Differences in FOXP3 and CD127 expression in Treg-like cells in patients with IPEX syndrome

Abstract Abstract 2455 Poster Board II-432 Introduction: While hematopoietic stem cell transplantation (HSCT) offers a cure for many hematologic diseases, it remains plagued by often fatal graft-versus-host disease (GvHD). Despite the inadequacy of current GvHD prevention strategies, especially for MHC-mismatched HSCT, the pace of the clinical introduction of novel therapeutics has been slow, likely due to the lack of a suitable translational model to rigorously test the immunologic and clinical impact of novel biologic therapies. Among the most promising of these therapies include those that block T cell costimulation blockade. While they have been used for both autoimmune disease and to prevent rejection of solid organ transplants, costimulation blockade reagents have not yet been evaluated for efficacy in preventing clinical GvHD. Here we describe a novel primate model of MHC-mismatched GvHD, that has allowed us, for the first time, to evaluate the mechanisms controlling GvHD in a primate translational system, and to evaluate the efficacy of costimulation blockade for the prevention of primate GvHD, even across haplo-MHC barriers. Methods: Using DNA microsatellite-based pedigree analysis and MHC haplotype determination, we have developed the first MHC-defined Rhesus macaque HSCT system. MHC haplo-identical transplant pairs were chosen, and recipients prepared for transplant with TBI (8 Gy, as a single dose, with lung shielding to 6 Gy). Animals were either treated with no immunosuppression post-transplant (controls) or with a costimulation blockade-based regimen which included CD28/B7 blockade with abatacept (20mg/kg every 7 days), CD40/CD154 blockade with the 3A8 anti-CD40 monoclonal antibody (maintenance dosing at 5mg/kg twice weekly) as well as sirolimus to maintain serum trough levels between 5-10 ng/mL. Either leukopheresis-derived peripheral blood stem cells or bone marrow was used for transplant (average total nucleated cell dose = 9.3 +/-2.7×108/kg; average CD3+ cell dose = 1.1 +/- 0.88 ×108/kg) Donor engraftment was measured by microsatellite analysis, and GvHD was graded clinically using standard scales. The immune phenotype after transplant was determined by multicolor cell- and serum-based flow cytometric analyses. Results: Seven haploidentical transplants have been completed. Three controls received no immunosuppression. These animals demonstrated rapid and complete donor engraftment, with donor T cell activation and proliferation occurring within one week of transplant, coincident with the onset of severe clinical GvHD, which predominantly targeted the GI tract. Flow cytometric analysis showed loss of CD127 expression on both CD4+ and CD8+ T cells, consistent with their rapid clonal expansion and differentiation. Multiplexed luminex cytokine analysis demonstrated high-level secretion of the inflammatory cytokines IFNγ, and IL18, as well as the counter-regulatory cytokine IL-1RA. Importantly, no rise in TNF, IL-1b, nor IL17 was measured despite severe GvHD. In contrast, four treated animals received a haplo-identical BMT in the setting of abatacept/anti-CD40 and sirolimus for GvHD prophylaxis. All of these recipients demonstrated rapid donor engraftment, but, unlike the controls, they were protected against clinical GvHD—they displayed neither the skin rash nor the profuse diarrhea noted in the control animals. Flow cytometric analysis demonstrated maintenance of CD127 expression on both CD4+ and CD8+ T cells. Furthermore, luminex analysis revealed that expression of IFNγ, IL18 and IL-1RA were all normal in the setting of GvHD prophylaxis with costimulation blockade and sirolimus. Conclusions: We have established a robust model of haplo-identical HSCT and GvHD using an MHC-defined Rhesus macaque colony. This model has allowed us to begin to determine the mechanisms underlying GvHD during primate haplo-identical BMT and to assess the efficacy of novel regimens to prevent this disease. We find that unprotected primate GvHD is characterized by rapid T cell proliferation, with concomitant loss of expression of CD127 on both CD4+ and CD8+ T cells. In addition, it is associated with a cytokine storm, including high level secretion of IFNγ, IL18 and IL-1RA into the serum. Finally, we find that CD28/CD40-directed costimulation blockade in combination with sirolimus can effectively inhibit both the clinical and cellular hallmarks of GvHD during haplo-identical BMT, and thus may deserve close clinical scrutiny as a possible prophylaxis strategy during these high risk transplants. Disclosures: No relevant conflicts of interest to declare.

