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7. Systemic and Local Cytokine Profile in Biliary Atresia

Author

Saito, T., Sakamoto, A., Hatano, M., Iwai, J., Higashimoto, Y., Yoshida, H., Riepenhoff-Talty, M., Gouvea, V., Evans, M.J., Tyler, K.L., Sokol, R.J., Oberhaus, S.M., Desmet, V.J., Suskind, D.L., Rosenthal, P., Heyman, M.B., Petersen, C., Davenport, M., Shivakumar, P., Campbell, K.M., Sabla, G.E., Mack, C.L., Tucker, R.M., Lu, B.R., Bezerra, J.A., Tiao, G., Ryckman, F.C., Li, J, Bessho, K., Shinkai, M., Shinkai, T., Puri, P., Stringer, M.D., Nobili, V., Marcellini, M., Giovannelli, L., Wu, J.F., Kao, P.C., Chen, H.L., Urushihara, N., Iwagaki, H., Yagi, T., Narayanaswamy, B., Gonde, C., Tredger, J.M., Hussain, M., Vergani, D., Sakaguchi, S., Yamaguchi, T., Nomura, T., Ono, M., Lan, R.Y., Cheng, C., Lian, Z.X., Sakaki, M., Hiroishi, K., Baba, T., Yang, Y, Liu, Y.J., Tang, S.T., Brindley, S.M., Lanham, A.M., Karrer, F.M., Fontenot, A.P., Uchida, K., Inoue, M., Otake, K., Vejchapipat, P., Poomsawat, S., Chongsrisawat, V., Honsawek, S., Poovorawan, Y., Dong, R., Dong, K., Wang, X., Chen, G., Shen, C., Zheng, S., Mourya, R., Mieli-Vergani, G., Minnick, K.E., Kreisberg, R., Dillon, P.W., Ghoneim, E.M., Sira, M.M., Elaziz, A.M. Abd, Khalil, F.O., Sultan, M.M., Mahmoud, A.B., Fenoglio, D., Bernuzzi, F., Battaglia, F., Beriou, G., Costantino, C.M., Ashley, C.W., Koenen, H.J.P.M., Smeets, R.L., Vink, P.M., Rijssen, E. van, and Boots, A.M.

Subjects
0301 basic medicine, medicine.medical_specialty, Regulatory T cell, medicine.medical_treatment, Real-Time Polymerase Chain Reaction, Flow cytometry, 03 medical and health sciences, 0302 clinical medicine, Immune system, Biliary atresia, Biliary Atresia, Internal medicine, medicine, Humans, Th1-Th2 Balance, medicine.diagnostic_test, business.industry, Reverse Transcriptase Polymerase Chain Reaction, FOXP3, Infant, medicine.disease, Flow Cytometry, Reverse transcription polymerase chain reaction, 030104 developmental biology, medicine.anatomical_structure, Real-time polymerase chain reaction, Cytokine, Endocrinology, Liver, Case-Control Studies, Pediatrics, Perinatology and Child Health, Cytokines, 030211 gastroenterology & hepatology, Surgery, business, Inflammatory diseases Radboud Institute for Molecular Life Sciences [Radboudumc 5], Biomarkers
Abstract

Purpose Systemic and local immune environments in human biliary atresia (BA) were analyzed. Methods Plasma concentrations of 19 inflammatory components in 16 preoperative BA patients (median age, 51 days), 13 normal controls (NCs) (44 days), and 15 cholestatic controls (CC) (23 days) were measured using flow cytometry, and compared according to post-Kasai outcomes in BA patients. Hepatic mRNA levels of representative helper T (Th) cell cytokines and forkhead box protein 3 (FoxP3) quantified by real-time reverse transcription polymerase chain reaction were compared between BA and non-BA. Results No significant differences were observed between BA and control in serum Th1, Th2, or macrophage markers, while soluble cellular adhesion molecule (CAM) levels were significantly higher in BA (p Conclusions A skewed bias toward specific Th-oriented immunity was not demonstrated in either the systemic or local environment in the early stage of human BA, with patient prognoses not necessarily revealed by preoperative plasma inflammatory component levels. CAM and regulatory T cell roles and functions warrant further investigation.

