Your search keyword '"Pham, Hang"' showing total 6 results

1. Long-lived central memory γδ T cells confer protection against murine cytomegalovirus reinfection.

Author

Yared, Nathalie, Papadopoulou, Maria, Barennes, Pierre, Pham, Hang-Phuong, Quiniou, Valentin, Netzer, Sonia, Kaminski, Hanna, Burguet, Laure, Demeste, Amandine, Colas, Pacôme, Mora-Charrot, Lea, Rousseau, Benoit, Izotte, Julien, Zouine, Atika, Gauthereau, Xavier, Vermijlen, David, Déchanet-Merville, Julie, and Capone, Myriam

Subjects

T cells, IMMUNOSENESCENCE, TRANSVERSE electromagnetic cells, IMMUNOLOGIC memory, CELL analysis, REINFECTION, CYTOMEGALOVIRUS diseases

Abstract

The involvement of ©δ TCR-bearing lymphocytes in immunological memory has gained increasing interest due to their functional duality between adaptive and innate immunity. ©δ T effector memory (TEM) and central memory (TCM) subsets have been identified, but their respective roles in memory responses are poorly understood. In the present study, we used subsequent mouse cytomegalovirus (MCMV) infections of αβ T cell deficient mice in order to analyze the memory potential of ©δ T cells. As for CMV-specific αβ T cells, MCMV induced the accumulation of cytolytic, KLRG1+CX3CR1+ ©δ TEM that principally localized in infected organ vasculature. Typifying T cell memory, ©δ T cell expansion in organs and blood was higher after secondary viral challenge than after primary infection. Viral control upon MCMV reinfection was prevented when masking ©δ T-cell receptor, and was associated with a preferential amplification of private and unfocused TCR δ chain repertoire composed of a combination of clonotypes expanded post-primary infection and, more unexpectedly, of novel expanded clonotypes. Finally, long-term-primed ©δ TCM cells, but not ©δ TEM cells, protected T cell-deficient hosts against MCMV-induced death upon adoptive transfer, probably through their ability to survive and to generate TEM in the recipient host. This better survival potential of TCM cells was confirmed by a detailed scRNASeq analysis of the two ©δ T cell memory subsets which also revealed their similarity to classically adaptive αβ CD8 T cells. Overall, our study uncovered memory properties of long-lived TCM ©δ T cells that confer protection in a chronic infection, highlighting the interest of this T cell subset in vaccination approaches. Author summary: Cytomegalovirus (CMV) is a widespread, latent virus that can cause severe organ disease in immune-compromised patients. Anti-CMV memory immune responses are essential to control viral reactivation and/or reinfection events that commonly take place in solid organ transplantation. The role of ©δ T-cell receptor bearing lymphocytes could be crucial in this context where immunosuppressive/ablative treatments cause suboptimal and/or delayed αβ T cell responses. Here we asked whether ©δ T cells could compensate for the absence of αβ T cells in the long-term control of mouse CMV infection. Three months post-primary viral challenge in αβ-T cell deficient mice, ©δ T cells displayed similar features as cytolytic, CMV-specific αβ CD8 T cells. We showed that previous priming with CMV endowed ©δ T cells with an enhanced antiviral potential and that long-term maintenance of ©δ T cell-mediated antiviral protection was dependent on ©δ central memory T cells (TCM). As observed in human, the ©δ T cell response to a secondary CMV challenge generated a private TCR δ repertoire. Finally, our gene expression/accessibility single cell analysis revealed that ©δ TCM shared similar features as their αβ T cell counterpart. Our results sustain the adaptive-like properties of these unconventional T cells and reveal the interest of targeting ©δ TCM subset in novel antiviral vaccination approaches. [ABSTRACT FROM AUTHOR]

Published

2024

2. Impaired Activated/Memory Regulatory T Cell Clonal Expansion Instigates Diabetes in NOD Mice.

Author

Mhanna, Vanessa, Fourcade, Gwladys, Barennes, Pierre, Quiniou, Valentin, Pham, Hang P., Ritvo, Paul-Gydeon, Brimaud, Faustine, Gouritin, Bruno, Churlaud, Guillaume, Six, Adrien, Mariotti-Ferrandiz, Encarnita, and Klatzmann, David

Subjects

REGULATORY T cells, CLONE cells, T cells, MICE, LABORATORY mice, RESEARCH, INTERLEUKIN-2, ANIMAL experimentation, RESEARCH methodology, CELL receptors, TYPE 1 diabetes, MEDICAL cooperation, EVALUATION research, COMPARATIVE studies

