Gene-Modified CD8+ T Cells Undergo Functional Polarization to Effector and Central Memory Cells in Response to Antigen Exposure.

Blood ◽  
2008 ◽  
Vol 112 (11) ◽  
pp. 1531-1531
Author(s):  
Paul Neeson ◽  
Amanda Shin ◽  
Tsin Tai ◽  
Karen Chen ◽  
Joanne Davis ◽  
...  
Keyword(s):  
T Cells ◽  
T Cell ◽  
Cd8 T Cells ◽  
Effector Memory ◽  
Ifn Gamma ◽  
Lewis Antigen ◽  
Negative Cell Line ◽  
Ley Antigen

Abstract Adoptive transfer (AT) of autologous T cells genetically-redirected against tumor antigens has considerable potential as cancer immunotherapy [Kershaw, Nat Rev Immunol. 2005]. However, the in vivo persistence of AT T cells is critical for tumor control and requires the development (in vitro or in vivo) of a memory T cell subset. We investigated the generation of memory T cell subsets in a novel chimeric T cell receptor-expressing T cell product prior to, and after exposure to cognate antigen. Gene-modified T cells (LeY-T) express a chimeric receptor comprising a single chain variable fragment (scFv) specific for Lewis Y (LeY) antigen coupled to the intracellular signaling domains of CD3 zeta and CD28, capable of inducing T cell effector granule release and target killing [Westwood PNAS 2005]. To produce LeY-T cells, PBMC from healthy donors (n=20) or multiple myeloma patients (n=2) were cultured with anti-OKT3 (30ng/ml) and IL-2 (600IU/ml) for three days, followed by two rounds of transduction with retroviral supernatant. Subsequently, T cells were expanded in high dose IL-2 (600IU/ml) from day 5 onwards. T cells were harvested for this study on culture days 10–12, CD8+ and CD4+ T cells expressed the chimeric protein (50–60)%. LeY CD8+ T cell subsets were assessed as naïve (N), central memory (CM), effector memory (EM) or effector (E) based on three features:- phenotype (CD45RA, CCR7, CD28, CD27 and perforin); homeostatic cytokine (IL-15/IL-7) proliferation; response to Lewis antigen contact including cell proliferation and cytokine secretion. We repeatedly observed that CD8+ LeY-T cells analyzed directly from the initial expansion culture demonstrate an effector memory (EM) phenotype (CD45RA−/CCR7−/CD28+/perforinhi and variable CD27 expression) (Figure 1A). Furthermore in vitro expanded LeY CD8 T cells express IL- 15R beta (CD122) and the common gamma chain (CD132), they proliferate in response to IL-15 (86% cell division, division index 1.82), but less with IL-7 (30% cell division, division index 0.56). Baseline expanded CD8+ LeY-T cells respond to the presence of LeY antigen by proliferating and secreting IFN-gamma (4–8% of CD8 T cells) but not IL-2. Importantly, no IFN-gamma secretion was seen in control T cells transduced with empty vector (Figure 1B, OVCAR cells). Furthermore, no IFN-gamma was secreted by the control or the CD8+ LeY-T cells in response to the Lewis antigen negative cell line (Figure 1C, HCT116 cells). To explore the memory component further, we examined the functional status of the CD8+ LeY-T cells seven and 30 days following a 48-hour exposure to LeY antigen (OVCAR cells), and compared this to CD8+ LeY-T cell functional status at baseline. Thus, direct from transduction, expansion culture LeY CD8+ T cells were largely EM phenotype (95%) a small population of cells (1–5)% had a CM phenotype (CD45RA−/CCR7+/CD28+/perforinlo). In contrast, seven days after Lewis antigen contact the EM cells had decreased to (76–88)% and CM increased to (10–21)%; this distribution was retained up to day 30 post-antigen exposure. In addition, seven days after Lewis antigen exposure, CD8+ LeY-T cells retain the capacity to proliferate in response to Lewis antigen and to secrete IFN-gamma, at no stage do these cells secrete IL-2. In conclusion, the CD8+ LeY-T cells produced by in vitro transduction and expansion culture have an EM functional status direct from in vitro culture indicating that they are an appropriate starting population for in vivo adoptive transfer. After exposure to LeY expressed on tumor cell lines in vitro, CD8+ LeY T cells show further polarization to either EM or CM cells. These results suggest that the LeY-chimeric T cells have the potential to form long-term memory populations in vivo after adoptive transfer. Figure 1. LeY T cells have an effector memory phenotype and respond to Lewis antigen expressing cell lines by secreting IFN-gamma. Following the transduction culture, the CD8+ LeY-T cells (A) expressed high levels of perforin and an EM phenotype. In (B), LeY T or empty vector control T cells were co-cultured with tumour cells overnight and intracellular cytokine secretion assay performed. The LeY CD8+ T cells responded to Lewis antigen expressing OVCAR cells by secreting IFN-gamma, whereas no response was observed with the negative cell line HCT-116. Figure 1. LeY T cells have an effector memory phenotype and respond to Lewis antigen expressing cell lines by secreting IFN-gamma. Following the transduction culture, the CD8+ LeY-T cells (A) expressed high levels of perforin and an EM phenotype. In (B), LeY T or empty vector control T cells were co-cultured with tumour cells overnight and intracellular cytokine secretion assay performed. The LeY CD8+ T cells responded to Lewis antigen expressing OVCAR cells by secreting IFN-gamma, whereas no response was observed with the negative cell line HCT-116.