Published
2016

8. Systemic and Local Cytokine Profile in Biliary Atresia

Author

Saito, T., Sakamoto, A., Hatano, M., Iwai, J., Higashimoto, Y., Yoshida, H., Riepenhoff-Talty, M., Gouvea, V., Evans, M.J., Tyler, K.L., Sokol, R.J., Oberhaus, S.M., Desmet, V.J., Suskind, D.L., Rosenthal, P., Heyman, M.B., Petersen, C., Davenport, M., Shivakumar, P., Campbell, K.M., Sabla, G.E., Mack, C.L., Tucker, R.M., Lu, B.R., Bezerra, J.A., Tiao, G., Ryckman, F.C., Li, J, Bessho, K., Shinkai, M., Shinkai, T., Puri, P., Stringer, M.D., Nobili, V., Marcellini, M., Giovannelli, L., Wu, J.F., Kao, P.C., Chen, H.L., Urushihara, N., Iwagaki, H., Yagi, T., Narayanaswamy, B., Gonde, C., Tredger, J.M., Hussain, M., Vergani, D., Sakaguchi, S., Yamaguchi, T., Nomura, T., Ono, M., Lan, R.Y., Cheng, C., Lian, Z.X., Sakaki, M., Hiroishi, K., Baba, T., Yang, Y, Liu, Y.J., Tang, S.T., Brindley, S.M., Lanham, A.M., Karrer, F.M., Fontenot, A.P., Uchida, K., Inoue, M., Otake, K., Vejchapipat, P., Poomsawat, S., Chongsrisawat, V., Honsawek, S., Poovorawan, Y., Dong, R., Dong, K., Wang, X., Chen, G., Shen, C., Zheng, S., Mourya, R., Mieli-Vergani, G., Minnick, K.E., Kreisberg, R., Dillon, P.W., Ghoneim, E.M., Sira, M.M., Elaziz, A.M. Abd, Khalil, F.O., Sultan, M.M., Mahmoud, A.B., Fenoglio, D., Bernuzzi, F., Battaglia, F., Beriou, G., Costantino, C.M., Ashley, C.W., Koenen, H.J.P.M., Smeets, R.L., Vink, P.M., Rijssen, E. van, Boots, A.M., Saito, T., Sakamoto, A., Hatano, M., Iwai, J., Higashimoto, Y., Yoshida, H., Riepenhoff-Talty, M., Gouvea, V., Evans, M.J., Tyler, K.L., Sokol, R.J., Oberhaus, S.M., Desmet, V.J., Suskind, D.L., Rosenthal, P., Heyman, M.B., Petersen, C., Davenport, M., Shivakumar, P., Campbell, K.M., Sabla, G.E., Mack, C.L., Tucker, R.M., Lu, B.R., Bezerra, J.A., Tiao, G., Ryckman, F.C., Li, J, Bessho, K., Shinkai, M., Shinkai, T., Puri, P., Stringer, M.D., Nobili, V., Marcellini, M., Giovannelli, L., Wu, J.F., Kao, P.C., Chen, H.L., Urushihara, N., Iwagaki, H., Yagi, T., Narayanaswamy, B., Gonde, C., Tredger, J.M., Hussain, M., Vergani, D., Sakaguchi, S., Yamaguchi, T., Nomura, T., Ono, M., Lan, R.Y., Cheng, C., Lian, Z.X., Sakaki, M., Hiroishi, K., Baba, T., Yang, Y, Liu, Y.J., Tang, S.T., Brindley, S.M., Lanham, A.M., Karrer, F.M., Fontenot, A.P., Uchida, K., Inoue, M., Otake, K., Vejchapipat, P., Poomsawat, S., Chongsrisawat, V., Honsawek, S., Poovorawan, Y., Dong, R., Dong, K., Wang, X., Chen, G., Shen, C., Zheng, S., Mourya, R., Mieli-Vergani, G., Minnick, K.E., Kreisberg, R., Dillon, P.W., Ghoneim, E.M., Sira, M.M., Elaziz, A.M. Abd, Khalil, F.O., Sultan, M.M., Mahmoud, A.B., Fenoglio, D., Bernuzzi, F., Battaglia, F., Beriou, G., Costantino, C.M., Ashley, C.W., Koenen, H.J.P.M., Smeets, R.L., Vink, P.M., Rijssen, E. van, and Boots, A.M.

Abstract

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Published
2017

11. IL-22BP production is heterogeneously distributed in Crohn's disease.

Author

Fantou A, Lagrue E, Laurent T, Delbos L, Blandin S, Jarry A, Beriou G, Braudeau C, Salabert N, Marin E, Moreau A, Podevin J, Bourreille A, Josien R, and Martin JC

Subjects
Humans, Carrier Proteins metabolism, Colon, Cytokines metabolism, Intestines pathology, Crohn Disease, Inflammatory Bowel Diseases
Abstract

