Adoptive Transfer of Adenovirus Specific T-Cells in Children with Systemic Adenovirus Infection after Allogeneic Stem Cell Transplantation.

Blood ◽  
2005 ◽  
Vol 106 (11) ◽  
pp. 80-80
Author(s):  
Tobias F. Feuchtinger ◽  
Susanne Matthes-Martin ◽  
Celine Richard ◽  
Thomas Lion ◽  
Klaus Hamprecht ◽  
...  
Keyword(s):  
T Cells ◽  
Stem Cell ◽  
T Cell ◽  
Stem Cell Transplantation ◽  
Adoptive Transfer ◽  
Cell Transfer ◽  
New Treatment ◽  
T Cell Transfer

Abstract Allogeneic stem cell transplantation (SCT) has become an increasing treatment option for a variety of malignant and non-malignant disease. During immune reconstitution the host is at significant risk for viral infections. Human adenovirus (HAdV) infection is especially in children an important and serious complication. Virus-specific T-cells are essential for the clearance of HAdV, since antiviral chemotherapy has been insufficient to date. We present a new treatment option using virus-specific donor T-cells for adoptive transfer of immunity to patients with systemic HAdV-infection. We isolated in 6 patients with systemic HAdV-infection after SCT virus-specific T-cells of the donor, according to INF-γ secretion after short in vitro stimulation with viral antigen, resulting in a combination of CD4+ and CD8+ T-cells. Between 5-50x103/kg T-cells were infused for adoptive transfer. For follow-up, the infection and the in-vivo expansion of infused T-cells were evaluated. Isolated cells showed high specificity and markedly reduced but residual alloreactivity in-vitro. In three of four evaluable patients the infused T-cells underwent an in-vivo expansion and in these three patients the viral load decreased in peripheral blood after adoptive T-cell transfer. In-vivo expansion of specific T-cells was dose-independent. T-cell infusion was well tolerated. One patient experienced GvHD°II of the skin after T-cell transfer. In conclusion specific T-cell immunotherapy as a new treatment approach for children was performed in 6 cases of systemic HAdV-infection after allogeneic SCT. Induction of a specific T-cell response through adoptive transfer has been shown feasible and effective to protect from HAdV-related complications.

Development of a Nonhuman Primate Model for Analysis of the Adoptive Transfer of Antigen-Specific T Cell Clones.

Blood ◽  
2005 ◽  
Vol 106 (11) ◽  
pp. 770-770
Author(s):  
Carolina Berger ◽  
Michael Jensen ◽  
Stanley R. Riddell
Keyword(s):  
T Cells ◽  
T Cell ◽  
Cd8 T Cells ◽  
Adoptive Transfer ◽  
Cell Transfer ◽  
Primate Model ◽  
T Cell Clones ◽  
Cell Clones