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Proliferation Capacity and Cytotoxic Activity Are Mediated by Functionally and Phenotypically Distinct Virus-Specific CD8 T Cells Defined by Interleukin-7Rα (CD127) and Perforin Expression

Journal of Virology ◽

10.1128/jvi.02565-09 ◽

2010 ◽

Vol 84 (8) ◽

pp. 3868-3878 ◽

Cited By ~ 37

Author(s):

Cristina Cellerai ◽

Matthieu Perreau ◽

Virginie Rozot ◽

Felicitas Bellutti Enders ◽

Giuseppe Pantaleo ◽

...

Keyword(s):

T Cells ◽

T Cell ◽

Cd8 T Cells ◽

Interleukin 2 ◽

Necrosis Factor Alpha ◽

Barr Virus ◽

Proliferation Capacity ◽

Epstein Barr ◽

Perforin Expression ◽

Cd127 Expression

ABSTRACT Cytotoxicity and proliferation capacity are key functions of antiviral CD8 T cells. In the present study, we investigated a series of markers to define these functions in virus-specific CD8 T cells. We provide evidence that there is a lack of coexpression of perforin and CD127 in human CD8 T cells. CD127 expression on virus-specific CD8 T cells correlated positively with proliferation capacity and negatively with perforin expression and cytotoxicity. Influenza virus-, cytomegalovirus-, and Epstein-Barr virus/human immunodeficiency virus type 1-specific CD8 T cells were predominantly composed of CD127+ perforin−/CD127− perforin+, and CD127−/perforin− CD8 T cells, respectively. CD127−/perforin− and CD127−/perforin+ cells expressed significantly more PD-1 and CD57, respectively. Consistently, intracellular cytokine (gamma interferon, tumor necrosis factor alpha, and interleukin-2 [IL-2]) responses combined to perforin detection confirmed that virus-specific CD8 T cells were mostly composed of either perforin+/IL-2− or perforin−/IL-2+ cells. In addition, perforin expression and IL-2 secretion were negatively correlated in virus-specific CD8 T cells (P < 0.01). As previously shown for perforin, changes in antigen exposure modulated also CD127 expression. Based on the above results, proliferating (CD127+/IL-2-secreting) and cytotoxic (perforin+) CD8 T cells were contained within phenotypically distinct T-cell populations at different stages of activation or differentiation and showed different levels of exhaustion and senescence. Furthermore, the composition of proliferating and cytotoxic CD8 T cells for a given antiviral CD8 T-cell population appeared to be influenced by antigen exposure. These results advance our understanding of the relationship between cytotoxicity, proliferation capacity, the levels of senescence and exhaustion, and antigen exposure of antiviral memory CD8 T cells.

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IgH DJ rearrangements within T-ALL correlate with cCD79a expression, an immature/TCRγδ phenotype and absence of IL7Rα/CD127 expression

Leukemia ◽

10.1038/sj.leu.2403531 ◽

2004 ◽

Vol 18 (12) ◽

pp. 1997-2001 ◽

Cited By ~ 12

Author(s):

V Asnafi ◽

K Beldjord ◽

R Garand ◽

C Millien ◽

M Bahloul ◽

...

Keyword(s):

Cd127 Expression

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IL-7 decreases IL-7 receptor (CD127) expression and induces the shedding of CD127 by human CD8+ T cells

International Immunology ◽

10.1093/intimm/dxm102 ◽

2007 ◽

Vol 19 (12) ◽

pp. 1329-1339 ◽

Cited By ~ 45

Author(s):

A. Vranjkovic ◽

A. M. Crawley ◽

K. Gee ◽

A. Kumar ◽

J. B. Angel

Keyword(s):

T Cells ◽

Cd8 T Cells ◽

Cd127 Expression

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Faculty Opinions recommendation of CD127 expression inversely correlates with FoxP3 and suppressive function of human CD4+ T reg cells.