Crohn's disease (CD), a form of inflammatory bowel disease (IBD), is characterized by impaired epithelial barrier functions and dysregulated mucosal immune responses. IL-22 binding protein (IL-22BP) is a soluble inhibitor regulating IL-22 bioactivity, a cytokine proposed to play protective roles during CD. We and others have shown that IL-22BP is produced in IBD inflamed tissues, hence suggesting a role in CD. In this work, we extended the characterization of IL-22BP production and distribution in CD tissues by applying enzyme-linked immunosorbent assays to supernatants obtained from the culture of endoscopic biopsies of patients, and reverse transcription-quantitative polymerase chain reaction on sorted immune cell subsets. We reveal that IL-22BP levels are higher in inflamed ileums than colons. We observe that in a cell-intrinsic fashion, populations of mononuclear phagocytes and eosinophils express IL-22BP at the highest levels in comparison to other sources of T cells. We suggest the enrichment of intestinal eosinophils could explain higher IL-22BP levels in the ileum. In inflamed colon, we reveal the presence of increased IL-22/IL22BP ratios compared to controls, and a strong correlation between IL-22BP and CCL24. We identify monocyte-derived dendritic cells (moDC) as a cellular subtype co-expressing both cytokines and validate our finding using in vitro culture systems. We also show that retinoic acid induces the secretion of both IL-22BP and CCL24 by moDC. Finally, we report on higher IL-22BP levels in active smokers. In conclusion, our work provides new information relevant to therapeutic strategies modulating IL-22 bioactivity in CD, especially in the context of disease location., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Fantou, Lagrue, Laurent, Delbos, Blandin, Jarry, Beriou, Braudeau, Salabert, Marin, Moreau, Podevin, Bourreille, Josien and Martin.)

Published
2022
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12. Dendritic Cells Require TMEM176A/B Ion Channels for Optimal MHC Class II Antigen Presentation to Naive CD4 + T Cells.

Author

Lancien M, Bienvenu G, Salle S, Gueno L, Feyeux M, Merieau E, Remy S, Even A, Moreau A, Molle A, Fourgeux C, Coulon F, Beriou G, Bouchet-Delbos L, Chiffoleau E, Kirstetter P, Chan S, Kerfoot SM, Abdu Rahiman S, De Simone V, Matteoli G, Boncompain G, Perez F, Josien R, Poschmann J, Cuturi MC, and Louvet C

Subjects
Animals, Endosomes immunology, Female, Genes, MHC Class II immunology, Golgi Apparatus immunology, Immunity, Innate immunology, Intestinal Mucosa immunology, Ion Channels immunology, Lymphocytes immunology, Lysosomes immunology, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, Th17 Cells immunology, Tretinoin immunology, Antigen Presentation immunology, CD4-Positive T-Lymphocytes immunology, Dendritic Cells immunology, Histocompatibility Antigens Class II immunology, Membrane Proteins immunology
Abstract

Intracellular ion fluxes emerge as critical actors of immunoregulation but still remain poorly explored. In this study, we investigated the role of the redundant cation channels TMEM176A and TMEM176B (TMEM176A/B) in retinoic acid-related orphan receptor γt + cells and conventional dendritic cells (DCs) using germline and conditional double knockout mice. Although Tmem176a/b appeared surprisingly dispensable for the protective function of Th17 and group 3 innate lymphoid cells in the intestinal mucosa, we found that they were required in conventional DCs for optimal Ag processing and presentation to CD4 + T cells. Using a real-time imaging method, we show that TMEM176A/B accumulate in dynamic post-Golgi vesicles preferentially linked to the late endolysosomal system and strongly colocalize with HLA-DM. Taken together, our results suggest that TMEM176A/B ion channels play a direct role in the MHC class II compartment of DCs for the fine regulation of Ag presentation and naive CD4 + T cell priming., (Copyright © 2021 by The American Association of Immunologists, Inc.)

Published
2021
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13. Cystathionine-gamma-lyase overexpression in T cells enhances antitumor effect independently of cysteine autonomy.

Author

Lancien M, Gueno L, Salle S, Merieau E, Beriou G, Nguyen TH, Abidi A, Dilek N, Solomon P, Poschmann J, Michielin O, Vuillefroy de Silly R, Vanhove B, and Louvet C

Subjects
Animals, Cell Engineering, Cell Line, Tumor, Cell Proliferation, Extracellular Fluid metabolism, Female, Glycine metabolism, Methionine metabolism, Mice, Mice, Inbred C57BL, Models, Animal, Ovarian Neoplasms therapy, Proline metabolism, Serine metabolism, Tumor Microenvironment immunology, Adoptive Transfer methods, CD8-Positive T-Lymphocytes metabolism, Cystathionine gamma-Lyase metabolism, Cysteine biosynthesis
Abstract