Abstract In principle, the adoptive transfer of T cell clones specific for antigens expressed by pathogens or malignant cells could be therapeutically effective and allow precise control of the specificity, function, and magnitude of T cell immunity. However, the infusion of large numbers of cultured T cells or T cell clones in clinical trials has frequently failed to eradicate tumors or provide long-term control of infection. This may be due in part to the acquisition of an effector phenotype by the T cells during in vitro culture, which reduces their ability to survive in vivo and establish an immune response of sufficient magnitude for sustained efficacy. Several approaches including the administration of cytokines such as IL15, or lymphodepletion prior to cell transfer might promote the establishment of T cell memory after T cell transfer. To facilitate the rational development of clinical trials of T cell therapy, we have employed a nonhuman primate model of adoptive T cell transfer in which culture conditions and cell doses identical to those in human studies are utilized, and designed strategies to permit rigorous analysis of the persistence, function, phenotype, and migration of transferred cells. CD8+ CTL specific for macaque CMV were detected using an overlapping peptide panel and cytokine flow cytometry, isolated as individual T cell clones by limiting dilution, and propagated to large numbers in vitro. The T cell clones were transduced to express an intracellular truncated CD19 (ΔCD19) surface marker to allow tracking and functional assessment of T cells in vivo, and enriched by immunomagnetic selection to high purity (>98%) prior to transfer. The persistence of transferred ΔCD19+ T cells in the blood and their migration to the bone marrow and lymph nodes was determined by flow cytometry after staining with anti CD19, CD8, and CD3 antibodies. The infusion of ΔCD19+CD8+ CTL (3 x 108/kg) was safe and the cells remained detectable in vivo for >5 months. ΔCD19+CD8+ T cells were easily detected in the blood 1 day after transfer at a level of 2.7% of CD8+ T cells and gradually declined over 56 days to a stable population of 0.15–0.2% of CD8+ T cells. At the time of transfer the ΔCD19+CD8+ T cells had an effector phenotype (CD62L− CD127−), but gradually converted to a CD62L+CD127+ memory phenotype in vivo. The infused T cells were found at high levels in lymph node and bone marrow at day 14 after transfer (1.4% and 2.5%, respectively) and the cells at these sites were predominantly CD62L+. The ΔCD19+CD62L+ T cells lacked direct lytic function and expressed low levels of granzyme B, consistent with memory T cells. Sorting of these cells from post-transfer PBMC showed that in vitro activation restored lytic activity. The transferred ΔCD19+CD62L+ T cells in post-infusion PBMC produced IFNγ and TNFα comparable to endogenous CMV-specific CD8+ CTL. These results demonstrate that a subset (5–10%) of transferred CD8+ CTL clones can persist long-term as functional memory T cells. The macaque CD8+ T cell clones are responsive to IL15 in vitro and a safe regimen for administering IL15 to macaques that boosts endogenous T cells has been identified. Studies are now in progress to determine if IL15 can enhance the efficiency with which effector and memory CD8+ T cell responses can be augmented after adoptive transfer of T cell clones.

Simultaneous Isolation and Enrichment of Multi Specific and Multi Functional T-Cells Populations for Treatment of Patients Undergoing Allogeneic Hematopoetic Stem Cell Transplantation,

Blood ◽  
2011 ◽  
Vol 118 (21) ◽  
pp. 4056-4056
Author(s):  
Meike Kruse ◽  
Halvard Bonig ◽  
Markus Kapp ◽  
Lothar Germeroth ◽  
Hermann Einsele ◽  
...  
Keyword(s):  
T Cells ◽  
Stem Cell ◽  
T Cell ◽  
Stem Cell Transplantation ◽  
Cell Transplantation ◽  
Cell Transfer ◽  
Hematopoetic Stem Cell ◽  
Healthy Donors ◽  
T Cell Transfer ◽  
Hematopoetic Stem Cell Transplantation

Abstract Abstract 4056 Allogeneic hematopoetic stem cell transplantation (aHSCT) is a treatment option for a variety of diseases in particular heamatological malignancies. Due to an ongoing immunosuppression to prevent graft versus host reaction (GvHD), disease relapses as well as viral infections are major causes of morbidity and mortality after aHSCT. T cell responses against different tumor-associated and tumor-specific antigens could be detected not only in patients with malignant diseases but also in healthy donors. We investigated the selection of MART-1 (Melanoma Antigen Recognized by T-cells), Proteinase 3 and WT-1 (Wilms Tumor- Antigen) specific T cells from the blood of healthy donors as basis for a tumor-specific T cell transfer in the context of aHSCT. With a newly established protocol, based on streptamer selection, we isolated simultaneously multi-functional and multi-specific T-cell populations. We selected tumor-antigen-specific CTL′s (Cytotoxic T- Lymphocytes) mentioned above and also antiviral T-cells namely against CMV, EBV and AdV from a single blood donation. In this simultaneous selection with up to 7 different epitopes in one step, even the tumor specific T cells, which are known to be rarely detected among healthy donors, could be enriched to an amount sufficient for a direct T cell transfer. Purity achieved after selection was at least 82% and up to 98,87%, which minimizes the risk for GvHD after clinical application. The possibility to transfer these selected CTL`s to patients after stem cell transplantation improves the graft versus tumor effect as well as the anti infective T cell immunity without a relevant risk for GvHD. Furthermore, the selected multi specific T cell populations could be expanded in vitro without loss of specificity and include different phenotypes such as central memory and memory effector cells, which may provide long lasting immunity. Moreover, starting with a leukapheresis, we successfully transferred our selection protocol in a closed system according to current good manufacturing practice (cGMP) requirements, which allows clinical application in the future. With that, it opens new perspectives in cellular immunotherapy against malignancies and viral infection for patients after aHSCT. Disclosures: No relevant conflicts of interest to declare.

