scholarly journals IL-7 and IL-21 are superior to IL-2 and IL-15 in promoting human T cell–mediated rejection of systemic lymphoma in immunodeficient mice

Blood ◽  
2010 ◽  
Vol 115 (17) ◽  
pp. 3508-3519 ◽  
Author(s):  
John C. Markley ◽  
Michel Sadelain
Keyword(s):  
T Cells ◽  
T Cell ◽  
Adoptive Transfer ◽  
Memory T Cells ◽  
Tumor Rejection ◽  
Effector Memory ◽  
Transfer Model ◽  
Human T Cell

Abstract The γc-cytokines are critical regulators of immunity and possess both overlapping and distinctive functions. However, comparative studies of their pleiotropic effects on human T cell–mediated tumor rejection are lacking. In a xenogeneic adoptive transfer model, we have compared the therapeutic potency of CD19-specific human primary T cells that constitutively express interleukin-2 (IL-2), IL-7, IL-15, or IL-21. We demonstrate that each cytokine enhanced the eradication of systemic CD19+ B-cell malignancies in nonobese diabetic/severe combined immunodeficient (NOD/SCID)/γcnull mice with markedly different efficacies and through singularly distinct mechanisms. IL-7– and IL-21–transduced T cells were most efficacious in vivo, although their effector functions were not as enhanced as IL-2– and IL-15–transduced T cells. IL-7 best sustained in vitro T-cell accumulation in response to repeated antigenic stimulation, but did not promote long-term T-cell persistence in vivo. Both IL-15 and IL-21 overexpression supported long-term T-cell persistence in treated mice, however, the memory T cells found 100 days after adoptive transfer were phenotypically dissimilar, resembling central memory and effector memory T cells, respectively. These results support the use of γc-cytokines in cancer immunotherapy, and establish that there exists more than 1 human T-cell memory phenotype associated with long-term tumor immunity.

scholarly journals Off-target effects of Cre recombinase reveal limits of adoptive T cell transfers and persistent proliferation of effector CD8 T-cells

2018 ◽  
Author(s):  
Lisa Borkner ◽  
Anja Drabig ◽  
Xiaoyan Zheng ◽  
Julia Drylewicz ◽  
Thomas Marandu ◽  
...  
Keyword(s):  
T Cells ◽  
T Cell ◽  
Cd8 T Cells ◽  
Adoptive Transfer ◽  
Memory T Cells ◽  
Murine Cytomegalovirus ◽  
Effector Memory ◽  
Latently Infected ◽  
The One

Effector-memory T-cells (TEM) are assumed to be short-lived cells that poorly proliferate upon antigenic restimulation, thus depending on central-memory T-cells (TCM) to replenish their numbers during homeostasis, largely depending on adoptive transfer evidence. Here we analyzed T cells in their natural environment and observed robust long-term in vivo cycling within the TEM subset that was stronger than the one in the TCM subset. We compared the non-persistent vaccinia virus and the persisting murine Cytomegalovirus (MCMV), which induces inflationary TEM responses that remain high during viral latency. We analyzed Ki67 expression during acute, resolved and latent infection and found Ki67hiBcl2lo TEM in acutely or latently infected mice, arguing for antigen-driven TEM proliferation. In vivo labeling with deuterium showed that TEM acquired deuterium more rapidly than TCM, and were rapidly lost during chase. Similarly, antibody-mediated depletion of primed CD8 T cells in latenly infected mice revealed that TEM replenished more rapidly than TCM, suggesting that TEM cycle faster than TCM. Finally, we utilized the ability of Tamoxifen-induced Cre-ERT2 recombinase to induce chromosomal translocations when large amounts of Tamoxifen are administered for an extended time, which resulted in a selective depletion of proliferating Ki67hi cells that hardly affected the TCM subset, but drove a selective loss of Ki67hiBcl2lo effector T-cells, and an increase in the death of TEM in the spleen, arguing that TEM preferentially proliferate in the spleen. Since our results contradicted previous evidence from adoptive transfer experiments, we tested T cell homing to the spleen upon adoptive transfer. TEM homing was substantially poorer than the one of TCM, likely explaining the previously reported expansions of TCM, but not TEM, upon transfer into latently infected mice. In conclusion, our data suggest that memory inflation is largely maintained by splenic proliferation of antigen-specific TEM, rather than by continued expansion and differentiation of TCM.

