Ignazia Prigione

Reciprocal Interactions Between Human Mesenchymal Stem Cells and γδ T Cells Or Invariant Natural Killer T Cells

The immunomodulatory activities of human mesenchymal stem cells (MSCs) provide a rational basis for their application in the treatment of immune‐mediated diseases, such as graft versus host disease and multiple sclerosis. The effects of MSCs on invariant natural killer T (iNKT) and γδ T cells, both involved in the pathogenesis of autoimmune diseases, are unknown. Here, we investigated the effects of MSCs on in vitro expansion of these unconventional T‐cell populations. MSCs inhibited iNKT (Vα24+Vβ11+) and γδ T (Vδ2+) cell expansion from peripheral blood mononuclear cells in both cell‐to‐cell contact and transwell systems. Such inhibition was partially counteracted by indomethacin, a prostaglandin E2 inhibitor. Block of indoleamine 2,3‐deoxygenase and transforming growth factor β1 did not affect Vα24+Vβ11+ and Vδ2+ cell expansion. MSCs inhibited interferon‐γ production by activated Vα24+Vβ11+ and impaired CD3‐mediated proliferation of activated Vα24+Vβ11+ and Vδ2+ T cells, without affecting their cytotoxic potential. MSCs did not inhibit antigen processing/presentation by activated Vδ2+ T cells to CD4+ T cells. In contrast, MSCs were lysed by activated Vδ2+ T cells through a T‐cell receptor‐dependent mechanism. These results are translationally relevant in view of the increasing interest in MSC‐based therapy of autoimmune diseases. STEM CELLS 2009;27:693–702

γδ T-cell reconstitution after HLA-haploidentical hematopoietic transplantation depleted of TCR-αβ+/CD19+ lymphocytes

We prospectively assessed functional and phenotypic characteristics of γδ T lymphocytes up to 7 months after HLA-haploidentical hematopoietic stem cell transplantation (haplo-HSCT) depleted of αβ(+) T cells and CD19(+) B cells in 27 children with either malignant or nonmalignant disorders. We demonstrate that (1) γδ T cells are the predominant T-cell population in patients during the first weeks after transplantation, being mainly, albeit not only, derived from cells infused with the graft and expanding in vivo; (2) central-memory cells predominated very early posttransplantation for both Vδ1 and Vδ2 subsets; (3) Vδ1 cells are specifically expanded in patients experiencing cytomegalovirus reactivation and are more cytotoxic compared with those of children who did not experience reactivation; (4) these subsets display a cytotoxic phenotype and degranulate when challenged with primary acute myeloid and lymphoid leukemia blasts; and (5) Vδ2 cells are expanded in vitro after exposure to zoledronic acid (ZOL) and efficiently lyse primary lymphoid and myeloid blasts. This is the first detailed characterization of γδ T cells emerging in peripheral blood of children after CD19(+) B-cell and αβ(+) T-cell-depleted haplo-HSCT. Our results can be instrumental to the development of clinical trials using ZOL for improving γδ T-cell killing capacity against leukemia cells. This trial was registered at www.clinicaltrials.gov as #NCT01810120.

Human Neuroblastoma Cells Trigger an Immunosuppressive Program in Monocytes by Stimulating Soluble HLA-G Release