Streptamer Technology for the Assessment of CMVpp65 Specific CD8+ T Cell Frequencies and for the Adoptive T Cell Transfer to Post-Transplant Patients.

Blood ◽  
2007 ◽  
Vol 110 (11) ◽  
pp. 1964-1964
Author(s):  
Anita Schmitt ◽  
Junxia Yao ◽  
Hermann Einsele ◽  
Ulrich Grigoleit ◽  
Dirk Busch ◽  
...  
Keyword(s):  
T Cells ◽  
Stem Cell ◽  
T Cell ◽  
Stem Cell Transplantation ◽  
Cd8 T Cells ◽  
Cd8 T Cell ◽  
Cell Transfer ◽  
Adoptive T Cell Transfer ◽  
T Cell Transfer ◽  
Cmv Antigenemia

Abstract Cytomegalovirus (CMV) reactivation constitutes a serious complication after allogeneic peripheral blood stem cell transplantation (PBSCT). The frequency of CMVpp65 specific CD8+ T cells is pivotal for the clearance of CMV. CMVpp65 specific CD8+ T cell frequencies can be measured using tetra-, penta- and streptamer technologies, streptamers can also be applied therapeutically. In donors, these frequencies might allow us to define the best available donor in addition to the mere serostatus. In the present study we investigated the specificity and sensitivity of all three methods and compared the results to the serostatus. A therapeutical application, i.e. an adoptive transfer of CMV specific CD8+ T cells selected by streptamer technology to a patient with acute lymphatic leukemia suffering from life-threatening CMV antigenemia after allogeneic PBSCT was performed. 23 samples from CMV seropositive healthy volunteers (HV) and 10 samples from CMV seropositive patients before and after allogeneic stem cell transplantation (all HLA-A2 or -B7 positive) were analyzed with tetra-, penta- or streptamer conjugated to PE by flow cytometry. Our lab took part in an inter-lab CMV multimer assay including 20 European countries in the framework of www.kimt.de. For the adoptive T cell transfer a donor leukapheresis was performed followed by an HLA-B7 CMVpp65 streptamer positive selection. The patient received 2×10E5 CMV specific CD8+ T cells per kg body weight as a single transfusion. Optimal amounts of HLA-A2 multimers to stain a pellet of 10E6 cells were 0.44 mcg tetramer, 0.15 mcg pentamer and 0.2 mcg MHC/0.3 mcg streptactin complex. Surprisingly, only in 48% (11/23) seropositive HV CD8+ multimer+ T cells could be detected. The ALL patient developed a foscarvir resistant CMV antigenemia with a maximum of 959/500,000 CMVpp65 positive cells. After a switch to ganciclovir/valganciclovir and an adoptive transfer of CMV specific T cells, the antigenemia was cleared. Valganciclovir was discontinued, but CMV antigenemia remained controlled. The frequency of CMVpp65 specific CD8+ T cells increased dramatically from 0.0% till 19.8%. All of these T cells were donor derived as demonstrated by small tandem repeat (STR) analysis. The patient did not develop signs of CMV disease at any time point. This study demonstrates the power of multimer staining to define appropriate donors for transplantation. Donors should be screened for their CMVpp65 specific CD8+ T cell frequency. All three multimer technologies can be used yielding similar results. The streptamer technology additionally offers the advantage to select CMVpp65 specific CD8+ T cells at the GMP level for adoptive T cell transfer and can induce long-lasting CD8+ T cell responses effectively clearing even a high virus load.

Clearance of Treatment Refractory Adenoviremia via Adenovirus-specific Donor T-Cell Transfer During Aplasia After αβTCR-CD19–Depleted Stem Cell Transplantation

2018 ◽  
Vol 68 (8) ◽  
pp. 1406-1409 ◽  
Author(s):  
Katharina L Gössling ◽  
Hiba Fouz ◽  
Olga Kyrillopoulou ◽  
Matthias Aubin ◽  
Britta Maecker-Kolhoff ◽  
...  
Keyword(s):  
Stem Cell ◽  
T Cell ◽  
Stem Cell Transplantation ◽  
Cell Transplantation ◽  
Cell Transfer ◽  
Treatment Refractory ◽  
T Cell Transfer

scholarly journals Early Reconstitution of Antibody Secreting Cells after Allogeneic Stem Cell Transplantation