Host-Reactive Donor CD8+ T Memory Stem Cells but Not Mature T Memory Cells Primed Against Leukemic Cells Mediate Potent Graft-Versus-Leukemia Effect.

Blood ◽  
2006 ◽  
Vol 108 (11) ◽  
pp. 190-190
Author(s):  
Elizabeth O. Hexner ◽  
Dale Frank ◽  
Stephen G. Emerson ◽  
Yi Zhang
Keyword(s):  
Stem Cells ◽  
T Cells ◽  
T Cell ◽  
Adoptive Transfer ◽  
Memory T Cells ◽  
Leukemic Cells ◽  
Leukemia Cells ◽  
Effector Memory ◽  
Memory Cells ◽  
Alloreactive T Cell

Abstract The potent ability of allogeneic hematopoietic stem cell transplantation (Allo-HSCT) and donor leukocyte infusion (DLI) to cure leukemia remains the most striking example of the ability of the immune system to recognize and destroy tumors. Unfortunately, both allo-HSCT and DLI are often complicated by graft-versus-host disease (GVHD). In addition, durable responses to conventional DLI for acute leukemias have been disappointing. A better understanding of the mechanisms of alloreactive T cell-mediated anti-leukemia activity will be important for separating the GVL effect from GVHD. Adoptive transfer of selected subsets of T cells specific for miHA- or leukemia associated antigens might offer the chance to maximize GVL while minimizing GVHD. Using mouse models of human GVHD directed against miHAs, we recently demonstrated that antigen-experienced CD44loCD62LhiCD8+ T cells contain T memory stem cells that have greater ability than naïve T cells and mature memory T cells to proliferate and generate alloreactive effector cells and all memory T cell subsets (Nature Medicine, 2005, 11:1299). Using the same mouse model, we have now found that although B6/SJL mice receiving donor CD44hiCD8+ T cells (mature memory cells) primed against B6 mouse-derived myeloid leukemia C1498 cells do not develop clinical GVHD, most will die from C1498 leukemia by day 45 following injection of C1498 cells. Adoptive transfer of CD44loCD8+ T cells primed against C1498 leukemic cells caused clinical GVHD, but the majority of recipients (75%) survived long term free of C1498 leukemia. Surprisingly, the GVL effect of donor CD44loCD8+ T cells primed against C1498 leukemia cells was significantly inhibited when C1498 leukemia cell-primed CD44hiCD8+ T cells and CD44loCD8+ T cells were co-injected into B6/SJL mice, with only 25% of the mice surviving without leukemia. These results suggest that while the GVL effect is clearly mediated by antigen experienced CD44loCD8+ T cells, CD44hiCD8+ T memory cells primed against tumor cells are not only functionally defective in eliminating leukemia cells but are also potent inhibitors of alloreactive T cell-mediated GVL activity. We found that host-reactive effector memory CD8+ T cells produced 10-fold higher IL-10 than unstimulated naïve T cells and T memory stem cells, while CD8+ T memory stem cells expressed upregulated IL-10 receptors. These findings suggest that the inhibitory effect of mature memory T cells on alloreactive T cell-mediated GVL effect may be associated with increased production of IL-10 by mature memory cells and/or enhanced susceptibility of T memory stem cells to IL-10 secreted by mature memory cells. In addition, host dendritic cell activation of donor CD8+ naïve T cells progressively induced the generation of memory stem cells (CD44loCD62LhiSca-1hi), central memory cells (CD44hiCD62Lhi) and effector memory cells (CD44hiCD62Llo). CD8+ T memory stem cells displayed a TCR V-beta repertoire similar to that of unstimulated naive T cells. In contrast, both central memory and effector memory T cells showed a skewed TCR V-beta repertoire. Thus, selective elimination of suppressive CD44hiCD8+ T cells may represent an approach to augmenting GVL activity while preserving a diverse TCR V-beta repertoire.