HLA-G is overexpressed in different tumors and plays a role in immune escape. Because no information is available on HLA-G in relation to human neuroblastoma, we have investigated the expression of membrane-bound and secretion of soluble isoforms of HLA-G in neuroblastoma and functionally characterized their immunosuppressive activities. At diagnosis, serum soluble HLA-G (sHLA-G) levels were significantly higher in patients than in age-matched healthy subjects. In addition, patients who subsequently relapsed exhibited higher sHLA-G levels than those who remained in remission. Neuroblastoma patient sera selected according to high sHLA-G concentrations inhibited natural killer (NK) cell and CTL-mediated neuroblastoma cell lysis. Such lysis was partially restored by serum depletion of sHLA-G. In 6 of 12 human neuroblastoma cell lines, low HLA-G surface expression was not up-regulated by IFN-gamma. Only the ACN cell line secreted constitutively sHLA-G. IFN-gamma induced de novo sHLA-G secretion by LAN-5 and SHSY5Y cells and enhanced that by ACN cells. Primary tumor lesions from neuroblastoma patients tested negative for HLA-G. Neuroblastoma patients displayed a higher number of sHLA-G-secreting monocytes than healthy controls. Incubation of monocytes from normal donors with IFN-gamma or pooled neuroblastoma cell line supernatants significantly increased the proportion of sHLA-G-secreting cells. In addition, tumor cell supernatants up-regulated monocyte expression of CD68, HLA-DR, CD69, and CD71 and down-regulated IL-12 production. Our conclusions are the following: (a) sHLA-G serum levels are increased in neuroblastoma patients and correlate with relapse, (b) sHLA-G is secreted by monocytes activated by tumor cells rather than by tumor cells themselves, and (c) sHLA-G dampens anti-neuroblastoma immune responses.

Multiple defects of the antigen-processing machinery components in human neuroblastoma: Immunotherapeutic implications

Low expression of human leukocyte antigen (HLA) class I in human tumors may be related to defects of the antigen-processing machinery (APM) components. Neuroblastoma cells are virtually HLA class I negative, but (i) the underlying mechanisms are unknown, and (ii) expression of the APM components has never been investigated. Here we have used a panel of novel monoclonal antibodies to proteasomal and immunoproteasomal components, chaperons and transporter associated with antigen processing (TAP) to characterize 24 stroma-poor neuroblastoma tumors and six neuroblastoma cell lines. Primary tumors showed defects in the expression of zeta, tapasin, TAP1 or TAP2, HLA class I heavy chain and β2 microglobulin, LMP2 and LMP7, as compared to normal adrenal medulla. Neuroblastoma cell lines displayed roughly similar patterns of APM expression in comparison to primary tumors. Incubation of neuroblastoma cell lines with interferon-γ caused upregulation of HLA class I molecules and reduced lysis by killer inhibitory receptor HLA ligand-matched NK cells. Defects in APM components explain reduced peptide loading on HLA class I molecules, their instability and failure to be expressed on the cell surface. HLA class I upregulation by interferon-γ, although enhancing neuroblastoma cell recognition by cytotoxic T cells, dampens their susceptibility to NK cells.

T Cell Clones Raised from Chronically Infected Healthy Humans by Stimulation with Toxoplasma gondii Excretory-Secretory Antigens Cross-React with Live Tachyzoites: Characterization of the Fine Antigenic Specificity of the Clones and Implications for Vaccine Development

Excreted-secreted Ags (ESA) of Toxoplasma gondii (Tg) play an important role in the stimulation of the host immune system in both acute and chronic infections. To identify the parasite Ag(s) involved in the maintenance of T cell-mediated long term immunity, 40 ESA-specific T cell clones were derived from three chronically infected healthy subjects. All the clones were CD4+ and recognized both ESA and live tachyzoites in a HLA-DR-restricted manner. Conversely, CD4+ tachyzoite-specific T cell clones from the same subjects proliferated in response to ESA, pointing to shared immunodominant Ags between ESA and Tg tachyzoites. By T cell blot analysis using SDS-PAGE-fractionated parasite extracts, the following patterns of reactivity were detected. Of 25 clones, 6 recognized Tg fractions in the 24- to 28-kDa range and proliferated to purified GRA2, 5 reacted with Tg fractions in the 30- to 33-kDa range; and 4 of them proved to be specific for rSAg1. Although surface Ag (SAg1) is not a member of ESA, small amounts of this protein were present in ESA preparation by Western blot. Of 25 clones, 8 responded to Tg fractions in the 50- to 60-kDa range but not to the 55-kDa recombinant rhoptries-2 parasite Ag, and 6 did not react with any Tg fraction but proliferated in response to either ESA or total parasite extracts. In conclusion, CD4+ T cells specific for either ESA (GRA2) or SAg1 may be involved in the maintenance of long term immunity to Tg in healthy chronically infected individuals.