2022 ◽  
Vol 11 (1) ◽  
pp. 270
Author(s):  
Martina Hinterleitner ◽  
Clemens Hinterleitner ◽  
Elke Malenke ◽  
Birgit Federmann ◽  
Ursula Holzer ◽  
...  
Keyword(s):  
Innate Immunity ◽  
T Cells ◽  
Stem Cell ◽  
T Cell ◽  
B Cells ◽  
Stem Cell Transplantation ◽  
B Cell ◽  
Cell Transplantation ◽  
Antibody Secreting Cells

Immune cell reconstitution after stem cell transplantation is allocated over several stages. Whereas cells mediating innate immunity recover rapidly, adaptive immune cells, including T and B cells, recover slowly over several months. In this study we investigated kinetics and reconstitution of de novo B cell formation in patients receiving CD3 and CD19 depleted haploidentical stem cell transplantation with additional in vivo T cell depletion with monoclonal anti-CD3 antibody. This model enables a detailed in vivo evaluation of hierarchy and attribution of defined lymphocyte populations without skewing by mTOR- or NFAT-inhibitors. As expected CD3+ T cells and their subsets had delayed reconstitution (<100 cells/μL at day +90). Well defined CD19+ B lymphocytes of naïve and memory phenotype were detected at day +60. Remarkably, we observed a very early reconstitution of antibody-secreting cells (ASC) at day +14. These ASC carried the HLA-haplotype of the donor and secreted the isotypes IgM and IgA more prevalent than IgG. They correlated with a population of CD19− CD27− CD38low/+ CD138− cells. Of note, reconstitution of this ASC occurred without detectable circulating T cells and before increase of BAFF or other B cell stimulating factors. In summary, we describe a rapid reconstitution of peripheral blood ASC after CD3 and CD19 depleted haploidentical stem cell transplantation, far preceding detection of naïve and memory type B cells. Incidence before T cell reconstitution and spontaneous secretion of immunoglobulins allocate these early ASC to innate immunity, eventually maintaining natural antibody levels.

scholarly journals A Novel Role for IL-6 Receptor Classic Signaling: Induction of RORγt+Foxp3+ Tregs with Enhanced Suppressive Capacity

2019 ◽  
Vol 30 (8) ◽  
pp. 1439-1453 ◽  
Author(s):  
Julia Hagenstein ◽  
Simon Melderis ◽  
Anna Nosko ◽  
Matthias T. Warkotsch ◽  
Johannes V. Richter ◽  
...  
Keyword(s):  
T Cells ◽  
T Cell ◽  
Adoptive Transfer ◽  
Th17 Cells ◽  
Inflammatory Diseases ◽  
Double Positive ◽  
T Effector Cells ◽  
Suppressive Capacity

BackgroundNew therapies blocking the IL-6 receptor (IL-6R) have recently become available and are successfully being used to treat inflammatory diseases like arthritis. Whether IL-6 blockers may help patients with kidney inflammation currently remains unknown.MethodsTo learn more about the complex role of CD4+ T cell-intrinsic IL-6R signaling, we induced nephrotoxic nephritis, a mouse model for crescentic GN, in mice lacking T cell–specific IL-6Ra. We used adoptive transfer experiments and studies in reporter mice to analyze immune responses and Treg subpopulations.ResultsLack of IL-6Ra signaling in mouse CD4+ T cells impaired the generation of proinflammatory Th17 cells, but surprisingly did not ameliorate the course of GN. In contrast, renal damage was significantly reduced by restricting IL-6Ra deficiency to T effector cells and excluding Tregs. Detailed studies of Tregs revealed unaltered IL-10 production despite IL-6Ra deficiency. However, in vivo and in vitro, IL-6Ra classic signaling induced RORγt+Foxp3+ double-positive Tregs (biTregs), which carry the trafficking receptor CCR6 and have potent immunoregulatory properties. Indeed, lack of IL-6Ra significantly reduced Treg in vitro suppressive capacity. Finally, adoptive transfer of T cells containing IL-6Ra−/− Tregs resulted in severe aggravation of GN in mice.ConclusionsOur data refine the old paradigm, that IL-6 enhances Th17 responses and suppresses Tregs. We here provide evidence that T cell–intrinsic IL-6Ra classic signaling indeed induces the generation of Th17 cells but at the same time highly immunosuppressive RORγt+ biTregs. These results advocate caution and indicate that IL-6–directed therapies for GN need to be cell-type specific.