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 >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.

scholarly journals A novel humanized mouse model to study the function of human cutaneous memory T cells in vivo in human skin

2018 ◽  
Author(s):  
Maria M. Klicznik ◽  
Ariane Benedetti ◽  
Laura M. Gail ◽  
Suraj R. Varkhande ◽  
Raimund Holly ◽  
...  
Keyword(s):  
T Cells ◽  
Candida Albicans ◽  
T Cell ◽  
Human Skin ◽  
Skin Diseases ◽  
Memory T Cells ◽  
Human Memory ◽  
Human Pbmc ◽  
Human T Cell

AbstractHuman skin contains a population of memory T cells that support tissue homeostasis and provide protective immunity. The study of human memory T cells is often restricted to in vitro studies and to human PBMC serving as primary cell source. Because the tisse environment impacts the phenotype and function of memory T cells, it is crucial to study these cells within their tissue. Here we utilized immunodeficient NOD-scid IL2rγnull (NSG) mice that carried in vivo-generated engineered human skin (ES). ES were generated from human keratinocytes and fibroblasts and is initially devoid of skin-resident immune cells. Upon adoptive transfer of human PBMC this reductionist system allowed to study human T cell recruitment from a circulating pool of T cells into non-inflamed human skin in vivo. Circulating human memory T cells preferentially infiltrated ES and showed diverse functional profiles of T cells found in fresh human skin. The chemokine and cytokine microenvironment of ES closely resembled that of non-inflamed human skin. Upon entering the ES T cells assumed a resident memory T cell-like phenotype in the absence of infection, and a proportion of these cutaneous T cells can be locally activated upon injection of monocyte derived dendritic cells (moDCs) that presented Candida albicans. Interestingly, we found that CD69+ memory T cells produced higher levels of effector cytokines in response to Candida albicans, compared to CD69- T cells. Overall, this model has broad utility in many areas of human skin immunology research, including the study of immune-mediated skin diseases.

scholarly journals Mobilization of CD8+ Central Memory T-Cells with Enhanced Reconstitution Potential in Mice By a Combination of G-CSF and GMI-1271-Mediated E-Selectin Blockade

Blood ◽  
2015 ◽  
Vol 126 (23) ◽  
pp. 512-512 ◽  
Author(s):  
Ingrid G Winkler ◽  
Valerie Barbier ◽  
Kristen J Radford ◽  
Julie M Davies ◽  
Jean-Pierre Levesque ◽  
...  
Keyword(s):  
Bone Marrow ◽  
T Cells ◽  
T Cell ◽  
Research Funding ◽  
Memory T Cells ◽  
Central Memory ◽  
Donor Blood ◽  
Central Memory T Cells

