Violaine François scite author profile

Purpose: A critical factor determining the effectiveness of currently used dendritic cell (DC)-based vaccines is the DC activation or maturation status. We have recently shown that the T-cell stimulatory capacity of DCs pulsed with tumor-antigen-derived peptides can be considerably increased by activating the DCs through electroporation with mRNA encoding CD40 ligand, CD70, and a constitutively active Toll-like receptor 4 (TriMix DCs). Here, we investigate whether TriMix DCs can be coelectroporated with whole tumor-antigen-encoding mRNA. Experimental Design: The T-cell stimulatory capacity of TriMix DCs pulsed with the immunodominant MelanA-A2 peptide and that of TriMix DCs coelectroporated with MelanA mRNA were compared in vitro. TriMix DCs were also coelectroporated with mRNA encoding Mage-A3, Mage-C2, tyrosinase, or gp100. The capacity of these DCs to stimulate tumor-antigen-specific T cells in melanoma patients was investigated both in vitro before vaccination and after DC vaccination. Results: Like peptide-pulsed TriMix DCs, TriMix DCs coelectroporated with MelanA mRNA are very potent in inducing MelanA-specific CD8 + T cells in vitro. These T cells have an activated phenotype, show cytolytic capacity, and produce inflammatory cytokines in response to specific stimulation. TriMix DCs coelectroporated with tyrosinase are able to stimulate tyrosinase-specific CD8 + T cells in vitro from the blood of nonvaccinated melanoma patients. Furthermore, TriMix DCs coelectroporated with Mage-A3, Mage-C2, or tyrosinase are able to induce antigen-specific CD8 + T cells through therapeutic DC vaccination. Conclusions: TriMix DCs coelectroporated with whole tumor-antigen mRNA stimulate antigen-specific T cells in vitro and induce antigen-specific T-cell responses in melanoma patients through vaccination. Therefore, they represent a promising new approach for antitumor immunotherapy.The past five decades have witnessed a steady increase in the incidence of malignant melanoma. Whereas early detection and appropriate surgery have improved outcomes, at least one third of patients with early-stage melanoma will develop metastases. The prognosis for patients with malignant metastatic melanoma remains poor. These patients have a median survival of approximately 6 to 8 months, and <5% will generally survive for 5 years or more (1). There is universal agreement that further research to address this problem is critically warranted.Many strategies to enhance specific or nonspecific immunity in melanoma patients have been explored in clinical studies (2). Although the field is relatively new and many clinical variables remain to be investigated, vaccination with tumor-associated antigen (TAA)-expressing dendritic cells (DC) might provide a therapeutic benefit (3). Roughly, the DC life cycle can be divided into two stages: the immature and the mature stage. Immature DCs reside in the periphery and are specialized

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Comparison of stable human Treg and Th clones by transcriptional profiling

Stockis

et al. 2009

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From cancerous and non-cancerous patients, we derived stable clones of CD4 1 Treg, defined as clones that expressed high CD25 at rest, were anergic in vitro, and suppressed the proliferation of co-cultured CD4 1 cells. A conserved region of FOXP3 intron 1 was demethylated in all Treg clones, whereas it was methylated in non-regulatory Th and CTL clones. In our panel of human clones, this stable epigenetic mark correlated better with suppressive activity than did FOXP3 mRNA or protein expression. We used expression microarrays to compare Treg and Th clones after activation, which is required for suppressive function. The transcriptional profile that is specific of activated Treg clones includes a TGF-b signature. Both activated Treg and Th clones produced the latent form of TGF-b. However, SMAD2 phosphorylation was observed after activation in the Treg but not in the Th clones, indicating that only activated Treg clones produced the bioactive form of TGF-b. A TGF-b signature was also displayed by a Th clone ''suppressed'' by a Treg clone. In conclusion, the hallmark of our panel of activated human Treg clones is to produce bioactive TGF-b which has autocrine actions on Tregs and can have paracrine actions on other T cells.

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The CD4+ T-Cell Response of Melanoma Patients to a MAGE-A3 Peptide Vaccine Involves Potential Regulatory T Cells

François

Ottaviani

Renkvist

et al. 2009

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Melanoma patients were injected with various vaccines containing a MAGE-A3 peptide presented by HLA-DP4. Anti-MAGE-A3.DP4 T cells were not detectable in the blood before vaccination, but their frequencies after vaccination ranged from 2 Â 10 À6 to 2 Â 10 À3 among the CD4 + blood T lymphocytes of the patients. The CD4 + blood T lymphocytes that stained ex vivo with HLA-DP4 tetramers folded with the MAGE-A3 peptide were selected by flow cytometry and amplified under clonal conditions. About 5% of the CD4 + T-cell clones that recognized the MAGE-A3.DP4 antigen had a CD25 + phenotype in the resting state. These CD25 + clones had a high capacity to suppress the proliferation of another T-cell clone after peptide stimulation in vitro. Most of them had high FOXP3 expression in the resting state and an unmethylated FOXP3 intron 1. They produced active transforming growth factor-B but none of cytokines IFN-;, interleukin-2 (IL-2), IL-4, IL-5, and IL-10. About 20% of CD25 À clones had a significant but lower suppressive activity. Most of the CD25 À clonal populations contained cells that expressed FOXP3 in the resting state, but FOXP3 demethylation was not observed. We conclude that MAGE-A3.DP4 vaccination can produce CD4 + T cells that may exert regulatory T-cell function in vivo.