Establishing T Cell Memory by Adoptive Transfer of T Cell Clones.

Blood ◽  
2006 ◽  
Vol 108 (11) ◽  
pp. 866-866
Author(s):  
Carolina Berger ◽  
Michael C. Jensen ◽  
Stanley R. Riddell
Keyword(s):  
T Cells ◽  
T Cell ◽  
Adoptive Transfer ◽  
Annexin V ◽  
T Cell Memory ◽  
T Cell Clones ◽  
Cell Clones

Abstract Adoptive transfer of T cells has been employed to reconstitute T cell immunity to viruses such as cytomegalovirus (CMV) in immunodeficient allogeneic stem cell transplant (SCT) patients and is being investigated to treat malignancies. In the allogeneic SCT setting, the T cells are derived from the donor and need to be isolated as clones or highly pure populations to avoid graft-versus-host disease. CD8+ T cells can be divided into defined subsets including CD62L− effector memory (TEM) and central memory T cells (TCM) expressing the CD62L lymph node homing molecule. Both TCM and TEM can give rise to cytolytic effector T cells (TE) after antigen stimulation and can be expanded in vitro for immunotherapy. However, the potential of T cells derived from either the TEM or TCM subset to persist in vivo has not been investigated. We used a macaque model to determine whether reconstitution of T cell memory to CMV by adoptive transfer of CD8+ T cell clones depended on their origin from either the CD62L+ TCM or CD62L− TEM subset. T cell clones were retrovirally transduced to express the macaque CD19 or CD20 surface marker to allow tracking of T cells in vivo. Clones derived from both TCM and TEM had similar avidity and proliferative capacity in vitro, and had a TE phenotype (CD62L−CCR7−CD28−CD127−, granzyme B+). TCM and TEM-derived T cell clones were transferred to macaques at doses of 3–6×108/kg and were both detected in the blood one day after transfer at 1.2–2.7% (low dose) to 20–25% (high dose) of CD8+ T cells. However, the frequency of TEM-derived T cells was undetectable after 3–5 days, and the cells were not present in lymph node or bone marrow obtained at day 14. By contrast, TCM-derived clones persisted in peripheral blood, migrated to tissue sites, and were detectable long-term at significant levels. A distinguishing feature of TCM-derived cells was their responsiveness to homeostatic cytokines. Only TCM-derived clones were rescued from apoptotic cell death by low-dose IL15 for &gt;30 days in vitro and this correlated with higher levels of IL15Rα, IL2Rβ, and IL2Rγ, and of Bcl-xL and Bcl-2, which promote cell survival. To determine if the inability of TEM-derived clones to survive in vitro correlated with an increased susceptibility of cell death in vivo, we measured the proportion of infused cells that were positive for propidium iodide (PI) and Annexin V during the short period of in vivo persistence. One day after transfer, 41–45% of TEM-derived T cells were Annexin V+/PI+, analyzed directly in the blood or after 24 hours of culture. By contrast, only a minor fraction of an adoptively transferred TCM-derived T cell clone was Annexin V+/PI+ and the infused cells survived in vivo. A subset of the persisting T cells reacquired TCM marker (CD62L+CCR7+CD127+CD28+) in vivo and regained functional properties of TCM (direct lytic activity; rapid proliferation to antigen). These T cells produced IFN-γ and TNF-α after peptide stimulation, and studies are in progress to assess their in vivo response to antigen by delivery of T cells expressing CMV proteins. Our studies in a large animal model show for the first time that CD8+ TE derived from TCM but not TEM can persist long-term, occupy memory T cell niches, and restore TCM subsets of CMV-specific immunity. Thus, taking advantage of the genetic programming of cells that have become TCM might yield T cells with greater therapeutic activity and could be targeted for human studies of T cell therapy for both viral and malignant disease.

Establishing CD8+ T Cell Immunity by Adoptive Transfer of Autologous, IL-15 Expanded, Anti-Tumor CTL with a Central/Effector Memory Phenotype Can Induce Objective Clinical Responses.