Abstract T-cells are critical mediators of immune defense against pathogens and cancer. Adoptive T cell immunotherapy and T-cell engineering have promising clinical applications but T cell survival and exhaustion are current limitations. Central memory cells (TCM CD62L+ CCR7+) and their precursors, stem central memory T-cells (TSCM) possess the stem-like properties needed to reconstitute and prolong an effective immune response long-term. These cells have been shown to significantly improve therapeutic efficacy of adoptive T-cell therapy. The challenge remains to harvest good quality TCM-cells for these immunotherapy approaches. The bone marrow (BM) is the major reservoir of CD8+ TCM and their precursors. We have previously shown that E-selectin is expressed in the BM vasculature and drives activation and differentiation of hematopoietic stem cells during G-CSF induced mobilization to the blood. We find therapeutic blockade of E-selectin promotes HSC self-renewal and reconstitution in vivo. We now examine the impact of E-selectin blockade on CD8+ T cell mobilization from the bone marrow to the blood and hypothesize that E-selectin blockade may also dampen the activation/differentiation of this subset. First we administered a standard G-CSF regime (filgastim 250ug/kg/day for 3 days) to mice and then dosed some cohorts with GMI-1271 (40mg/kg BID) from 12 to 72 hours within this 3 day period. Administration of G-CSF alone results in a near complete disappearance of bone marrow resident CD8+ TCM cells, and their apparent migration (increase in numbers) to the blood, while CD8+ subsets in the lymph nodes and spleen were barely affected by G-CSF. Furthermore among T-cell subsets, CD8+ but not CD4+ TCM were specifically mobilized into the blood when GMI-1271 was co-administered for the last 12 to 24 hours of G-CSF. These findings are consistent with reports demonstrating the bone marrow to be a major reservoir for CD8+ but not CD4+ central memory T-cells. Administration of GMI-1271 caused a marked enhancement in mobilization into the blood of CD8+ TCM/SCM (CD62Lhi, CCR7+) cells over treatment with G-CSF alone (p<0.05). To determine the functional consequences of this skewed mobilization following GMI-1271 co-administration, 25 uL of mobilized blood was transplanted into irradiated congenic B6.SJL recipients together with 2x105 congenic BM cells to analyze long-term donor T-cell engraftment in the recipient mice. We found G-CSF mobilized donor blood did not contribute CD8+ TCM cells that can persist post-transplant (<0.5% at 20 weeks post-transplant). In contrast when donor mice were mobilized with G-CSF together with E-selectin blockade (GMI-1271), we found elevated levels of donor blood derived CD8+ T-cells demonstrating robust long-term CD8+ T-cell persistence / regeneration (5.3 ±3.2% of total recipient T-cells, p=0.04). This dramatic boost in donor CD8+ T-cell reconstitution in mobilized blood following GMI-1271 co-administration is likely to be due to the long-term persistence and in vivo amplification of CD8+ TCM cells from donor mobilized blood. Similar in vivo enhancing effects of GMI-1271 were also observed with other mobilizing agents such as combined CXCR4 and VLA-4 blockade and GM-CSF resulting in a significant 4.9-fold boost in donor CD8+ reconstitution with GMI-1271. Importantly, only 12 hours of E-selectin blockade was sufficient to achieve this boost in CD8+ TCM numbers in the blood following G-CSF. In a previous report we have shown that therapeutic blockade of E-selectin promotes HSC self-renewal in vivo. Thus, it is possible that E-selectin blockade boosts mobilization of CD8+ TCM/SCM with stem-like properties into the blood by loosening factors retaining CD8+ TCM/SCM in the bone marrow and/or blocking the E-selectin-mediated activation and differentiation of this T-cell subset. In summary, our studies identify E-selectin blockade as a novel target to improve harvesting of CD8+ TCM/SCM cells with stem-like properties. Blockade of this target with GMI-1271 significantly improves the in vivo reconstitution potential and regenerative properties of CD8+ T-cells from donor blood allowing a valuable source of desired T-cells for use in adoptive immunotherapy and T-cell engineering. Disclosures Winkler: GlycoMimetics Inc: Research Funding. Barbier:GlycoMimetics Inc: Research Funding. Davies:GlycoMimetics Inc: Research Funding. Smith:GlycoMimetics, Inc.: Employment. Fogler:GlycoMimetics, Inc.: Employment. Magnani:GlycoMimetics Inc: Employment, Equity Ownership, Membership on an entity's Board of Directors or advisory committees.

Engraftment Fitness of Human Central Memory-Derived Effector CD8+ T Cells In Immunodeficient Mice

Blood ◽  
2010 ◽  
Vol 116 (21) ◽  
pp. 1019-1019
Author(s):  
Xiuli Wang ◽  
Berger Carolina ◽  
Stanley R. Riddell ◽  
ChingLam W Wong ◽  
Stephen Forman ◽  
...  
Keyword(s):  
T Cells ◽  
T Cell ◽  
Adoptive Transfer ◽  
Tumor Response ◽  
Memory T Cells ◽  
Effector T Cells ◽  
Caspase Activity ◽  
Effector Cells ◽  
Nog Mice