T cells could be engineered to overcome the aberrant metabolic milieu of solid tumors and tip the balance in favor of a long-lasting clinical response. Here, we explored the therapeutic potential of stably overexpressing cystathionine-gamma-lyase (CTH, CSE, or cystathionase), a pivotal enzyme of the transsulfuration pathway, in antitumor CD8 + T cells with the initial aim to boost intrinsic cysteine metabolism. Using a mouse model of adoptive cell transfer (ACT), we found that CTH-expressing T cells showed a superior control of tumor growth compared to control T cells. However, contrary to our hypothesis, this effect was not associated with increased T cell expansion in vivo or proliferation rescue in the absence of cysteine/cystine in vitro. Rather than impacting methionine or cysteine, ACT with CTH overexpression unexpectedly reduced glycine, serine, and proline concentration within the tumor interstitial fluid. Interestingly, in vitro tumor cell growth was mostly impacted by the combination of serine/proline or serine/glycine deprivation. These results suggest that metabolic gene engineering of T cells could be further investigated to locally modulate amino acid availability within the tumor environment while avoiding systemic toxicity., (© 2021 The Authors. Cancer Science published by John Wiley & Sons Australia, Ltd on behalf of Japanese Cancer Association.)

Published
2021
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14. Evaluation of the therapeutic potential of bone marrow-derived myeloid suppressor cell (MDSC) adoptive transfer in mouse models of autoimmunity and allograft rejection.

Author

Drujont L, Carretero-Iglesia L, Bouchet-Delbos L, Beriou G, Merieau E, Hill M, Delneste Y, Cuturi MC, and Louvet C

Subjects
Allografts, Animals, Autoimmune Diseases pathology, Autoimmunity, Bone Marrow Cells physiology, COS Cells, Cells, Cultured, Chlorocebus aethiops, Disease Models, Animal, Female, Graft Rejection immunology, Graft Rejection pathology, Male, Mice, Mice, Inbred C57BL, Mice, Transgenic, Adoptive Transfer methods, Autoimmune Diseases therapy, Bone Marrow Transplantation, Graft Rejection therapy, Myeloid Cells transplantation
Abstract

Therapeutic use of immunoregulatory cells represents a promising approach for the treatment of uncontrolled immunity. During the last decade, myeloid-derived suppressor cells (MDSC) have emerged as novel key regulatory players in the context of tumor growth, inflammation, transplantation or autoimmunity. Recently, MDSC have been successfully generated in vitro from naive mouse bone marrow cells or healthy human PBMCs using minimal cytokine combinations. In this study, we aimed to evaluate the potential of adoptive transfer of such cells to control auto- and allo-immunity in the mouse. Culture of bone marrow cells with GM-CSF and IL-6 consistently yielded a majority of CD11b+Gr1hi/lo cells exhibiting strong inhibition of CD8+ T cell proliferation in vitro. However, adoptive transfer of these cells failed to alter antigen-specific CD8+ T cell proliferation and cytotoxicity in vivo. Furthermore, MDSC could not prevent the development of autoimmunity in a stringent model of type 1 diabetes. Rather, loading the cells prior to injection with a pancreatic neo-antigen peptide accelerated the development of the disease. Contrastingly, in a model of skin transplantation, repeated injection of MDSC or single injection of LPS-activated MDSC resulted in a significant prolongation of allograft survival. The beneficial effect of MDSC infusions on skin graft survival was paradoxically not explained by a decrease of donor-specific T cell response but associated with a systemic over-activation of T cells and antigen presenting cells, prominently in the spleen. Taken together, our results indicate that in vitro generated MDSC bear therapeutic potential but will require additional in vitro factors or adjunct immunosuppressive treatments to achieve safe and more robust immunomodulation upon adoptive transfer.

Published
2014
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15. Tolerogenic dendritic cells: applications for solid organ transplantation.

Author

Beriou G, Moreau A, and Cuturi MC

Subjects
Animals, Antigens, CD immunology, Dendritic Cells transplantation, Humans, Immunosuppressive Agents administration & dosage, Immunosuppressive Agents adverse effects, Immunotherapy, Adoptive methods, Macrophages immunology, T-Lymphocytes, Regulatory immunology, Transplantation, Autologous, Dendritic Cells immunology, Graft Rejection immunology, Graft Rejection prevention & control, Graft Survival immunology, Organ Transplantation, Transplantation Tolerance immunology, Transplantation, Homologous immunology
Abstract

Purpose of Review: We discuss the use of tolerogenic dendritic cells (TolDCs) as a therapeutic tool in solid organ transplantation, with particular emphasis on recent experimental and preclinical data supporting the clinical translation of TolDC therapy., Recent Findings: TolDC have been successfully used in rodents to promote long-term allograft survival. Although most studies have focused on donor dendritic cells or donor antigen-pulsed dendritic cells, our group investigated a strategy based on the administration of autologous dendritic cells (not pulsed with donor antigens). We discuss the therapeutic efficacy, mechanisms, and potential risks and advantages of each strategy. We also highlight recent findings on the generation of clinical grade human TolDC from blood monocytes. Finally, we discuss preliminary experience with dendritic cells in humans and critical issues regarding the implementation of TolDC therapy to clinical organ transplantation., Summary: TolDC hold therapeutic promise for the treatment of transplanted patients. Cell therapy with unpulsed, autologous dendritic cells appears as a well tolerated, clinically relevant approach that might help in improving long-term allograft survival and limit the harmful effects of immunosuppressive treatments.

