Double Positive CD4CD8 αβ T Cells: A New Tumor-Reactive Population in Human Melanomas

BACKGROUND: Double positive (DP) CD4CD8 Talphabeta cells have been reported in normal individuals as well as in different pathological conditions including inflammatory diseases, viral infections and cancer, but their function remains to be elucidated. We recently reported the increased frequency of DP Talphabeta cells in human breast pleural effusions. This manuscript addresses the question of the existence and above all the role of this non-conventional DP sub-population among tumor associated lymphocytes in melanomas. METHODOLOGY/PRINCIPAL FINDINGS: We analyzed the intratumoral cell infiltrate in solid metastasis (n = 6) and tumor invaded lymph nodes (n = 26) samples from melanomas patients by multiparametric cytometry. Here we documented for the first time significant increased frequency of DP T cells in about 60% of melanoma tumors compared to blood samples. Interestingly, a high proportion of these cells produced TNF-alpha in response to autologous melanoma cell lines. Besides, they are characterized by a unique cytokine profile corresponding to higher secretion of IL-13, IL-4 and IL-5 than simple positive T cells. In deep analysis, we derived a representative tumor-reactive DP T cell clone from a melanoma patient's invaded lymph node. This clone was restricted by HLA-A*2402 and recognized both autologous and allogeneic tumor cells of various origins as well as normal cells, suggesting that the target antigen was a ubiquitous self antigen. However, this DP T cell clone failed to kill HLA-A*2402 EBV-transformed B cells, probably due to the constitutive expression of immunoproteasome by these cells. CONCLUSIONS/SIGNIFICANCE: In conclusion, we can postulate that, according to their broad tumor reactivity and to their original cytokine profile, the tumor associated DP T cells could participate in immune responses to tumors in vivo. Therefore, the presence of these cells and their role will be crucial to address in cancer patients, especially in the context of immunotherapies

Immunotherapy With Antiprogrammed Cell Death 1 Antibody Improves Outcome in a Mouse Model of Spinal Cord Injury Followed by Staphylococcus aureus Pneumonia

International audienceObjectives: In patients with spinal cord injury, spinal cord injury-immune depression syndrome induces pneumonia. We aimed to develop a new spinal cord injury-immune depression syndrome mouse model and to test antiprogrammed cell death 1 therapy. Design: Experimental study. Setting: Research laboratory. Subjects: RjOrl: SWISS and BALB/cJ mice. Interventions: Mouse model of spinal cord injury-immune depression syndrome followed by a methicillin-susceptible Staphylococcus aureus pneumonia. Lung injuries were assessed by histologic analysis. Membrane markers and intracytoplasmic cytokines were assessed by flow cytometry. Cytokine production was assessed by quantitative polymerase chain reaction (messenger RNA) and enzyme-linked immunosorbent assay (protein). Animals were treated with blocking antiprogrammed cell death 1 antibodies (intraperitoneal injection). Measurements and Main Results: Spinal cord injury mice were more susceptible to methicillin-susceptible S. aureus pneumonia (increased mortality rate). An early inflammatory response was observed in spinal cord injury mice characterized in lungs by a decreased percentage of aerated tissue, an increased production of proinflammatory cytokines (tumor necrosis factor-α). In spleen, an increased expression of major histocompatibility complex class II molecules on dendritic cells, and an increased production of pro-inflammatory cytokines (interleukin-12, interferon-γ) was observed. Following this pulmonary and systemic inflammation, spinal cord injury-immune depression syndrome was observed in spleens as acknowledged by a decrease of spleen's weight, a lymphopenia, a decrease of major histocompatibility complex class II expression on dendritic cells. An increase of interleukin-10 production and the increase of a cell exhaustion marker expression, programmed cell death 1 receptor on T-cell were also observed. Blockade of programmed cell death 1 molecules, improved survival of spinal cord injury infected mice and enhanced interferon-γ production by natural killer T cells as well as number of viable CD4 + T cells. Conclusions: This model of spinal cord injury in mice mimics a clinical scenario rendering animals prone to a secondary pneumonia. We show for the first time an acute T-cell exhaustion-like phenomenon following an initial inflammatory response. Finally, inhibition of exhaustion pathway should be considered as a new therapeutic option to overcome spinal cord injury-immune depression syndrome and to decrease the rate of nosocomial pneumonia. (Crit Care Med 2019; 47:e28-e35) Key Words: brain injury; immunosuppression; immunotherapy; programmed cell death 1 receptor; spinal cord injury N osocomial infections are independent risk factors for poor neurologic outcome after motor complete spinal cord injury (SCI) (1). SCI induces a severe initial systemic inflammatory response followed by an intense period of immunosuppression which is recognized as an independent risk factor for infection (1, 2). Studies in human and rodent SCI models have already investigated the specifi

Frequent occurrence of high affinity T cells against MELOE-1 makes this antigen an attractive target for melanoma immunotherapy