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Epstein–Barr virus infection induces an increase of T regulatory type 1 cells in Hodgkin lymphoma patients

et al. 2014

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SummaryEpstein-Barr Virus (EBV) is present in the neoplastic cells of around 20-30% of patients with Hodgkin Lymphoma (HL). Although, an immunosuppressive environment is currently described in HL patients, little is known concerning the regulatory mechanism induced by EBV proteins expression in tumour cells. This study aimed to investigate an association between regulatory Type 1 cells (Tr1) and EBV tissue positivity in HL patients. Transcriptomic analysis of both EBV-positive and EBV-negative tumours showed that EBV infection increased gene expression of Tr1-related markers (ITGA2, ITGB2, LAG3) and associated-immunosuppressive cytokines (IL10). This up-regulation was associated with an over-expression of several chemokine markers known to attract T-helper type 2 (Th2) and regulatory T cells thus contributing to immune suppression. This Tr1 cells recruitment in EBV-positive HL was confirmed by immunohistochemical analysis of frozen nodes biopsies and by flow cytometric analysis of peripheral blood mononuclear cells of EBV-positive patients. Additionally, we showed that IL10 production was significantly enhanced in tumours and blood of EBV-positive HL patients. Our results propose a new model in which EBV can recruit Tr1 cells to the nodes' microenvironment, suggesting that the expression of EBV proteins in tumour cells could enable the escape of EBV-infected tumour cells from the virus-specific CTL response.

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Intestinal immunopathology is associated with decreased CD73-generated adenosine during lethal infection

et al. 2015

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The ectonucleotidases CD39 and CD73 sequentially degrade the extracellular ATP pool and release immunosuppressive adenosine, thereby regulating inflammatory responses. This control is likely to be critical in the gastrointestinal tract where high levels of ATP are released in particular by commensal bacteria. The aim of this study was therefore to evaluate the involvement of the adenosinergic regulation in the intestine of mice in steady-state conditions and on acute infection with Toxoplasma gondii. We show that both conventional (Tconv) and regulatory (Treg) CD4(+) T lymphocytes express CD39 and CD73 in the intestine of naive mice. CD73 expression was downregulated during acute infection with T. gondii, leading to impaired capacity to produce adenosine. Interestingly, the expression of adenosine receptors was maintained and treatment with receptor agonists limited immunopathology and dysbiosis, suggesting that the activation of adenosine receptors may constitute an efficient approach to control intestinal inflammation associated with decreased ectonucleotidase expression.

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Determination of a HLA II Promiscuous Peptide Cocktail as Potential Vaccine Against EBV Latency II Malignancies

Depil¹,

Moralès²,

Castelli³

et al. 2007

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The Epstein-Barr virus (EBV) is associated with several malignant diseases, which can be distinguished by their patterns of viral latent gene expression. The latency II program is limited to the expression of the nonimmunodominant antigens EBNA1, LMP1 and LMP2 and is seen in EBV-positive Hodgkin disease, nasopharyngeal carcinomas, and peripheral T/NK-cell lymphomas. CD4 T cells may play a crucial role in controlling these EBV latency II malignancies. In this study, we used the prediction software TEPITOPE to predict promiscuous major histocompatibility complex class II epitopes derived from the latency II antigens EBNA1, LMP1, and LMP2. The predicted peptides were then submitted to peptide-binding assays on HLA II purified molecules, which allowed the selection of 6 peptides (EBNA1: 3; LMP1: 1; and LMP2: 2) with a highly promiscuous capability of binding. This peptide cocktail was immunogenic in a model of HLA-DR1 transgenic mice, leading to a specific cellular and humoral TH1 response. The peptides were also recognized by human CD4 T cells from individuals expressing various HLA II genotypes. This promiscuous peptide cocktail could be immunogenic in the majority of the population and may be used as a peptide-based vaccine in EBV latency II malignancies.

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Peptide-binding assays and HLA II transgenic Aβ° mice are consistent and complementary tools for identifying HLA II-restricted peptides

Depil

Angyalosi

Moralès

et al. 2006

Vaccine

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Supplementary Figure 3 from The CD4<sup>+</sup> T-Cell Response of Melanoma Patients to a MAGE-A3 Peptide Vaccine Involves Potential Regulatory T Cells

François¹,

Ottaviani²,

Renkvist³

et al. 2023

Preprint

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