that miR-223 is the only miRNA that is strikingly deregulated in peripheral T-lymphocytes from RA patients compared with healthy donors. Further analysis by quantitative reverse transcription-polymerase chain analysis confirmed that miR-223 is overexpressed in T-lymphocytes from RA patients (n = 28) compared with healthy donors (n = 10). Moreover, purification of different T-lymphocyte populations from RA patients highlights that miR-223 is expressed at higher levels in naive CD4(+) lymphocytes, whereas its expression is barely detectable in T(h)-17 cells. In summary, our data provide a first characterization of the miRNA expression profiles of peripheral T-lymphocytes of RA patients, identifying miR-223 as overexpressed in CD4(+) naive T-lymphocytes from these individuals. A deeper analysis of the biologic functions and effects of the expression of miR-223 in T-lymphocytes is needed to clarify the exact link between our observation and the disease.

IMMUNOGENICITY OF HUMAN MESENCHYMAL STEM CELLS IN HLA-CLASS I RESTRICTED T CELL RESPONSES AGAINST VIRAL OR TUMOR-ASSOCIATED ANTIGENS

Human mesenchymal stem cells (MSC) are immunosuppressive and poorly immunogenic but may act as antigen‐presenting cells (APC) for CD4+ T‐cell responses; here we have investigated their ability to serve as APC for in vitro CD8+ T‐cell responses. MSC pulsed with peptides from viral antigens evoked interferon (IFN)‐γ and Granzyme B secretion in specific cytotoxic T lymphocytes (CTL) and were lysed, although with low efficiency. MSC transfected with tumor mRNA or infected with a viral vector carrying the Hepatitis C virus NS3Ag gene induced cytokine release but were not killed by specific CTL, even following pretreatment with IFN‐γ. To investigate the mechanisms involved in MSC resistance to CTL‐mediated lysis, we analyzed expression of human leukocyte antigen (HLA) class I‐related antigen‐processing machinery (APM) components and of immunosuppressive HLA‐G molecules in MSC. The LMP7, LMP10, and ERp57 components were not expressed and the MB‐1 and zeta molecules were downregulated in MSC either unmanipulated or pretreated with IFN‐γ. Surface HLA‐G was constitutively expressed on MSC but was not involved in their protection from CTL‐mediated lysis. MSC supernatants containing soluble HLA‐G (sHLA‐G) inhibited CTL‐mediated lysis, whereas those lacking sHLA‐G did not. The role of sHLA‐G in such inhibition was unambiguously demonstrated by partial restoration of lysis following sHLA‐G depletion from MSC supernatants. In conclusion, human MSC can process and present HLA class I‐restricted viral or tumor antigens to specific CTL with a limited efficiency, likely because of some defects in APM components. However, they are protected from CTL‐mediated lysis through a mechanism that is partly sHLA‐G‐dependent.

Cross-presentation of caspase-cleaved apoptotic self antigens in HIV infection

We found that the proteome of apoptotic T cells includes prominent fragments of cellular proteins generated by caspases and that a high proportion of distinct T cell epitopes in these fragments is recognized by CD8+ T cells during HIV infection. The frequencies of effector CD8+ T cells that are specific for apoptosis-dependent epitopes correlate with the frequency of circulating apoptotic CD4+ T cells in HIV-1–infected individuals. We propose that these self-reactive effector CD8+ T cells may contribute to the systemic immune activation during chronic HIV infection. The caspase-dependent cleavage of proteins associated with apoptotic cells has a key role in the induction of self-reactive CD8+ T cell responses, as the caspase-cleaved fragments are efficiently targeted to the processing machinery and are cross-presented by dendritic cells. These findings demonstrate a previously undescribed role for caspases in immunopathology.