Published
2012
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16. CD2 costimulation reveals defective activity by human CD4+CD25(hi) regulatory cells in patients with multiple sclerosis.

Author

Baecher-Allan CM, Costantino CM, Cvetanovich GL, Ashley CW, Beriou G, Dominguez-Villar M, and Hafler DA

Subjects
Adult, Cell Differentiation immunology, Cells, Cultured, Coculture Techniques, Fetal Blood cytology, Fetal Blood immunology, Fetal Blood metabolism, Forkhead Transcription Factors biosynthesis, Forkhead Transcription Factors pharmacokinetics, Humans, Infant, Newborn, Interleukin-7 Receptor alpha Subunit genetics, Interleukin-7 Receptor alpha Subunit metabolism, Lymphocyte Activation genetics, Lymphocyte Activation immunology, Middle Aged, Multiple Sclerosis metabolism, Signal Transduction immunology, T-Lymphocyte Subsets immunology, T-Lymphocyte Subsets metabolism, T-Lymphocyte Subsets pathology, T-Lymphocytes, Regulatory metabolism, Young Adult, CD2 Antigens physiology, CD4 Antigens biosynthesis, Interleukin-2 Receptor alpha Subunit biosynthesis, Multiple Sclerosis immunology, Multiple Sclerosis pathology, T-Lymphocytes, Regulatory immunology, T-Lymphocytes, Regulatory pathology
Abstract

Studying the activity of homogeneous regulatory T cell (Treg) populations will advance our understanding of their mechanisms of action and their role in human disease. Although isolating human Tregs exhibiting low expression of CD127 markedly increases purity, the resulting Treg populations are still heterogeneous. To examine the complexity of the Tregs defined by the CD127 phenotype in comparison with the previously described CD4(+)CD25(hi) subpopulations, we subdivided the CD25(hi) population of memory Tregs into subsets based on expression of CD127 and HLA-DR. These subsets exhibited differences in suppressive capacity, ability to secrete IL-10 and IL-17, Foxp3 gene methylation, cellular senescence, and frequency in neonatal and adult blood. The mature, short telomere, effector CD127(lo)HLA-DR(+) cells most strongly suppressed effector T cells within 48 h, whereas the less mature CD127(lo)HLA-DR(-) cells required 96 h to reach full suppressive capacity. In contrast, whereas the CD127(+)HLA-DR(-) cells also suppressed proliferation of effector cells, they could alternate between suppression or secretion of IL-17 depending upon the stimulation signals. When isolated from patients with multiple sclerosis, both the nonmature and the effector subsets of memory CD127(lo) Tregs exhibited kinetically distinct defects in suppression that were evident with CD2 costimulation. These data demonstrate that natural and not induced Tregs are less suppressive in patients with multiple sclerosis.

Published
2011
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17. TGF-beta induces IL-9 production from human Th17 cells.

Author

Beriou G, Bradshaw EM, Lozano E, Costantino CM, Hastings WD, Orban T, Elyaman W, Khoury SJ, Kuchroo VK, Baecher-Allan C, and Hafler DA

Subjects
Adult, Cell Polarity immunology, Cells, Cultured, Coculture Techniques, Diabetes Mellitus, Type 1 immunology, Diabetes Mellitus, Type 1 metabolism, Diabetes Mellitus, Type 1 pathology, Gene Expression Regulation immunology, Humans, Immunohistochemistry, Inflammation Mediators metabolism, Inflammation Mediators physiology, Interleukin-9 genetics, Interleukin-9 metabolism, Middle Aged, Resting Phase, Cell Cycle immunology, Young Adult, Interleukin-17 biosynthesis, Interleukin-9 biosynthesis, T-Lymphocytes, Helper-Inducer immunology, T-Lymphocytes, Helper-Inducer metabolism, Transforming Growth Factor beta1 physiology
Abstract