Blood ◽  
2009 ◽  
Vol 114 (22) ◽  
pp. 782-782 ◽  
Author(s):  
Marcus Butler ◽  
Philip Friedlander ◽  
Mary Mooney ◽  
Linda Drury ◽  
Martha Metzler ◽  
...  
Keyword(s):  
T Cells ◽  
T Cell ◽  
Cd8 T Cells ◽  
Adoptive Transfer ◽  
De Novo ◽  
Effector Memory ◽  
Large Numbers ◽  
Central Effector

Abstract Abstract 782 The goal of cellular immunotherapy is to build long-lasting anti-tumor immunologic “memory” in patients and reject tumors for a lifetime. Previously, we and others demonstrated that IL-15 promotes the generation of T cells with a central memory (CM) phenotype which have the capacity to persist and establish effective anti-tumor memory in vivo. Furthermore, it has been shown that CD83 delivers a CD80-dependent T cell stimulatory signal that allows T cells to be long-lived. Based on these findings, we developed a system to generate large numbers of long-lived antigen-specific CD8+ T cells with a memory phenotype. This in vitro culture system utilizes IL-15 and a standardized, renewable artificial antigen presenting cell (aAPC) which was produced by transducing CD80, CD83, and HLA-A*0201 to the human cell line, K562. This aAPC can uniquely support the priming and prolonged expansion of large numbers of antigen-specific CD8+ CTL which display a central/effector memory (CM/EM) phenotype, possess potent effector function, and can be maintained in vitro for >1 year without any feeder cells or cloning. We hypothesized that adoptive transfer of these CTL with a CM/EM phenotype should result in anti-tumor memory in humans even without lymphodepletion or high dose IL-2. For our “first-in-human” clinical study, we chose the melanoma antigen MART1 as a target antigen, since MART1-specific HLA-A*0201+-restricted precursor CTL are detectable in some melanoma patients and can be immunophenotyped pre-infusion. Autologous CD8+ T cells were stimulated weekly with peptide-pulsed human cell-based aAPC and expanded with low dose IL-2 and IL-15. After three weeks, polyclonal MART1 CTL were reinfused without additional lymphodepletion, chemotherapy, IL-2, or vaccination. Eight study participants have enrolled and received a total of 15 MART1 CTL infusions (31% MART1 multimer positivity, median). All but one subject received two reinfusions where the 2nd graft was produced from CD8+ T cells harvested two weeks after the 1st reinfusion. To date, ≥2×109 CTL with potent effector function and a CM/EM phenotype were successfully generated for all subjects. No dose limiting toxicities were observed at either Dose Level 1 (2×108/m2) or Dose Level 2 (2×109/m2). Clinical activity was observed with a response by RECIST criteria in 1 subject, which was confirmed by a negative PET/CT 100 days following the last CTL infusion. In addition, 1 patient experienced a mixed response, 1 had stable disease, 3 had progression, and 2 are currently on active therapy. Multimer staining showed that, immediately post infusion, the percentage of CD8+ T cells specific for MART1 temporarily increased in all subjects, with the highest (6.5%) observed in subject #7. In 4 subjects, sustained increases in the frequency of MART1 specific T cells by more than two-fold (range 2.0-10x) for ≥21 days were observed despite the fact that no exogenous cytokines or vaccination was administered. Moreover, an increase of detectable MART1 specific T cells which display a CM phenotype was observed in all evaluable subjects and was observed for ≥35 days in 6 of 8 subjects. In subject #2, the conversion of MART1 CTL immunophenotype from a naïve to a mixture of naïve/memory phenotypes was observed for more than 6 months. We identified 10 individual MART1 T cell clonotypes from peripheral CD45RA- memory T cells on day 21. Clonotypic TCR Vbeta CDR3 analysis revealed that CTL grafts contained 7 out of 10 of these clonotypes. Furthermore, 6 clonotypes persisted in the peripheral CD45RA- memory fraction on days 39, 67 and/or 132. In Subject #3, who showed a mixed clinical response, 5 individual MART1 T cell clonotypes were isolated from lung metastases. 4 out of 5 clones were included in the CTL grafts. This finding supports the possibility that infused CTL can traffic and localize to sites of disease. Intriguingly, in both subjects, we were able to identify MART1 CTL clonotypes that were not detectable in the CTL grafts but possibly emerged after CTL infusion, indicating that adoptive transfer of MART1-specific CTL may provoke a de novo antitumor response. Taken together, these results suggest that CM/EM MART1 CTL generated ex vivo using our cell-based artificial APC in the presence of IL-15 may persist in vivo and induce de novo anti-tumor responses. Further enhancement of anti-tumor activity may be achieved through vaccination, cytokine administration, and/or removal of cytokine sinks and inhibitory factors following appropriate lymphodepletion. Disclosures: No relevant conflicts of interest to declare.