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 Application of Novel T Cell Immunotherapeutics to Drive Antigen-Specific Activation, Expansion, and Differentiation of CD19 Chimeric Antigen Receptor T Cells (CAR T-cells)

Blood ◽  
2020 ◽  
Vol 136 (Supplement 1) ◽  
pp. 34-35
Author(s):  
Moriah Rabin ◽  
Mengyan Li ◽  
Scott Garforth ◽  
Jacqueline Marino ◽  
Jian Hua Zheng ◽  
...  
Keyword(s):  
T Cells ◽  
T Cell ◽  
B Cell ◽  
Cd8 T Cells ◽  
Effector Memory ◽  
Mhc Molecules ◽  
Car T Cells ◽  
Car T

Background: While chimeric antigen receptor T cells (CAR T-cells) induce dramatic remissions of refractory or recurrent B cell malignancies, the durability of these remissions is frequently limited by subsequent reduction in circulating CAR T-cells and/or by diminution of their effector function. We hypothesized that we could overcome this therapeutic limitation and increase the functional activity and longevity of CAR T-cells by selectively deriving them from virus-specific effector memory T cells. We have developed biologics we termed synTacs (artificial immunological synapse for T-cell activation), which selectively activate and expand antigen-specific CD8+ T cells in vitro and in vivo by recapitulating signals delivered at the immunological synapse. The synTacs consist of dimeric Fc domain scaffolds linking CD28- or 4-1BB-specific ligands to HLA-A2 MHC molecules covalently tethered to virus-derived peptides. Treatment of PBMCs from CMV-exposed donors with synTacs presenting a CMV-derived peptide (pp65-NLVPMVATV) induce vigorous and selective ex vivo and in vivo expansion of highly functional CMV-specific CD8+ T cells, with potent antiviral activity. We used these synTacs to selectively generate CAR T-cells from CMV-specific effector memory CD8+ T cells, which could be further expanded by restimulation with the CMV-specific synTacs. Methods: We treated PBMCs from CMV-exposed donors in media supplemented with either IL-2 or IL-7/12/15 with a synTac containing the CMV-derived pp65 peptide presented by HLA-A2 MHC molecules linked to ligands capable of stimulating CD28- or 4-1BB-dependent costimulatory pathways. PBMCs activated either with anti-CD3/CD28 or the CMV-specific synTacs were transduced with lentivirus expressing an anti-CD19 CAR and a GFP reporter gene. CMV-specific CD8+ T cells were quantified by tetramer staining and CAR T-cells were detected by GFP expression determined by flow cytometric analysis. The functional activity of the CD19 CAR T-cells was determined by a B cell-specific cytotoxic assay. Results: After 7 days, treatment of PBMCs with CMV-specific synTacs rapidly induced robust activation and >50-fold expansion of CMV-specific CD8+ T cells expressing effector memory markers. Treatment of the PBMCs with CMV-specific synTacs selectively activated CMV-specific T cells and enabled them to be specifically transduced with a CD19-specific CAR lentivirus and converted into CD19 CAR T-cells. These CMV-specific CD19 CAR T-cells displayed potent dose-responsive cytotoxic activity targeting purified primary B cells. Furthermore, these CMV-specific CD19 CAR T-cells could be selectively expanded by in vitro treatment with CMV-specific synTacs. Conclusions: SynTacs are versatile immunotherapeutics capable of selective in vitro and in vivo activation and expansion of virus-specific CD8+ T cells with potent antiviral cytotoxic activity. After selective lentiviral transduction and conversion into CD19 CAR T-cells, their co-expression of the