The secretion of IL-9, initially recognized as a Th2 cytokine, was recently attributed to a novel CD4 T cell subset termed Th9 in the murine system. However, IL-9 can also be secreted by mouse Th17 cells and may mediate aspects of the proinflammatory activities of Th17 cells. Here we report that IL-9 is secreted by human naive CD4 T cells in response to differentiation by Th9 (TGF-beta and IL-4) or Th17 polarizing conditions. Yet, these differentiated naive cells did not coexpress IL-17 and IL-9, unless they were repeatedly stimulated under Th17 differentiation-inducing conditions. In contrast to the naive cells, memory CD4 T cells were induced to secrete IL-9 by simply providing TGF-beta during stimulation, as neither IL-4 nor proinflammatory cytokines were required. Furthermore, the addition of TGF-beta to the Th17-inducing cytokines (IL-1beta, IL-6, IL-21, IL-23) that induce memory cells to secrete IL-17, resulted in the marked coexpression of IL-9 in IL-17 producing memory cells. The proinflammatory cytokine mediating TGF-beta-dependent coexpression of IL-9 and IL-17 was identified to be IL-1beta. Moreover, circulating monocytes were potent costimulators of IL-9 production by Th17 cells via their capacity to secrete IL-1beta. Finally, to determine whether IL-9/IL-17 coproducing CD4 cells were altered in an inflammatory condition, we examined patients with autoimmune diabetes and demonstrated that these subjects exhibit a higher frequency of memory CD4 cells with the capacity to transition into IL-9(+)IL-17(+) cells. These data demonstrate the presence of IL-17(+)IL-9(+) CD4 cells induced by IL-1beta that may play a role in human autoimmune disease.

Published
2010
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18. RNA interference screen in primary human T cells reveals FLT3 as a modulator of IL-10 levels.

Author

Astier AL, Beriou G, Eisenhaure TM, Anderton SM, Hafler DA, and Hacohen N

Subjects
Cells, Cultured, Feedback, Physiological, Gene Expression Regulation, Gene Library, Humans, Immunologic Factors, Interleukin-10 genetics, Lentivirus genetics, Ligands, Lymphocyte Activation, Membrane Cofactor Protein metabolism, RNA Interference immunology, Interleukin-10 metabolism, RNA, Small Interfering pharmacology, T-Lymphocytes immunology, fms-Like Tyrosine Kinase 3 immunology
Abstract

Functional studies of human primary immune cells have been hampered by the lack of tools to silence gene functions. In this study, we report the application of a lentiviral RNA interference library in primary human T cells. Using a subgenomic short hair RNA library targeting approximately 1000 signaling genes, we identified novel genes that control the levels of IL-10 produced. IL-10 is a potent anti-inflammatory cytokine secreted by several cell types, including T regulatory type 1 cells, a subset of T regulatory cells that exert their suppressive activity through IL-10 secretion. FLT3, a known hematopoeitic growth factor, was found to be a negative regulator of IL-10 levels in activated T cells. This was based on several observations. First, FLT3 and its ligand (FL) were both induced by T cell activation. Second, silencing of FLT3 led to increased IL-10 levels, whereas addition of FL suppressed IL-10 secretion and increased FLT3 surface levels. Third, engagement of CD46, a known inducer of T regulatory type 1 cells, upregulated surface FLT3, and secreted FL, which then inhibited IL-10 production by T cells. Hence, FL and FLT3 form a novel regulatory feedback loop that limits IL-10 production in T cells. Our results identified FLT3 as a new regulator of T cell function and offer a strategy to genetically dissect specific pathways in T cells.

Published
2010
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19. IL-17-producing human peripheral regulatory T cells retain suppressive function.

Author

Beriou G, Costantino CM, Ashley CW, Yang L, Kuchroo VK, Baecher-Allan C, and Hafler DA

Subjects
Antigens, CD metabolism, Enzyme-Linked Immunosorbent Assay, Flow Cytometry, Forkhead Transcription Factors metabolism, HLA-DR Antigens metabolism, Humans, Interleukin-17 antagonists & inhibitors, Interleukin-1beta pharmacology, Interleukin-6 pharmacology, Lymphocyte Activation drug effects, Reverse Transcriptase Polymerase Chain Reaction, T-Lymphocytes cytology, T-Lymphocytes immunology, T-Lymphocytes metabolism, Transforming Growth Factor beta pharmacology, Immune Tolerance physiology, Interleukin-17 biosynthesis, T-Lymphocytes, Regulatory immunology
Abstract

Although implicated in antagonistic functions, both regulatory T cells (Tregs) and Th17 effector cells play an important role in controlling autoimmune pathogenesis. Paradoxically, recent studies indicate that Tregs have the capacity to produce interleukin-17 (IL-17), although the ability of these cells to retain their suppressive function remains unknown. Here we report that human Tregs within the CD4(+)CD45RA(-)CD25(high)CCR6(+)HLA-DR(-)FoxP3(+) population produce IL-17 when activated in the presence of the proinflammatory cytokines IL-1beta and IL-6, whereas IL-17 secretion was inhibited by TGFbeta. To assess the ability of a single Treg to secrete IL-17 and to suppress in vitro immune function, we isolated clones from this population. We found that IL-17(+)/FoxP3(+) Treg clones retain suppressive function and exhibit the plasticity to secrete IL-17 or suppress depending on the nature of the stimulus provided. IL-17 production by these Treg clones was accompanied by sustained FoxP3 expression and concomitant, but reversible, loss of suppressive activity. Our data demonstrate that at the single cell level a subset of in vitro suppressive FoxP3(+) cells can be driven to secrete IL-17 under inflammatory conditions. These findings suggest a new mechanism by which inflammation can drive Tregs to secrete IL-17, thereby dampening suppression and promoting an inflammatory milieu.