Phenotypic and functional characterisation of CCR7+ and CCR7- CD4+ memory T cells homing to the joints in juvenile idiopathic arthritis

The aim of the study was to characterise CCR7+ and CCR7- memory T cells infiltrating the inflamed joints of patients with juvenile idiopathic arthritis (JIA) and to investigate the functional and anatomical heterogeneity of these cell subsets in relation to the expression of the inflammatory chemokine receptors CXCR3 and CCR5. Memory T cells freshly isolated from the peripheral blood and synovial fluid (SF) of 25 patients with JIA were tested for the expression of CCR7, CCR5, CXCR3 and interferon-γ by flow cytometry. The chemotactic activity of CD4 SF memory T cells from eight patients with JIA to inflammatory (CXCL11 and CCL3) and homeostatic (CCL19, CCL21) chemokines was also evaluated. Paired serum and SF samples from 28 patients with JIA were tested for CCL21 concentrations. CCR7, CXCR3, CCR5 and CCL21 expression in synovial tissue from six patients with JIA was investigated by immunohistochemistry. Enrichment of CD4+, CCR7- memory T cells was demonstrated in SF in comparison with paired blood from patients with JIA. SF CD4+CCR7- memory T cells were enriched for CCR5+ and interferon-γ+ cells, whereas CD4+CCR7+ memory T cells showed higher coexpression of CXCR3. Expression of CCL21 was detected in both SF and synovial membranes. SF CD4+ memory T cells displayed significant migration to both inflammatory and homeostatic chemokines. CCR7+ T cells were detected in the synovial tissue in either diffuse perivascular lymphocytic infiltrates or organised lymphoid aggregates. In synovial tissue, a large fraction of CCR7+ cells co-localised with CXCR3, especially inside lymphoid aggregates, whereas CCR5+ cells were enriched in the sublining of the superficial subintima. In conclusion, CCR7 may have a role in the synovial recruitment of memory T cells in JIA, irrespective of the pattern of lymphoid organisation. Moreover, discrete patterns of chemokine receptor expression are detected in the synovial tissue.

Clonal Analysis of T Lymphocytes Infiltrating the Thyroid Gland in Hashimoto’s Thyroiditis

T cells isolated from thyroid tissue and peripheral blood of 2 patients with Hashimotos thyroiditis were studied by a high cloning efficiency microculture technique. Clonal efficiencies of 37 and 24% were obtained from thyroid-derived T cell cultures, while 40 and 90% efficiencies resulted from peripheral-blood-derived cultures. A prevalence of T4-/T8+ T cell clones were found in thyroid infiltrates. The functional analysis of the clones demonstrated significantly higher proportions of clones with cytolytic activity in a lectin-dependent assay in thyroid-derived microcultures, as compared to peripheral blood-derived ones. The proportion of clones displaying natural-killer-like activity was increased in 1 patient only. Cytolytic activity was displayed not only by all T4-/T8+, but also by several T4+/T8- intrathyroid clones. Remarkable proportions of cytolytic clones were also able to release interleukin-2 upon phytohemagglutinin stimulation. Finally, the proportion of T cell clones able to release gamma-interferon following mitogen stimulation was significantly higher in thyroid- vs. peripheral-blood-derived microcultures. These results provide further data about the possible pathogenetical role of both regulatory and effector T lymphocytes in human autoimmune thyroiditis.