CMV-specific T cell receptor enabled them to be potently stimulated and activated by in vitro treatment with CMV synTacs. The modular design of synTacs facilitates efficient coupling of other costimulatory ligands - such as OX40 or GITRL - or cytokines, such as IL-2, IL-7, or IL-15, to enable the selective in vivo delivery of defined costimulatory signals or cytokines to the CAR T-cells expressing CMV-specific TCR. This strategy has the potential to boost the in vivo activity of tumor-specific CAR T-cells after infusion and enable more durable and potent treatment of refractory/recurrent B cell malignancies. Disclosures Almo: Cue Biopharma: Current equity holder in publicly-traded company, Patents & Royalties: Patent number: 62/013,715, Research Funding. Goldstein:Cue Biopharma: Research Funding.

Regulatory and Activated T Cells in Stem Cell Autografts Collected by Mobilization with High-Dose Cyclophosphamide and Granulocyte Colony Stimulating Factor.

Blood ◽  
2005 ◽  
Vol 106 (11) ◽  
pp. 5216-5216
Author(s):  
Maud Condomines ◽  
Philippe Quittet ◽  
Zhao-Yang Lu ◽  
Laure Nadal ◽  
Pascal Latry ◽  
...  
Keyword(s):  
Cell Cycle ◽  
T Cells ◽  
T Cell ◽  
Cd8 T Cells ◽  
Cell Function ◽  
Effector Memory ◽  
High Dose ◽  
Cell Recovery

Abstract High-dose chemotherapy (HDC) supported by autograft of hematopoietic progenitors (HP) is a standard therapy for patients with multiple myeloma (MM). High-dose cyclophosphamide (CTX) and G-CSF are widely used to collect HP. As the number of lymphocytes in the autograft is a powerful prognostic factor in patients with MM, our purpose was to study how CTX-G-CSF treatment affects the phenotype and function of T cells, in particular regulatory T cells (Treg), in 15 patients with MM. CTX induced severe T cell immunosuppression with a slow and partial T-cell recovery (a threefold decrease) at the time of HP collection. CTX-G-CSF treatment did not affect the percentages of central memory (CD45RA−, CCR7+), effector memory (CD45RA−, CCR7−), and late effector (CD45RA+, CCR7−) CD4 or CD8 T cells but a decrease of naïve CD4 cells (CD45RA+, CCR7+) was found. The percentages of CD25+ cells increased two- to threefold in CD4 or CD8 T cells, respectively. Post-CTX treatment CD4CD25+ cells included both activated CD4CD25low cells and CD4CD25high T cells. The latter were Treg because they expressed high level of FOXP3 and membrane CTLA-4 mRNA and protein and displayed functional suppressor function. In CTX-G-CSF leukaphereses from 15 patients with MM, the mean Treg number was one fifth that of CD34 and the CD3, CD4 and CD8 numbers respectively 3 fold, 2 fold and equal that of CD34. Post-CTX-G-CSF treatment CD3 cells did not cell cycle in vivo and died in short-term culture in vitro. Adding IL-2 or IL-15 induced their survival and cell cycle, and stimulation with anti-CD3 MoAb led to efficient growth in vitro. These results suggest that following CTX-G-CSF treatment, CD3 cells are preactivated in vivo and do not cell cycle, likely due to a lack of T cell growth factors in vivo. The current data indicate that CTX-G-CSF treatment profoundly affects T cell function without eliminating Treg. The persistence of Treg could be explained by an opposite effect of CTX known to kill Treg and of G-CSF amplifying Treg. Given the major impact of lymphocyte count on patients’ survival post HDC and HP and T cell graft, the present data invite to define novel therapeutic strategies to improve T cell recovery in vivo while limiting Treg expansion.