Attenuated Acute Graft-Versus-Host Disease Following Allogeneic Stem Cell Transplantation In the Absence of RORγt.

Blood ◽  
2010 ◽  
Vol 116 (21) ◽  
pp. 3742-3742
Author(s):  
LeShara M Fulton ◽  
Michael J Carlson ◽  
James Coghill ◽  
Michelle L. West ◽  
Angela Panoskaltisis-Mortari ◽  
...  
Keyword(s):  
T Cells ◽  
Transcription Factor ◽  
Stem Cell ◽  
T Cell ◽  
Stem Cell Transplantation ◽  
Graft Versus Host Disease ◽  
Allogeneic Stem Cell Transplantation ◽  
Graft Versus Host ◽  
Donor T Cells

Abstract Abstract 3742 CD4+ T helper (Th) cells play a critical role in the development of Graft-versus-Host Disease (GvHD). The relative contributions of particular Th subsets to GVHD pathogenesis, however, are incompletely understood. In order to clarify the contribution of the Th17 subset to GVHD induction, we made use of mice knocked out at the RORgt locus (RORgt−/−), a transcription factor crucial for Th17 polarization. Methods: Haplotype matched and complete MHC mismatched murine HSCT models were used. For the haploidentical model C57BL/6 (H-2b, B6) mice served as donors while C57BL/6 × DBA2 F1 (H-2bxd, B6D2) mice functioned as recipients. Effector T cells (Teffs) were isolated from the spleens of wild type (WT) B6 and RORgt knockout mice backcrossed 7–8 generations onto a B6 background. B6D2 mice were lethally irradiated with 900 rads on day -1 and injected intravenously with 4 × 106 Teffs from WT or RORgt−/− mice supplemented with 3 × 106 WT T cell depleted bone marrow cells (TCD BM) on day 0. For the completely MHC mismatched model, BALB/c mice (H-2d) were lethally irradiated with 800 rads on day -1 and administered 5 × 105 WT or RORgt−/− Teffs supplemented with 5 × 106 B6 TCD BM on day 0. Results: B6D2 mice that received RORgt−/− Teffs displayed significantly attenuated GvHD, recovering from weight loss by day +31 and demonstrating 100% survival on day +60. Conversely, mice that received WT Teffs showed intense disease progression with 100% mortality by day +31 (Figure A, p<0.0001 for survival comparison between WT and RORgt−/− recipients using Fisher's exact test). Similar results were seen using the completely MHC mismatched model, with superior overall survival noted in those animals receiving RORgt −/− Teffs (put in p value here). Recipients of RORgt −/− T cells demonstrated statistically significant decreased TNF in serum compared to WT recipients (Figure B, p=0.001 comparing WT and RORgt−/− recipients using student's t test). Interestingly, despite the decreased severity of GvHD, serum concentrations of IFN-g were increased in recipients transplanted with RORgt −/− T cells. Chimerism studies post-transplant revealed complete donor reconstitution in recipients of both RORgt−/− and WT Teffs. Donor Teffs isolated from recipient livers post-transplant consistently demonstrated an activated phenotype, with low L selectin and high CD25 expression. Conclusions: T cell expression of the Th17 transcription factor, RORgt, is critical for the development of lethal GvHD following allogeneic stem cell transplantation in both the haploidentical and MHC complete mismatch models. GvHD attenuation in the absence of RORgt is not the result of an inability for donor T cells to undergo activation or to engraft in vivo. Interestingly, the absence of RORgt from donor T cells led to enhanced IFN-g in serum. Thus, in vivo, the Th17 pathway is critical for the induction of GvHD. Disclosures: No relevant conflicts of interest to declare.

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