The scavenger receptors SRA-1 and SREC-I cooperate with TLR2 in the recognition of the hepatitis C virus non-structural protein 3 by dendritic cells

BACKGROUNDS & AIMS The hepatitis C virus NS3 protein is taken up by myeloid cells in a TLR2-independent manner and activates myeloid cells via TLR2. This study aimed to identify the endocytic receptor(s) involved in the uptake of NS3 by myeloid cells and its relation with TLR2. METHODS Inhibitors and transfected cells were used to identify the nature of the NS3-binding receptors expressed by myeloid cells. The cooperation between scavenger receptors (SRs) and TLR2 in the NS3-mediated activation of myeloid cells was evaluated using inhibitors, cells from TLR2(-/-) mice, and confocal microscopy. The involvement of SRs in NS3 cross-presentation was evaluated in vitro using an NS3-specific human T-cell clone. RESULTS We observed that SRs are the main binding structures for NS3 on myeloid cells and identified the SRs SRA-1 and SREC-I as endocytic receptors for NS3. Moreover, both SRs and TLR2 cooperate in NS3-induced myeloid cell activation. CONCLUSION This study highlights a central role for SRs in NS3 uptake and cross-presentation, and demonstrates a tightly orchestrated cooperation between signalling and endocytic innate receptors in NS3 recognition.

Characterization of a Proteasome and TAP-independent Presentation of Intracellular Epitopes by HLA-B27 Molecules

Background: HLA-B*2705-Asp116 and HLA-B*2709-His-116 associate differently with AS. Both possess an unpaired Cys-67 in the B pocket. Results: The two molecules cross-present antigens through a proteasome-independent route. Cys-67, although not endorsing this alternative pathway, contributes variously to peptide stabilization. Conclusion: B27 molecules can load peptides in post-ER compartments. Asp-116/His-116 influences the need of an intact B-pocket. Significance: Identifying B27 distinctive features might contribute to the understanding of AS pathogenesis. Nascent HLA-class I molecules are stabilized by proteasome-derived peptides in the ER and the new complexes proceed to the cell surface through the post-ER vesicles. It has been shown, however, that less stable complexes can exchange peptides in the Trans Golgi Network (TGN). HLA-B27 are the most studied HLA-class I molecules due to their association with Ankylosing Spondylitis (AS). Chimeric proteins driven by TAT of HIV have been exploited by us to deliver viral epitopes, whose cross-presentation by the HLA-B27 molecules was proteasome and TAP-independent and not restricted to Antigen-Presenting Cells (APC). Here, using these chimeric proteins as epitope suppliers, we compared with each other and with the HLA-A2 molecules, the two HLA-B*2705 and B*2709 alleles differing at residue 116 (D116H) and differentially associated with AS. We found that the antigen presentation by the two HLA-B27 molecules was proteasome-, TAP-, and APC-independent whereas the presentation by the HLA-A2 molecules required proteasome, TAP and professional APC. Assuming that such difference could be due to the unpaired, highly reactive Cys-67 distinguishing the HLA-B27 molecules, C67S mutants in HLA-B*2705 and B*2709 and V67C mutant in HLA-A*0201 were also analyzed. The results showed that this mutation did not influence the HLA-A2-restricted antigen presentation while it drastically affected the HLA-B27-restricted presentation with, however, remarkable differences between B*2705 and B*2709. The data, together with the occurrence on the cell surface of unfolded molecules in the case of C67S-B*2705 mutant but not in that of C67S-B*2709 mutant, indicates that Cys-67 has a more critical role in stabilizing the B*2705 rather than the B*2709 complexes.

Dendritic cells loaded with apoptotic oligodendrocytes as a source of myelin T-cell epitopes in multiple sclerosis.

Evidence suggests that T-cell response to myelin basic protein (MBP) plays an important role in multiple sclerosis (MS). However, the mechanism of generation for MBP immunogenic epitopes is unclear. A series of specific CD4(+) T-cell lines was obtained by stimulating peripheral blood mononuclear cells from MS patients with synthetic peptides spanning the entire MBP sequence. T-cell lines recognizing MBP(8-27), MBP(13-32), and MBP(23-42) peptides, whose sequences are identical for humans and rats, specifically proliferated and produced large amounts of interferon-gamma in response to autologous dendritic cells (DCs) loaded in vitro with apoptotic rat oligodendrocytes. Results suggest that MBP epitopes generated from enzymatic processing of apoptotic glial cells by DCs might be relevant to MS pathogenesis.