scholarly journals CD28 Costimulation Is Required for In Vivo Induction of Peripheral Tolerance in CD8 T Cells

2002 ◽  
Vol 197 (1) ◽  
pp. 19-26 ◽  
Author(s):  
Melanie S. Vacchio ◽  
Richard J. Hodes
Keyword(s):  
T Cells ◽  
T Cell ◽  
Cd8 T Cells ◽  
Tolerance Induction ◽  
Peripheral Tolerance ◽  
Cd8 Cells ◽  
Costimulatory Signal ◽  
Cd28 Costimulation

Whereas ligation of CD28 is known to provide a critical costimulatory signal for activation of CD4 T cells, the requirement for CD28 as a costimulatory signal during activation of CD8 cells is less well defined. Even less is known about the involvement of CD28 signals during peripheral tolerance induction in CD8 T cells. In this study, comparison of T cell responses from CD28-deficient and CD28 wild-type H-Y–specific T cell receptor transgenic mice reveals that CD8 cells can proliferate, secrete cytokines, and generate cytotoxic T lymphocytes efficiently in the absence of CD28 costimulation in vitro. Surprisingly, using pregnancy as a model to study the H-Y–specific response of maternal T cells in the presence or absence of CD28 costimulation in vivo, it was found that peripheral tolerance does not occur in CD28KO pregnants in contrast to the partial clonal deletion and hyporesponsiveness of remaining T cells observed in CD28WT pregnants. These data demonstrate for the first time that CD28 is critical for tolerance induction of CD8 T cells, contrasting markedly with CD28 independence of in vitro activation, and suggest that the role of CD28/B7 interactions in peripheral tolerance of CD8 T cells may differ significantly from that of CD4 T cells.

scholarly journals DNAM-1 promotes activation of cytotoxic lymphocytes by nonprofessional antigen-presenting cells and tumors

2008 ◽  
Vol 205 (13) ◽  
pp. 2965-2973 ◽  
Author(s):  
Susan Gilfillan ◽  
Christopher J. Chan ◽  
Marina Cella ◽  
Nicole M. Haynes ◽  
Aaron S. Rapaport ◽  
...  
Keyword(s):  
T Cells ◽  
T Cell ◽  
Nk Cells ◽  
Adhesion Molecules ◽  
Cd8 T Cells ◽  
Nk Cell ◽  
Cd8 T Cell ◽  
Antigen Presenting

Natural killer (NK) cells and CD8 T cells require adhesion molecules for migration, activation, expansion, differentiation, and effector functions. DNAX accessory molecule 1 (DNAM-1), an adhesion molecule belonging to the immunoglobulin superfamily, promotes many of these functions in vitro. However, because NK cells and CD8 T cells express multiple adhesion molecules, it is unclear whether DNAM-1 has a unique function or is effectively redundant in vivo. To address this question, we generated mice lacking DNAM-1 and evaluated DNAM-1–deficient CD8 T cell and NK cell function in vitro and in vivo. Our results demonstrate that CD8 T cells require DNAM-1 for co-stimulation when recognizing antigen presented by nonprofessional antigen-presenting cells; in contrast, DNAM-1 is dispensable when dendritic cells present the antigen. Similarly, NK cells require DNAM-1 for the elimination of tumor cells that are comparatively resistant to NK cell–mediated cytotoxicity caused by the paucity of other NK cell–activating ligands. We conclude that DNAM-1 serves to extend the range of target cells that can activate CD8 T cell and NK cells and, hence, may be essential for immunosurveillance against tumors and/or viruses that evade recognition by other activating or accessory molecules.