Abstract Abstract 1019 Development of T cell products that have engineered specificity for CD19 has broad application to adoptive transfer therapy for B-lineage lymphoma and leukemia. Clinical studies have demonstrated the safety and feasibility of T cell transfer as a therapy for patients. But the potency of this strategy has proven challenging, primarily due to issues relating to a lack of persistence of the adoptively transferred cells in patients. The repertoire of memory T cells is heterogeneous with respect to phenotypic, functional, and epigenetic attributes. Memory T cells are divided into sub-populations of 1) effector memory (TEM) cells that distribute to tissue beds and exhibit immediate cytolytic effector functioning, and 2) central memory (TCM) cells that home to lymph nodes based on CD62L/CCR7 expression and are capable of extensive proliferative activity upon re-encountering antigen. Thus the cell-intrinsic programming of distinct memory T cell subtypes, such as TEM and TCM, likely dictate divergent fates of their derived effector cells. To address this important issue, a clear functional dichotomy between TCM- and TEM-derived CD8+ CTLs was recently delineated in a nonhuman primate model, where it was found that virus-specific CD8+ CTL clones derived from TCM, but not TEM precursors, establish persistent and functional memory following adoptive transfer. Here, we extended these studies to human effector T cells using CMV as antigen model system to investigate the engraftment of human CMVpp65-specific CD8+ effector T cells derived in vitro from either sort purified CD45RO+CD62L+ TCM or CD45RO+CD62L- TEM precursors in NOD/Scid IL-2RγCnull (NOG) mice. TCM-derived effector cells (TE(CM)) and TEM-derived effector cells (TE(EM)) were adoptively transferred (i.v) into NOG mice reconstituted with human IL-15 and T cell levels in circulation were evaluated at different time points by FACS. 20% CD8+ TE(CM) and 3% CD8+ TE(EM) were detected on day 14. Then after, engraftment of the CD8+ TE(CM) remained at a steady state of approx 2% of circulating mononuclear cells for 100 days while TE(EM) remained at or below the level of detection, indicating that TE(CM) were superior in their ability to engraft in response to IL-15 as compared to TE(EM) after adoptive transfer (P<0.05). The long-term (100 days) persisting CD8+ TE(CM), harvested from primary recipient mice were found to be capable of engrafting secondary recipients. TcR Vβ analysis of persisting cells demonstrated that CD8+ TE(CM) engraftment was polyclonal, suggesting that homeostatic engraftment fitness is a general feature of these cells. To delineate the mechanism(s) by which TE(CM) exhibit superior in vivo engraftment, TE(CM) and TE(EM) were first labeled with CFSE before in vivo administration. CFSE profiles appear that the TE(EM) proliferated more extensively than TE(CM) early after adoptive transfer as indicated by the percent of cells which diluted CFSE on day 9 (i.e., 80% vs. only 25%, respectively). However, using D2R cleavage as a measure of caspase activity as a surrogate for apoptosis, 5.8% of engrafting TE(CM) were positive for activated caspase activity compared to 31.6% of TE(EM), suggesting that in NOG mice both CD8+ TE(CM) and TE(EM) proliferate in response to IL-15 whereas TE(CM) are intrinsically resistant to caspase activation and apoptosis. We also evaluated the antigen specific responsiveness of engrafted cells. Weekly infusions of irradiated pp65+/A2+ LCL as antigen significantly augmented the levels of circulating CD8+ TE(CM) as compared to no antigen stimulation (P<0.05), whereas CD8+ TE(EM) did not respond to antigen challenge. Moreover, when CMVpp65 specific CD8+ TE(CM) or TE(EM) were infused into CMVpp65+ tumor bearing mice, tumor cells progressed in mice receiving TE(EM) at a rate similar to untreated control mice over a ten day observation period, whereas TE(CM) significantly controlled tumor progression (P<0.05), indicating that CD8+ TE(CM) but not TE(EM) are able to mediate an anti-tumor response. Together these studies confirm that human CD8+ effector T cells derived from TCM precursors are capable of persistence after infusion, can proliferate in in vivo in response to antigen, can mediate an anti-viral or anti tumor response, and are likely the preferred T cells for antigen specific anti-tumor adoptive T cell therapy . Disclosures: No relevant conflicts of interest to declare.