Interleukin-23 acts as antitumor agent on childhood B-acute lymphoblastic leukemia cells

Interleukin (IL)-23 is a proinflammatory cytokine belonging to the IL-12 superfamily. The antitumor activity of IL-23 is controversial, and it is unknown whether or not the cytokine can act directly on tumor cells. The aim of this study was to investigate the potential direct antitumor activity of IL-23 in pediatric B-acute lymphoblastic leukemia (B-ALL) cells and to unravel the molecular mechanisms involved. Here, we show, for the first time, that IL-23R is up-regulated in primary B-ALL cells, compared with normal early B lymphocytes, and that IL-23 dampens directly tumor growth in vitro and in vivo through the inhibition of tumor cell proliferation and induction of apoptosis. The latter finding is related to IL-23-induced up-regulation of miR15a expression and the consequent down-regulation of BCL-2 protein expression in pediatric B-ALL cells. This study demonstrates that IL-23 possesses antileukemic activity and unravels the underlying mechanisms. Thus, IL-23 may be a candidate novel drug for the treatment of B-ALL patients unresponsive to current therapeutic standards.

CXCR5 may be involved in the attraction of human metastatic neuroblastoma cells to the bone marrow

Introduction Up-regulation of some chemokine receptors on tumor cells is associated with increased metastatic potential. In this respect, limited information is available on chemokine receptor in human neuroblastoma (NB).Objects Purpose of the study was to identify chemokines/chemokine receptors involved in bone marrow (BM) localization of metastatic NB cells in view of the development of targeted therapeutic strategies. CD45− metastatic NB cells were isolated from the BM of six patients by immunomagnetic bead manipulation. Some experiments were carried out using a panel of human neuroblastoma cell lines (GI-ME-N, GI-LI-N, LAN-5, HTLA-230, SH-SY-5Y and IMR-32). Immunophenotypic analyses were performed by flow cytometry. Cell migration assays were carried out using transwell systems. Calcium ion mobilization, chemokine receptor internalization and cell proliferation were investigated by flow cytometry.Results In all BM samples, CXCR5 was expressed by the majority of primary neuroblasts and mediated their chemotaxis in response to CXCL13. Primary metastatic NB cells from all BM samples expressed CXCR6, but were not attracted by soluble CXCL16. Studies performed with two CXCR6+ NB cell lines showed that the mechanism whereby neuroblasts did not migrate to CXCL16 was likely related to defective calcium ion mobilization.Conclusions CXCR5 is the first chemokine receptor so far identified able to attract in vitro primary metastatic NB cells. CXCR6 may be involved in retention of metastatic neuroblasts in the BM through interaction with CXCL16 expressing stromal cells in the absence of signal transduction.

Immunogenicity of human neuroblastoma

Abstract: Neuroblastoma (NB) is a neuroectodermal tumor that affects children in the first years of life. Half of NB cases present with metastatic disease at diagnosis and have a poor prognosis, in spite of the most advanced chemotherapeutic protocols combined with autologous hematopoietic stem cell transplantation. Among the new avenues for NB treatment that are being explored, immunotherapy has attracted much interest. Emphasis has been placed on monoclonal antibodies directed to tumor‐associated antigens—in particular the disialoganglioside GD2—that have been tested in the clinical setting with promising results. In addition, stimulation of cell‐mediated antitumor effector mechanisms have been attempted—for example, by recombinant interleukin (IL)‐2 administration. Nonetheless, the issue of the immunogenicity of human NB cells has never been thoroughly addressed. Here we shall review the work carried out in our lab in recent years and show that NB cells express tumor‐associated antigens, such as MAGE‐3, but lack constitutive expression of costimulatory molecules and surface HLA class I and II molecules. As such, NB cells are likely to be ignored by the host T cell compartment, since expression of HLA and costimulatory molecules on antigen presenting cells are sine qua non conditions for efficient peptide presentation to T cells and for the subsequent activation and clonal expansion of the latter cells. Notably, in vitro experiments with NB cell lines demonstrated that surface HLA class I molecules and the CD40 costimulatory molecule were upregulated following cell incubation with recombinant interferon‐γ. Interaction of CD40 with recombinant CD40 ligand induced apoptosis of NB cells through a caspase 8‐dependent mechanism. Collectively, these results indicate that the immunogenicity of human NB cells is very low but suggest that manipulation by cytokine administration or gene transfer can increase their immunogenic potential. On the other hand, NB cells represent an excellent target for natural killer cells, the potential role of which in immunotherapy of NB is now being investigated.