M1647 An Orally Active Alpha4 Integrin Antagonist AJM300 Prevents the Development of Experimental Colitis Induced By Adoptive Transfer of IL-10 Deficient CD4+ T Cells in Mice

2009 ◽  
Vol 136 (5) ◽  
pp. A-402 ◽  
Author(s):  
Toshihiko Sugiura ◽  
Shunsuke Kageyama ◽  
Kanna Kuribayashi ◽  
Manabu Suzuki
1998 ◽  
Vol 31 (3) ◽  
pp. 477-481 ◽  
Author(s):  
Nahoko Shintani ◽  
Tsunetaka Nakajima ◽  
Tadao Okamoto ◽  
Takao Kondo ◽  
Norifumi Nakamura ◽  
...  

Viruses ◽  
2021 ◽  
Vol 13 (5) ◽  
pp. 753
Author(s):  
Mohammad Haque ◽  
Fengyang Lei ◽  
Xiaofang Xiong ◽  
Yijie Ren ◽  
Hao-Yun Peng ◽  
...  

The viral antigen (Ag)-specific CD8+ cytotoxic T lymphocytes (CTLs) derived from pluripotent stem cells (PSCs), i.e., PSC-CTLs, have the ability to suppress the human immunodeficiency virus (HIV) infection. After adoptive transfer, PSC-CTLs can infiltrate into the local tissues to suppress HIV replication. Nevertheless, the mechanisms by which the viral Ag-specific PSC-CTLs elicit the antiviral response remain to be fully elucidated. In this study, we generated the functional HIV-1 Gag epitope SL9-specific CTLs from the induced PSC (iPSCs), i.e., iPSC-CTLs, and investigated the suppression of SL9-specific iPSC-CTLs on viral replication and the protection of CD4+ T cells. A chimeric HIV-1, i.e., EcoHIV, was used to produce HIV replication in mice. We show that adoptive transfer of SL9-specific iPSC-CTLs greatly suppressed EcoHIV replication in the peritoneal macrophages and spleen in the animal model. Furthermore, we demonstrate that the adoptive transfer significantly reduced expression of PD-1 on CD4+ T cells in the spleen and generated persistent anti-HIV memory T cells. These results indicate that stem cell-derived viral Ag-specific CTLs can robustly accumulate in the local tissues to suppress HIV replication and prevent CD4+ T cell exhaustion through reduction of PD-1 expression.


2002 ◽  
Vol 9 (3) ◽  
pp. 173-176
Author(s):  
Lara J. Ausubel ◽  
Anna Chodos ◽  
Nyree Bekarian ◽  
Abul K. Abbas ◽  
Lucy S. K. Walker

Since negative selection in the thymus is incomplete, some self-reactive T cells are able to mature and seed the periphery. To study how these T cells interact following encounter with the self-protein they recognize in the periphery, we have developed an adoptive transfer system in which HEL-specific TCR transgenic CD4 T cells are transferred to mice expressing HEL protein in the pancreas under the control of the rat insulin promoter. Here we show that after adoptive transfer of HEL-specific T cells functional tolerance is maintained despite evidence that the T cells encounter and respond to pancreas-expressed antigen. Even the provision of an additional activation stimulus by peripheral immunization with HEL protein is insufficient to induce the T cells to cause autoimmune tissue injury. However, in the presence of blocking anti-CTLA-4-mAb, immunized adoptive transfer recipients rapidly developed diabetes. These data suggest that the CTLA-4 pathway regulates the pathogenicity of antigen-specific T cells following a peripheral activation stimulus.


1989 ◽  
Vol 170 (3) ◽  
pp. 1045-1050 ◽  
Author(s):  
J A Richt ◽  
L Stitz ◽  
H Wekerle ◽  
R Rott

A homogeneous T cell line NM1 with Borna disease (BD) virus reactivity could be established. The NM1 cells have been characterized as CD4+ T cells. Adoptive transfer revealed that this MHC class II-restricted immune cell is responsible for the immunopathological effect leading to BD, a progressive meningoencephalomyelitis.


Blood ◽  
2016 ◽  
Vol 128 (22) ◽  
pp. 2526-2526 ◽  
Author(s):  
Marianne Delville ◽  
Emmanuelle Six ◽  
Florence Bellier ◽  
Nelly Sigrist ◽  
David Zemmour ◽  
...  