Published
2009
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20. Superiority of bone marrow-derived dendritic cells over monocyte-derived ones for the expansion of regulatory T cells in the macaque.

Author

Moreau A, Chiffoleau E, Beriou G, Deschamps JY, Heslan M, Ashton-Chess J, Rolling F, Josien R, Moullier P, Cuturi MC, and Alliot-Licht B

Subjects
Animals, Antigens, CD34 immunology, Immunophenotyping, Interleukin-2 Receptor alpha Subunit immunology, Lipopolysaccharide Receptors immunology, Macaca fascicularis, Models, Animal, Bone Marrow Cells cytology, Bone Marrow Cells immunology, Dendritic Cells immunology, Lymphocyte Activation, Monocytes cytology, Monocytes immunology, T-Lymphocytes, Regulatory immunology
Abstract

Regulatory T cells (Treg) have been identified as playing a pivotal role in the control of tolerance and in the suppression of pathologic immune responses in autoimmune diseases, transplantation, and graft-versus-host disease. Treg expanded ex vivo by dendritic cells could be potential reagents to promote antigen-specific tolerance in vivo. However, in vivo studies have been carried out mostly in rodents and will need validation in primates before clinical application. We characterized macaque dendritic cell derived either from bone marrow with and without prior CD34+ cell selection (BMDC), or from CD14+ peripheral blood mononuclear cells (Mo-DC). We demonstrate that with a semi-mature phenotype, BMDC are superior to Mo-DC in their capacity to expand freshly isolated allogeneic macaque CD4+ CD25+ CD127- Foxp3+ Treg in vitro in the presence of interleukin-2. Moreover, the expanded Treg maintain their phenotype and suppressive activity. These data provide a step toward the use of macaque dendritic cell to expand Treg for future preclinical testing.

Published
2008
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21. LF 15-0195 treatment protects against central nervous system autoimmunity by favoring the development of Foxp3-expressing regulatory CD4 T cells.

Author

Duplan V, Beriou G, Heslan JM, Bruand C, Dutartre P, Mars LT, Liblau RS, Cuturi MC, and Saoudi A

Subjects
Adoptive Transfer, Animals, Base Sequence, CD4-Positive T-Lymphocytes metabolism, DNA genetics, Encephalomyelitis, Autoimmune, Experimental genetics, Gene Expression drug effects, Humans, Male, Multiple Sclerosis immunology, Multiple Sclerosis prevention & control, Myelin Basic Protein immunology, Neutralization Tests, Rats, Rats, Inbred Lew, Receptors, Antigen, T-Cell, alpha-beta metabolism, Receptors, Chemokine metabolism, Transforming Growth Factor beta antagonists & inhibitors, Transforming Growth Factor beta metabolism, CD4-Positive T-Lymphocytes drug effects, CD4-Positive T-Lymphocytes immunology, Encephalomyelitis, Autoimmune, Experimental immunology, Encephalomyelitis, Autoimmune, Experimental prevention & control, Forkhead Transcription Factors genetics, Guanidines pharmacology, Immunosuppressive Agents pharmacology
Abstract

Experimental autoimmune encephalomyelitis (EAE) is an instructive model for the human demyelinating disease multiple sclerosis. Lewis (LEW) rats immunized with myelin-basic protein (MBP) develop EAE characterized by a single episode of paralysis, from which they recover spontaneously and become refractory to a second induction of disease. LF 15-0195 is a novel molecule that has potent immunosuppressive effects in several immune-mediated pathological manifestations, including EAE. In the present study, we show that a 30-day course of LF 15-0195 treatment not only prevents MBP-immunized LEW rats from developing EAE but also preserves their refractory phase to reinduction of disease. This effect is Ag driven since it requires priming by the autoantigen during the drug administration. In contrast to other immunosuppressive drugs, short-term treatment with this drug induces a persistent tolerance with no rebound of EAE up to 4 mo after treatment withdrawal. This beneficial effect of LF 15-0195 on EAE does not result from the deletion of MBP-specific Vbeta8.2 encephalitogenic T cells. In contrast, this drug favors the differentiation of MBP-specific CD4 T cells into Foxp3-expressing regulatory T cells that, upon adoptive transfer in syngeneic recipients, prevent the development of actively induced EAE. Finally, we demonstrate that the tolerance induced by LF 15-0195 treatment is not dependent on the presence of TGF-beta. Together, these data demonstrate that short-term treatment with LF 15-0195 prevents MBP-immunized LEW rats from EAE by favoring the development of Foxp-3-expressing regulatory CD4 T cells.