Abstract

Regulatory T cell (Treg) insufficiency licenses the destruction of insulin-producing pancreatic β-cells by autoreactive effector T cells (Teffs), causing spontaneous autoimmune diabetes in NOD mice. We investigated the contribution to diabetes of the T-cell receptor (TCR) repertoires of naive regulatory T cells (nTregs), activated/memory Tregs (amTregs), and CD4+ Teffs from prediabetic NOD mice and normal C57BL/6 (B6) mice. NOD mice amTreg and Teff repertoire diversity was unexpectedly higher than that of B6 mice. This was due to the presence of highly expanded clonotypes in B6 amTregs and Teffs that were largely lost in their NOD counterparts. Interleukin-2 (IL-2) administration to NOD mice restored such amTreg clonotype expansions and prevented diabetes development. In contrast, IL-2 administration only led to few or no clonotype expansions in nTregs and Teffs, respectively. Noteworthily, IL-2-expanded amTreg and nTreg clonotypes were markedly enriched in islet-antigen specific TCRs. Altogether, our results highlight the link between a reduced clonotype expansion within the activated Treg repertoire and the development of an autoimmune disease. They also indicate that the repertoire of amTregs is amenable to rejuvenation by IL-2. [ABSTRACT FROM AUTHOR]

Published

2021

3. Early Transcriptome Signatures from Immunized Mouse Dendritic Cells Predict Late Vaccine-Induced T-Cell Responses.

Author

Dérian, Nicolas, Bellier, Bertrand, Pham, Hang Phuong, Tsitoura, Eliza, Kazazi, Dorothea, Huret, Christophe, Mavromara, Penelope, Klatzmann, David, and Six, Adrien

Subjects

DENDRITIC cells, GENETIC transcription, VACCINATION, T cells, INTERFERON inducers

Abstract

Systems biology offers promising approaches for identifying response-specific signatures to vaccination and assessing their predictive value. Here, we designed a modelling strategy aiming to predict the quality of late T-cell responses after vaccination from early transcriptome analysis of dendritic cells. Using standardized staining with tetramer, we first quantified antigen-specific T-cell expansion 5 to 10 days after vaccination with one of a set of 41 different vaccine vectors all expressing the same antigen. Hierarchical clustering of the responses defined sets of high and low T cell response inducers. We then compared these responses with the transcriptome of splenic dendritic cells obtained 6 hours after vaccination with the same vectors and produced a random forest model capable of predicting the quality of the later antigen-specific T-cell expansion. The model also successfully predicted vector classification as low or strong T-cell response inducers of a novel set of vaccine vectors, based on the early transcriptome results obtained from spleen dendritic cells, whole spleen and even peripheral blood mononuclear cells. Finally, our model developed with mouse datasets also accurately predicted vaccine efficacy from literature-mined human datasets. [ABSTRACT FROM AUTHOR]

Published

2016

4. A TCRβ Repertoire Signature Can Predict Experimental Cerebral Malaria.

Author

Mariotti-Ferrandiz, Encarnita, Pham, Hang-Phuong, Dulauroy, Sophie, Gorgette, Olivier, Klatzmann, David, Cazenave, Pierre-André, Pied, Sylviane, and Six, Adrien

Subjects

*CEREBRAL malaria, *T cells, *STIMULUS & response (Biology), *DISEASE relapse, *MOLECULAR cloning, *LABORATORY mice, *THERAPEUTICS, *PHYSIOLOGY

Abstract

Cerebral Malaria (CM) is associated with a pathogenic T cell response. Mice infected by P. berghei ANKA clone 1.49 (PbA) developing CM (CM+) present an altered PBL TCR repertoire, partly due to recurrently expanded T cell clones, as compared to non-infected and CM- infected mice. To analyse the relationship between repertoire alteration and CM, we performed a kinetic analysis of the TRBV repertoire during the course of the infection until CM-related death in PbA-infected mice. The repertoires of PBL, splenocytes and brain lymphocytes were compared between infected and non-infected mice using a high-throughput CDR3 spectratyping method. We observed a modification of the whole TCR repertoire in the spleen and blood of infected mice, from the fifth and the sixth day post-infection, respectively, while only three TRBV were significantly perturbed in the brain of infected mice. Using multivariate analysis and statistical modelling, we identified a unique TCRβ signature discriminating CM+ from CTR mice, enriched during the course of the infection in the spleen and the blood and predicting CM onset. These results highlight a dynamic modification and compartmentalization of the TCR diversity during the course of PbA infection, and provide a novel method to identify disease-associated TCRβ signature as diagnostic and prognostic biomarkers. [ABSTRACT FROM AUTHOR]