Enhanced Antitumor Efficacy of Adoptively Transferred CD19-Redirected CMV Specific Central Memory T Cells by CMV Vaccine.

Blood ◽  
2012 ◽  
Vol 120 (21) ◽  
pp. 3014-3014
Author(s):  
Xiuli Wang ◽  
Winnie Wong ◽  
Wen-Chung Chang ◽  
Don Diamond ◽  
Michael C. Jensen ◽  
...  
Keyword(s):  
T Cells ◽  
T Cell ◽  
Antitumor Activity ◽  
Adoptive Transfer ◽  
Viral Antigen ◽  
Memory T Cells ◽  
Central Memory T Cells ◽  
Tumor Bearing ◽  
Nsg Mice

Abstract Abstract 3014 Development of T cell products that have engineered specificity for CD19 has broad application to adoptive transfer therapy for B-lineage lymphoma and leukemia. Clinical studies have demonstrated the safety and feasibility of cloned and bulk T cell transfer as a therapy for patients. But potency of this strategy has proven challenging, primarily due to issues relating to a lack of persistence of the adoptively transferred cells in patients. In contrast, the adoptive transfer of viral specific T cells has shown efficient efficacy for preventing progressive viral infections and exhibited long term persistence in patients, in part due to the viral specific T cells received optimal co-stimulation after engagement of their native receptors. Conceptually, engineering CMV specific T cells with CD19CAR to provide them with a second specificity for a tumor antigen may enable the transferred T cells (bi-specific T cells) to persist or numerically expand in vivo by stimulation of the endogenous TCR by virus antigen. Moreover, bi-specific T cell can be used in treatment for B cell malignancies in allo-settings without causing GVHD due to the pre-defined non-alloreactive TCR specificity. In this study, we explored the use of CMVxCD19CAR bi-specific T cells in CD19+tumor bearing NSG mice and evaluated their antitumor activity in response to CMVpp65 antigen stimulation as a consequence of CAR transduced T cell expansion. CMV specific T cells derived from central memory T cells were selectively expanded by 2 rounds of stimulation with cGMP grade pp65 protein followed a rapid expansion containing OKT3 and feeder cells. The established CMV specific Tcm, in which majority of them are CMVpp65 tetramer positive, were then transduced with cGMP grade SIN lentivirus expressing CD19R:CD28:z/EGFRt. After stimulation with CD19 positive LCL, 40% of the resultant cells co-express pp65 tetramer and CAR as detected by EGFRt/Erbitux analysis. Functionally, the bi-specific T cells exhibit specific cytolytic activity and secret IFNg, IL2 and TNFα upon engagement with pp65 or CD19 antigen, indicating that the effector function of the bi-specific T cells can be induced through endogenous TCR or the introduced CAR. To evaluate the in vivo viral antigen driven anti-tumor efficacy of the adoptively transferred bi-specific T cells, CD19+LCL expressing GFPffluc were inoculated (i.v) into huIL-15 reconstituted NSG mice. Once the tumor engraftment was confirmed by in vivo imaging, bi-specific T cells were adoptively transferred (i.v) into the tumor bearing mice. Anti- tumor activity was observed 14 days post T cell infusion. As expected, this effect is transient and tumor re-progression occurred. In order to deliver CMV antigen for vaccine, we generated T-APC by loading CMVpp65 peptide into autologous T cells and injected the CMV T-APCs (I.v) into the bi-specific T cell treated mice, Influenza specific MP1 peptide pulsed autologous T cells were used as control T-APCs. CMV T-APC induced a second wave of antitumor activity 2 weeks post vaccine and mice survived for more than 2 months post adoptive transfer of T cells, while tumor grew vigorously when MP1-T-APCs were given as stimulators. The findings demonstrated that CD19CAR modified CMV specific T cells are capable of responding to viral antigen reactivation through their endogenous TCR, which could be used to magnify the antitumor activity of CAR transduced T cells in vivo. Disclosures: No relevant conflicts of interest to declare.