Published
2006
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22. Accumulation of T cells with potent regulatory properties and restricted Vbeta7-TCR rearrangements in tolerated allografts.

Author

Heslan JM, Beriou G, Le Luduec JB, Guillonneau C, Anegon I, Soulillou JP, Cuturi MC, and Chiffoleau E

Subjects
Animals, Heart Transplantation pathology, Male, Rats, Rats, Inbred Lew, Transplantation Tolerance drug effects, Gene Rearrangement, beta-Chain T-Cell Antigen Receptor immunology, Guanidines pharmacology, Heart Transplantation immunology, Receptors, Antigen, T-Cell, alpha-beta immunology, T-Lymphocytes, Regulatory physiology, Transplantation Tolerance immunology
Abstract

Background: We have previously demonstrated that a short-course treatment with LF15-0195, a 15-deoxyspergualin analogue, induces donor-specific tolerance of cardiac allografts in rats and expansion of splenic CD4CD25 regulatory T cells., Methods: To further characterize long-term tolerance in this model, we have analyzed the phenotype, regulatory properties and TCR-Vbeta usage of the T cells infiltrating the tolerated allografts., Results: We demonstrate that the tolerated allografts express high levels of FoxP3 transcripts and contain a large number of CD4 T cells, half of which express CD25. Moreover, T cells from these tolerated allografts are very powerful at transferring tolerance to a subsequent allograft recipient, demonstrating the presence of potent regulatory T cells at the site of the graft. Interestingly, the T cells infiltrating the tolerated allografts systematically display restricted Vbeta7 TCR rearrangements., Conclusion: These results demonstrate in this model of tolerance, a specific accumulation of T cells with potent regulatory properties and exhibiting restricted Vbeta7-TCR rearrangements at the graft site.

Published
2005
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23. Heme oxygenase-1 expression inhibits dendritic cell maturation and proinflammatory function but conserves IL-10 expression.

Author

Chauveau C, Rémy S, Royer PJ, Hill M, Tanguy-Royer S, Hubert FX, Tesson L, Brion R, Beriou G, Gregoire M, Josien R, Cuturi MC, and Anegon I

Subjects
Animals, Cell Differentiation immunology, Cell Proliferation drug effects, Cytokines immunology, Cytokines metabolism, Heme Oxygenase (Decyclizing) biosynthesis, Heme Oxygenase (Decyclizing) immunology, Heme Oxygenase-1, Humans, Inflammation immunology, Interleukin-10 pharmacology, Lipopolysaccharides antagonists & inhibitors, Lipopolysaccharides pharmacology, Membrane Proteins, Protoporphyrins pharmacology, Rats, Rats, Inbred Lew, T-Lymphocytes drug effects, T-Lymphocytes immunology, Dendritic Cells cytology, Dendritic Cells drug effects, Dendritic Cells immunology, Heme Oxygenase (Decyclizing) physiology, Interleukin-10 biosynthesis
Abstract

Heme oxygenase-1 (HO-1) is an intracellular enzyme that degrades heme and inhibits immune responses and inflammation in vivo. In most cell types, HO-1 is inducible by inflammatory stimuli and oxidative stress. Here we demonstrate that human monocyte-derived immature dendritic cells (iDCs) and several but not all freshly isolated rat splenic DC subsets and rat bone marrow-derived iDCs, spontaneously express HO-1. HO-1 expression drastically decreases during human and rat DC maturation induced in vitro. In human tissues, iDCs also express HO-1, whereas mature DCs do not. Induction of HO-1 expression with cobalt protoporphyrin (CoPP) in human and rat DCs inhibits lipopolysaccharide (LPS)-induced phenotypic maturation and secretion of proinflammatory cytokines, resulting in the inhibition of alloreactive T-cell proliferation. CoPP-treated DCs, however, retain the ability to produce the anti-inflammatory cytokine interleukin 10 (IL-10). Reactive oxygen species induced by LPS in DCs were inhibited by induction of HO-1. In conclusion, we identify, for the first time, the capacity of HO-1 to block maturation of DCs and to inhibit proinflammatory and allogeneic immune responses while preserving IL-10 production. This novel immune function for HO-1 may be of interest for the inhibition of immune responses in autoimmune diseases, transplantation, and other conditions involving activation of the immune system.

Published
2005
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