scholarly journals 708 Novel ways to exploit IL-21 to augment adoptive T cell transfer therapy against tumors

2021 ◽  
Vol 9 (Suppl 3) ◽  
pp. A737-A737
Author(s):  
Anna Cole ◽  
Guillermo Rangel RIvera ◽  
Aubrey Smith ◽  
Megan Wyatt ◽  
Brandon Ware ◽  
...  
Keyword(s):  
T Cells ◽  
T Cell ◽  
Cd8 T Cells ◽  
Immune Cells ◽  
Striking Difference ◽  
T Cell Therapy ◽  
Cell Immunity ◽  
Emory University

BackgroundIL-21 enhances the anti-tumor capacity of adoptively transferred CD8+ T cells, while IL-2 and IL-15 impair T cell immunity by driving their expansion to a more differentiated status. Yet, these cytokines can act on many different immune cells. Given the potency of IL-21, we tested if this cytokine directly augments T cells or rather if it enhances other immune cells in the culture that indirectly improves T cell therapy.MethodsTo test this question, splenocytes from pmel-1 transgenic mice were used, as all CD8+ T cells express a transgenic TCR specific for tumor-antigen gp10025–33 overexpressed on melanoma. We then peptide activated naïve CD8+ T cells enriched or not from the spleen of pmel-1 mice and expanded them in the presence of IL-21 or IL-2 (10 ng/mL) for four days. Expanded pmel-1 from these various cultures were then restimulated with irradiated splenocytes pulsed with gp10025–33 and grown an additional seven days with IL-2 (10 ng/mL), irrespective of their initial cytokine condition. The in vitro memory phenotype, exhaustion profile, and cytokine secretion of these cultures were then assayed. Furthermore, mice bearing B16KVP melanoma tumors were infused with pmel-1 T cells expanded via these various approaches and compared for their relative capacity to engraft, persist, and regress tumor in vivo.ResultsInterestingly, we discovered that IL-21-treated T cells generated from bulk splenocytes are phenotypically and functionally distinct from IL-21-treated isolated T cells. Upon restimulation, IL-21-treated T cells from bulk splenocytes exhibited an exhausted phenotype that was like anergic IL-2-treated T cells. Moreover, few cells expressed CD62L but expressed heightened markers of suppression, including TIM3, PD-1, and EOMES. Moreover, they produced more effector molecules, including granzyme B and IFN-gamma. In vivo IL-21-treated T cells expanded from bulk splenocytes engrafted and persisted poorly, in turn mediating suboptimal regression of melanoma. Conversely, IL-21 dramatically bolstered the engraftment and antitumor activity of T cells only if they were first isolated from the spleen prior to their expansion and infusion into the animal.ConclusionsCollectively, our data shows that IL-21 may improve ACT therapy best when used directly on antitumor CD8+ T cells. Further studies will illuminate the mechanism behind this striking difference and determine whether other cell subsets reactive to IL-21 cause T cell dysfunction and/or reduced bioavailability. These findings are important for defining the best culture conditions in which to use IL-21 for ACT.AcknowledgementsWe would like to acknowledge Emory University, The Winship Cancer Institute, and the Pediatrics/Winship Flow Cytometry Core.Ethics ApprovalAll animal procedures were approved by the Institutional Animal Care and Use Committee of Emory University, protocol number 201900225.

scholarly journals Transcription factor Etv6 regulates functional differentiation of cross-presenting classical dendritic cells