Abstract IPEX (Immunodysregulation Polyendocrinopathy Enteropathy X-linked) syndrome is the prototype of primary immunodeficiency with prevailing autoimmunity. The disease is caused by mutations in the gene encoding the transcription factor forkhead box P3 (FOXP3), which leads to the loss of function of thymus-derived CD4+CD25+ regulatory T (tTreg) cells. In IPEX patients, the absence of a functional Treg cell compartment leads to the development of multiple autoimmune manifestations (including severe enteropathy, type 1 diabetes and eczema) usually in the first months or years of life. The current treatments for IPEX syndrome include immunosuppressive, hormone replacement therapies. Unfortunately, immunosuppressive treatments are usually only partially effective and their dose is often limited because of the occurrence of infectious complications and toxicity. Currently, the only curative treatment for IPEX syndrome is allogeneic hematopoietic stem cell transplantation (HSCT). The absence of an HLA-compatible donor for all patients and their poor clinical condition particularly expose them to a risk of mortality when HLA partially compatible donors are used. For all these reasons, effective alternative therapeutic approaches are urgently needed. Various preclinical studies have shown that partial donor chimerism is sufficient for complete remission meaning that a small number of functional natural Treg is sufficient to restore immune tolerance. This suggests that a gene therapy approach designed to selectively induce a Treg program in T cells by expressing FOXP3 could be a promising potential cure for IPEX. However, several issues might compromise the success of this strategy: (i) will the introduction of FOXP3 alone be sufficient to induce a stable Treg program or will it require additional transcription factors to lock the Treg function and sustain the stability of transduced cells? (ii) Targeting effector CD4+ T cells might be an issue in terms of T-cell receptor repertoire, since the TCR repertoire of nTregs is different from the one of effector CD4+ T cells, (iii) will FOXP3-transduced T cells be able to migrate to appropriate tissues to control auto-immune reactions?, (iv) infusion of nTreg prevents the appearance of some autoimmune manifestations in murine models, however the infusion was done in prophylaxis before the appearance of the symptoms. In order to address these questions, we have developed a mouse scurfy model to evaluate the functional and stability of the correction in vivo in parallel to the characterization of gene corrected human CD4 T cells from IPEX patients. Scurfy mice develop a disease very close to human pathology due to a spontaneous mutation of Foxp3 gene. We improved Scurfy mice model to improve animal production and increase the timeline of treatement. We demonstrated that FOXP3 gene transfer into murine CD4+ T cells enable the generation of potent regulatory T cells. Indeed we showed the functional suppressive properties of the generated CD4-FOXP3 cells in an optimized flow-cytometry-based in vitro suppression assay. The ability of CD4-FOXP3 to prevent Scurfy disease by adoptive transfer in the first days of life is currently under evaluation. Similarly in humans, we demonstrated that FOXP3 gene transfer into CD4+ T cells from IPEX patients enable the generation of potent regulatory T cells, as shown through the functional in vitro suppressive properties of the generated CD4IPEX-FOXP3. Moreover comparison of the transcriptional profile of these regulatory CD4IPEX-FOXP3 cells to natural Treg by RNA-seq analysis demonstrated a good repression of cytokine transcripts (IL4/5/13/CSF2, CD40L), a strong repression of IL7R, a strong induction of IL1R2, and a moderate activation of typical Treg genes (IL2RA, IKZF2, CTLA4). Therefore, the introduction of a functional copy of the FOXP3 gene into an IPEX patient's T cells may be enough to restore immune tolerance and thus avoid the complications of allogenic HSCT. We will also discuss the challenge of generating a large, homogenous and stable population of cells in vitro for adoptive transfer and whether it can ensure long-term disease correction without generating a context of generalized immunosuppression. Disclosures No relevant conflicts of interest to declare.


Blood ◽  
2001 ◽  
Vol 98 (4) ◽  
pp. 1239-1245 ◽  
Author(s):  
Kuo-Jang Kao ◽  
Eileen S. Huang ◽  
Sandra Donahue

Transfusions of UV-B–irradiated peripheral blood mononuclear cells (UV-B–PBMCs) from BALB/c (H-2d) mice into CBA (H-2k) mice can induce humoral immune tolerance to H-2d antigens, and the induced tolerance is partially mediated by negative regulatory PBMCs. To further identify which subset of spleen mononuclear leukocytes (MNLs) in the tolerant CBA mice is responsible for the negative regulatory activity, adoptive transfer experiments were conducted using spleen MNLs from the tolerant CBA mice. Results showed that only CD4+ T cells could transfer the negative regulatory activity in a dose-dependent manner. This negative regulatory activity was significantly reduced when CD25+ helper T cells were removed. Further study suggested that inhibition of IL-12 production by UV-B–irradiated PBMCs played a role in the induction of immune tolerance. In vitro study of the cytokine production profile by CBA CD4+ T cells, after stimulation with gamma-irradiated BALB/c spleen cells, revealed an enhanced production of the type 2 T-cell cytokines after tolerance induction. Induction of tolerance also prevented the development of cytotoxic T cells in CBA mice against BALB/c MNLs. Adoptive transfer study suggested that the cellular immune tolerance was also mediated by CD4+ negative regulatory T cells. The induced immune tolerance was nullified after 400 cGy sublethal gamma irradiation. These results suggest that the ex vivo study of cytokine production by T cells may be used to monitor tolerance induction and the selection of gamma radiation dose is critical for potential clinical application of the tolerance induced by UV-B–PBMCs.


2007 ◽  
Vol 36 (4-5) ◽  
pp. 206-218 ◽  
Author(s):  
Nattawat Onlamoon ◽  
Nicholas Plagman ◽  
Kenneth A Rogers ◽  
Ann E. Mayne ◽  
Pavel Bostik ◽  
...  

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