International audienceWe recently showed that the infusion of tumor infiltrating lymphocytes specific for the MELOE-1 antigen was associated with a prolonged relapse-free survival for HLA-A2 1 melanoma patients who received tumor infiltrating lymphocytes therapy. Here, we characterized the MELOE-1/A2-specific T-cell repertoire in healthy donors and melanoma patients to further support an immunotherapy targeting this epitope. Using tetramer enrichment followed by multicolor staining, we found that MELOE-1-specific T cells were present in the blood of healthy donors and patients at similar frequencies (around 1 in 1 Â 10 5 CD8 1 cells). These cells mainly displayed a naïve phenotype in 4/6 healthy donors and 3/6 patients, whereas high proportions of memory cells were observed in the remaining individuals of both groups. There was a recurrent usage of the Va12.1 chain for 17/18 MELOE-1-specific T-cell clones derived from healthy donors or patients, associated with diverse Vb chains and V(D)J junctional sequences. All clones derived from melanoma patients (9/9) were reactive against the MELOE-1 36-44 peptide and against HLA-A2 1 melanoma cell lines. This study documents the existence of a large TCR repertoire specific for the MELOE-1/A2 epitope and its capacity to give rise to antitumor CTL that supports the development of immunotherapies targeting this epitope

Targeting NKG2A to boost anti-tumor CD8 T-cell responses in human colorectal cancer

International audienceRecently, the inhibitory CD94/NKG2A receptor has joined the group of immune checkpoints (ICs) and its expression has been documented in NK cells and CD8+ T lymphocytes in several cancers and some infectious diseases. In colorectal cancer (CRC), we previously reported that NKG2A+ tumor-infiltrating lymphocytes (TILs) are predominantly CD8+ αβ T cells and that CD94 overexpression and/or its ligand HLA-E were associated with a poor prognosis. This study aimed to thoroughly characterize the NKG2A+ CD8+ TIL subpopulation and document the impact of NKG2A on anti-tumor responses in CRC. Our findings highlight new features of this subpopulation: (i) enrichment in colorectal tumors compared to paired normal colonic mucosa, (ii) their character as tissue-resident T cells and their majority terminal exhaustion status, (iii) co-expression of other ICs delineating two subgroups differing mainly in the level of NKG2A expression and the presence of PD-1, (iv) high functional avidity despite reduced proliferative capacity and finally (v) inhibition of anti-tumor reactivity that is overcome by blocking NKG2A. From a clinical point of view, these results open a promising alternative for immunotherapies based on NKG2A blockade in CRC, which could be performed alone or in combination with other IC inhibitors, adoptive cell transfer or therapeutic vaccination

HLA Anchor Optimization of the Melan-A-HLA-A2 Epitope within a Long Peptide Is Required for Efficient Cross-Priming of Human Tumor-Reactive T Cells

International audienceThe uptake and long-term cross-presentation of tumor Ag long peptides (LP) by dendritic cells (DC) make them attractive cancer vaccine candidates. However, it remains to be established whether LP can prime long-lived tumor-reactive CTL and whether other cell types are able to cross-present them. Using HLA-A2 healthy donor and melanoma patient-derived PBMC, we studied the in vitro cross-priming potential of Melan-A 16-40 LP bearing the HLA-A2-restricted epitope 26-35 or its analog 26-35(A27L) and compared it to the priming capacity of the short analog. We then addressed LP priming capacity in vivo using HLA-A2 mice. We also studied LP cross-presentation by monocyte-derived DC, plasmacytoid DC, monocytes, and B cells. We showed that the modified LP gave rise to high and sustained cross-presentation by monocyte-derived DC. This led to cross priming in vitro and in vivo and to expansion of long-lived tumor-reactive cytotoxic T cells. In contrast, the LP containing the natural 26-35 epitope primed specific T cells poorly, despite its long-lived cross-presentation, and T cells primed against the short analog were short-lived. We further showed that LP cross-presentation is restricted to monocytes and conventional DC. These results document for the first time, to our knowledge, the strong immunogenicity of a human tumor Ag LP. Of note, they underscore that this property is critically dependent on sufficient HLA binding affinity and/or TCR ligand potency of the cross-presented epitope. We conclude that LP fulfilling this requirement should be used as tumor vaccines, together with DC maturating agents, especially the Melan-A 16-40(A27L) LP, for the treatment of HLA-A2(+) melanoma patients

Comparison of cytokine production capacities of DP T cells with that of SP subpopulations by FACS analysis.

<p>Data are expressed as mean % of intracellular cytokine secreting cells in response to anti-CD3 stimulation (n = 5). Significance increase of cytokines production by DP T cells was evaluated by Tukey-Kramer's test. *P<0.05,***P<0.001. No cytokine production was observed by unstimulated subpopulations.</p

Functional properties of the M314.132 DP T cell clone.

<p>A/ Cytokine production analysis. DP T cell clone was fixed, permeabilized and stained for cytokines following autologous melanoma stimulation. Data are expressed as mean % of intracellular cytokine secreting cells. Open histograms correspond to the analysis of cytokine production by unstimulated M314.132 DP T cell clone (negative control). B/Lysis of the M314 autologous melanoma cell line (closed circles) by M314.132 DP T cell clone. The M132 cell line was used as negative control target (open circles). 51Cr-labeled tumor cells were co-cultured with T cells at various E/T ratios. Chromium release in the supernantants was measured after a 4-h incubation period. C/ Phenotypic characterization of M314 DP T cell clone. D/ Proliferation capacity. CFSE-labeled T cell clones were stimulated with anti-CD3 (OKT3). The CD8 T cell clone used as positive control was obtained by limiting dilution of melanoma specific CD8 T cells. As negative control, T cell clones were maintained in the absence of any stimulation (Not Stimulated: NS).</p