Published

2016

5. A unique CD8+ T lymphocyte signature in pediatric type 1 diabetes.

Author

Hamel, Yamina, Mauvais, François-Xavier, Pham, Hang-Phuong, Kratzer, Roland, Marchi, Christophe, Barilleau, Émilie, Waeckel-Enée, Emmanuelle, Arnoux, Jean-Baptiste, Hartemann, Agnès, Cordier, Corinne, Mégret, Jerome, Rocha, Benedita, de Lonlay, Pascale, Beltrand, Jacques, Six, Adrien, Robert, Jean-Jacques, and van Endert, Peter

Subjects

*TYPE 1 diabetes, *IMMUNE response, *BIOMARKERS, *T cells, *IMMUNOTHERAPY, *PROTEIN expression, *GENE expression

Abstract

Human type 1 diabetes results from a destructive auto-reactive immune response in which CD8 + T lymphocytes play a critical role. Given the intense ongoing efforts to develop immune intervention to prevent and/or cure the disease, biomarkers suitable for prediction of disease risk and progress, as well as for monitoring of immunotherapy are required. We undertook separate multi-parameter analyses of single naïve and activated/memory CD8 + T lymphocytes from pediatric and adult patients, with the objective of identifying cellular profiles associated with onset of type 1 diabetes. We observe global perturbations in gene and protein expression and in the abundance of T cell populations characterizing pediatric but not adult patients, relative to age-matched healthy individuals. Pediatric diabetes is associated with a unique population of CD8 + T lymphocytes co-expressing effector (perforin, granzyme B) and regulatory (transforming growth factor β, interleukin-10 receptor) molecules. This population persists after metabolic normalization and is especially abundant in children with high titers of auto-antibodies to glutamic acid decarboxylase and with elevated HbA1c values. These findings highlight striking differences between pediatric and adult type 1 diabetes, indicate prolonged large-scale perturbations in the CD8 + T cell compartment in the former, and suggest that CD8 + CD45RA − T cells co-expressing effector and regulatory factors are of interest as biomarkers in pediatric type 1 diabetes. [ABSTRACT FROM AUTHOR]

Published

2016

6. Low-dose interleukin-2 fosters a dose-dependent regulatory T cell tuned milieu in T1D patients.

Author

Rosenzwajg, Michelle, Churlaud, Guillaume, Mallone, Roberto, Six, Adrien, Dérian, Nicolas, Chaara, Wahiba, Lorenzon, Roberta, Long, S. Alice, Buckner, Jane H., Afonso, Georgia, Pham, Hang-Phuong, Hartemann, Agnès, Yu, Aixin, Pugliese, Alberto, Malek, Thomas R., and Klatzmann, David

Subjects

*AUTOIMMUNE diseases, *INTERLEUKIN-2, *DRUG dosage, *GENETIC regulation, *T cells, *MILIEU therapy, *PATIENTS

Abstract

Most autoimmune diseases (AID) are linked to an imbalance between autoreactive effector T cells (Teffs) and regulatory T cells (Tregs). While blocking Teffs with immunosuppression has long been the only therapeutic option, activating/expanding Tregs may achieve the same objective without the toxicity of immunosuppression. We showed that low-dose interleukin-2 (ld-IL-2) safely expands/activates Tregs in patients with AID, such HCV-induced vasculitis and Type 1 Diabetes (T1D). Here we analyzed the kinetics and dose-relationship of IL-2 effects on immune responses in T1D patients. Ld-IL-2 therapy induced a dose-dependent increase in CD4 + Foxp3 + and CD8 + Foxp3 + Treg numbers and proportions, the duration of which was markedly dose-dependent. Tregs expressed enhanced levels of activation markers, including CD25, GITR, CTLA-4 and basal pSTAT5, and retained a 20-fold higher sensitivity to IL-2 than Teff and NK cells. Plasma levels of regulatory cytokines were increased in a dose-dependent manner, while cytokines linked to Teff and Th17 inflammatory cells were mostly unchanged. Global transcriptome analyses showed a dose-dependent decrease in immune response signatures. At the highest dose, Teff responses against beta-cell antigens were suppressed in all 4 patients tested. These results inform of broader changes induced by ld-IL-2 beyond direct effects on Tregs, and relevant for further development of ld-IL-2 for therapy and prevention of T1D, and other autoimmune and inflammatory diseases. [ABSTRACT FROM AUTHOR]

Published

2015