Faculty Opinions – Post-Publication Peer Review of the Biomedical Literature ◽

10.3410/f.1033124.375121 ◽

2006 ◽

Author(s):

Bart Roep

Keyword(s):

Suppressive Function ◽

Cd127 Expression

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CD127 Expression Confers Enhanced Survival on Human B-Lineage Cells; Implications for the Role of IL-7 Signaling in Human B Lymphopoiesis.

Blood ◽

10.1182/blood.v110.11.1329.1329 ◽

2007 ◽

Vol 110 (11) ◽

pp. 1329-1329

Author(s):

Sonja E. Johnson ◽

J. Donald Capra ◽

Tucker W. LeBien

Keyword(s):

Gene Expression ◽

B Cells ◽

Cord Blood ◽

B Cell ◽

Immunofluorescent Staining ◽

Segment Length ◽

B Lineage ◽

B Cell Precursors ◽

Cd127 Expression ◽

B Lineage Cells

Abstract The IL-7Rα chain (CD127) is expressed on some, but not all, CD19+/surface μ-B-lineage cells isolated from fetal and adult marrow, and umbilical cord blood, but the functional consequences of CD127 expression in early human B cell development during all stages of human life are unresolved. We have described a xenogeneic culture model for generating CD19+ B-lineage cells from CD34+ cord blood stem cells following a 4 wk co-culture on murine MS-5 stromal cells (Johnson SE et al., 2005 J Immunol.). The majority of these cells express a pro-B cell phenotype i.e., CD19+/CD10+/CD20lo/CD21−/CD22+/CD24+/pre-BCR-. Moreover, 1–4% express surface μ heavy chains (HC), and some express κ or λ light chains. We have also reported that 20–40% of CD19+ cells emerging in the xenogeneic culture express CD127, CD127+ cells are more blastic than CD127- cells, and development of CD19+ cells is substantially blocked in xenogeneic cultures treated with anti-murine IL-7 (Johnson SE, ibid). The goal of the present study was to further characterize the developmental potential and patterns of gene expression in CD19+/CD127+ and CD19+/CD127− cells that emerge in xenogeneic cultures. We hypothesized that CD127 expression defines a subset of CD19+ B cell precursors with heightened potential to become mature B-lymphocytes. CD19+/CD127+ and CD19+CD127− populations that emerged in 4 wk xenogeneic cultures were sorted to > 95% purity by FACS. Immunofluorescent staining showed that surface and intracellular μ HC positive cells were present in both sorted populations at frequencies of 3–4%. Using an RT-PCR-based sequencing approach, we analyzed approximately 100 IgM V region sequences from both CD19+/CD127+ and CD19+/CD127− FACS-purified populations. The results indicated that the sequences from both populations were: non-mutated and used VH4, D and J gene segments that were similar to what would be expected in a cord blood B cell repertoire, and exhibited no statistically significant difference in N segment length, CDR3 length, or CDR3 charges. These results suggest that the amplified sequences were likely derived from the 3–4% cytoplasmic μ HC+ pre-B cells present in both sorted populations. The immunofluorescent staining and VDJH rearrangement sequence results suggest that large CD19+/CD127+/cytoplasmic μ HC+ pre-B cells may differentiate into small CD19+/CD127−/cytoplasmic μ HC+ cells in the xenogeneic culture. This was further supported by showing that intra-tibial injection of FACS-purified CD19+/CD127+ and CD19+/CD127− cells into sub-lethally irradiated NOD-SCID mice led to the appearance of surface μ HC+ cells from both sorted populations. Western blotting of sorted CD19+/CD127+ and CD19+/CD127− cells showed the presence of Bcl-2, p-GSK3β (specifically p-Ser9, the residue phosphorylated by AKT) and pERK1/2 in CD19+/CD127+ cells, while these proteins/phosphoproteins were undetectable in CD19+/CD127− cells. By contrast, expression of the cell cycle inhibitor p27KIP1 was elevated in CD19+/CD127− cells compared to CD19+/CD127+ cells. Furthermore, FACS-purified CD19+/CD127+ cells survived longer than CD19+/CD127− cells when cultured in the absence of MS-5, and the survival of the former was enhanced by stimulation with IL-7. The collective results indicate that CD127 expression identifies a population of normal human CD19+ B cell precursors with a pattern of gene expression and survival/proliferation attributes consistent with a crucial role in the development of the B-lymphocyte arm of the human immune system.

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