A Comparison of Human CMVpp65-Specific Central Memory and Effector Memory CD8 T-Cells When Stimulated in-Vivo with IL-2 or IL-15/IL-15Rα Complex in a Murine Xenograft Model of Adoptive Cell Therapy

Blood ◽  
2014 ◽  
Vol 124 (21) ◽  
pp. 4805-4805
Author(s):  
Tzu-Yun Kuo ◽  
Aisha Hasan ◽  
Richard J O'Reilly
Keyword(s):  
T Cells ◽  
T Cell ◽  
Cd8 T Cells ◽  
Adoptive Immunotherapy ◽  
Memory T Cells ◽  
Cd8 T Cell ◽  
Central Memory ◽  
Effector Memory ◽  
Cell Clones

Abstract Initial clinical trials of adoptive immunotherapy have shown that the efficacy of adoptively transferred T-cells in man is often limited by the failure of cultured T cells, particularly cloned CD8 T cells, to persist in vivo. These studies demonstrated that the transferred T cells induced only transient responses and that persistence of the transferred T-cell clonotypes correlated with disease regression. A previous study suggested that CMV virus-specific CD8 T cell clones derived from central memory T cells (TCM), but not effector memory T cells (TEM), persisted long-term in non-human primates. On the other hand, another study comparing TCM and TEM derived SIV virus specific CD8 T-cell clones that were adoptively transferred in non-human primates demonstrated limited persistence of both TCM and TEM derived transferred T cells, and failed to show any difference between the two cell types. Because of these conflicting data, we have reexamed the persistence of adoptively transferred viral antigen specific T-cells derived from TCM and TEM population. Accordingly, we developed a NOG mouse model for studying the ability of human CMVpp65-specific T cells derived from central memory and effector memory populations to migrate to and accumulate in human tumor xenografts expressing CMVpp65, to alter the growth of these tumors and to persist in the tumors. This model also allows us to test immunomodulating agents and their ability to enhance targeted T-cell accumulations, antitumor activity and persistence. We analyzed CMVpp65-specific CD8 T cells derived from TCM and TEM precursors in vitro and in vivo. To tract the T-cells in vivo, we transduced membrane-bound Gaussia luciferase into TCM and TEM populations and monitored T cell trafficking by in vivo bioluminescence. Contrary to expectation, our results initially showed no differences between TCM and TEM derived CMVpp65-specific T-cell in mice co-treated with IL-2 in the time to accumulation, ultimate level of accumulation, degree of CMVpp65+ tumor regression or T-cell persistence. However, in mice cotreated with IL-15/IL-15Rα complex, both TCM and TEM exhibited more sustained engraftment and more prolonged accumulation in both the targeted tumor and in the marrow. In mice treated with IL-15/IL-15Rα, TCM and TEM derived T cells showed a similar effector memory phenotype and a similar level of regression of tumor growth. Thus, adoptive transfer of CMVpp65 specific TCM or TEM when combined with IL-15/IL-15Rα complex may support better persistence of antigen-specific T-cells following adoptive immunotherapy. Studies comparing IL-15/IL-15Rα complex with IL-15 alone are in progress. Disclosures No relevant conflicts of interest to declare.

Long-Term Immunological Profile of Patients Treated with Haploidentical HSCT and TK-Cells to Study the Requirements of Memory T Cell Persistence

Blood ◽  
2014 ◽  
Vol 124 (21) ◽  
pp. 4793-4793
Author(s):  
Giacomo Oliveira ◽  
Maria Teresa Lupo Stanghellini ◽  
Eliana Ruggiero ◽  
Nicoletta Cieri ◽  
Mattia D'Agostino ◽  
...  
Keyword(s):  
Gene Therapy ◽  
T Cells ◽  
T Cell ◽  
Memory T Cells ◽  
Suicide Gene ◽  
Suicide Gene Therapy ◽  
Cell Compartment

Abstract BACKGROUND: Suicide gene therapy applied to haploidentical hematopoietic stem cell transplantation (haplo-HSCT) is one of the widest clinical applications of gene therapy. By the infusion of donor lymphocytes transduced to express the Herpes Simplex Virus Thymidine Kinase (TK) suicide gene, patients achieve a rapid immune reconstitution and substantial protection against tumor recurrence. TK-cells are promptly eliminated in case of graft versus host disease (GvHD), with complete resolution of the adverse reaction. In previous studies, we showed that TK-cell infusions are necessary and sufficient to promote the generation of a fast, polyclonal and full competent T cell repertoire. In the present work we characterize the immunological profile of a cohort of long-term survivors after suicide gene therapy and we studied the long-term fate of TK-cells to shed light on memory T cell dynamics after transplantation. RESULTS: We studied 9 adult patients who underwent haplo-HSCT and infusion of purified suicide-gene modified donor T cells (median dose: 1.9x107 cells/kg, range:0.9x106-39.5x106) for high-risk hematologic malignancies between 1995 and 2010 (TK patients). At a median follow-up of 7,4 years (range 3.2-12.3), all patients are in complete remission. Two out of 9 patients (22%) experienced GvHD in the early phase post immune reconstitution; in all cases, ganciclovir (GCV) administration proved effective in abrogating the adverse reaction. No symptoms or complications related to GvHD were observed during the long-term follow up, and none of the patient is receiving immunosuppressive drugs. A complete recovery of NK cells, B lymphocytes and αβ or γδ T cells was observed. The CD8+ and CD4+ T cell compartment of TK patients were characterized by level of naïve and memory cell comparable to age and sex matched healthy controls. The quantification of CD4+ CD31+ CD62L+ CD45RA+ CD95- recent thymic emigrants and measure of single joint T-cell receptor excision circles demonstrated that the normalization of the T cell compartment was supported by a completely recovered thymic output. TK-cells were detected in all patients (100%), at low levels (median=4cells/uL). Ex vivo selection of pure TK-cells after polyclonal stimulation and LNGFR-purification confirmed the presence of functional transduced cells, thus directly demonstrating the ability of memory T cells to persist for years. Of notice TK-cells could be retrieved also in patients successfully treated with GCV for GvHD, thus confirming the selective action of GCV only on proliferating TK-cells. Accordingly, GCV sensitivity was preserved in long-term persisting TK-cells, independently from their differentiation phenotype. TK-cells circulating in patients displayed a memory phenotype comprising effector memory (TEM), central memory (TCM) and stem memory (TSCM) T cells and exhibited a low level of Ki-67 positivity, thus suggesting the maintenance of a pool of gene modified memory cells through homeostatic proliferation. The number of TK-cells circulating at the longest follow-up did not correlate with the number of infused cells, nor patients or donors’ age, but instead with the peak of TK-cells observed within the first months after infusion, suggesting that antigen recognition is dominant in driving in vivo expansion and persistence of memory T cells. We evaluated whether the phenotype of infused TK-cells was able to affect the long-term fate of gene-modified memory T cells. We observed that the number of infused TSCM cells positively correlated with early TK-cell expansion and with their long-term persistence, suggesting that TSCMmight play a privileged role in the generation of a long-lasting immunological memory. CONCLUSION: These data show that a complete and physiological donor-derived immune system is restored in adult surviving long-term after suicide gene therapy. After infusion, gene modified cells persist for up to 12 years in treated patients. This setting can be exploited to investigate the requirements at the basis of the generation of a long-lasting immunological memory in vivo. Further studies on TK-cell TCR repertoire and vector integrations are currently being performed to elucidate the in vivo dynamics of infused memory T cells. Disclosures Lambiase: MolMed S.p.A: Employment. Traversari:MolMed S.p.A: Employment. Bordignon:MolMed S.p.A: Chairman and CEO Other. Bonini:MolMed S.p.A: Consultancy.

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