2018 ◽  
Vol 215 (9) ◽  
pp. 2265-2278 ◽  
Author(s):  
Colleen M. Lau ◽  
Ioanna Tiniakou ◽  
Oriana A. Perez ◽  
Margaret E. Kirkling ◽  
George S. Yap ◽  
...  
Keyword(s):  
T Cells ◽  
Dendritic Cells ◽  
Transcription Factor ◽  
T Cell ◽  
Cd8 T Cells ◽  
Functional Differentiation ◽  
Specific Gene ◽  
Hematopoietic Stem

An IRF8-dependent subset of conventional dendritic cells (cDCs), termed cDC1, effectively cross-primes CD8+ T cells and facilitates tumor-specific T cell responses. Etv6 is an ETS family transcription factor that controls hematopoietic stem and progenitor cell (HSPC) function and thrombopoiesis. We report that like HSPCs, cDCs express Etv6, but not its antagonist, ETS1, whereas interferon-producing plasmacytoid dendritic cells (pDCs) express both factors. Deletion of Etv6 in the bone marrow impaired the generation of cDC1-like cells in vitro and abolished the expression of signature marker CD8α on cDC1 in vivo. Moreover, Etv6-deficient primary cDC1 showed a partial reduction of cDC-specific and cDC1-specific gene expression and chromatin signatures and an aberrant up-regulation of pDC-specific signatures. Accordingly, DC-specific Etv6 deletion impaired CD8+ T cell cross-priming and the generation of tumor antigen–specific CD8+ T cells. Thus, Etv6 optimizes the resolution of cDC1 and pDC expression programs and the functional fitness of cDC1, thereby facilitating T cell cross-priming and tumor-specific responses.

scholarly journals Selective anergy of V beta 8+,CD4+ T cells in Staphylococcus enterotoxin B-primed mice.

1990 ◽  
Vol 172 (4) ◽  
pp. 1065-1070 ◽  
Author(s):  
Y Kawabe ◽  
A Ochi
Keyword(s):  
T Cells ◽  
T Cell ◽  
Cd8 T Cells ◽  
Cd4 T Cells ◽  
T Cell Anergy ◽  
Specific Cytotoxicity ◽  
Enterotoxin B ◽  
Staphylococcus Enterotoxin B

The cellular basis of the in vitro and in vivo T cell responses to Staphylococcus enterotoxin B (SEB) has been investigated. The proliferation and cytotoxicity of V beta 8.1,2+,CD4+ and CD8+ T cells were observed in in vitro response to SEB. In primary cytotoxicity assays, CD4+ T cells from control spleens were more active than their CD8+ counterparts, however, in cells derived from SEB-primed mice, CD8+ T cells were dominant in SEB-specific cytotoxicity. In vivo priming with SEB abrogated the response of V beta 8.1,2+,CD4+ T cells despite the fact that these cells exist in significant number. This SEB-specific anergy occurred only in V beta 8.1,2+,CD4+ T cells but not in CD8+ T cells. These findings indicate that the requirement for the induction of antigen-specific anergy is different between CD4+ and CD8+ T cells in post-thymic tolerance, and the existence of coanergic signals for the induction of T cell anergy is suggested.

Anatomic location and T-cell stimulatory functions of mouse dendritic cell subsets defined by CD4 and CD8 expression

Blood ◽  
2002 ◽  
Vol 99 (6) ◽  
pp. 2084-2093 ◽  
Author(s):  
Alexander D. McLellan ◽  
Michaela Kapp ◽  
Andreas Eggert ◽  
Christian Linden ◽  
Ursula Bommhardt ◽  
...  
Keyword(s):  
T Cells ◽  
T Cell ◽  
Cd8 T Cells ◽  
Antigen Expression ◽  
Cell Receptor ◽  
In Vitro Assays ◽  
Peptide Complexes ◽  
Marginal Zones

Abstract Mouse spleen contains CD4+, CD8α+, and CD4−/CD8α− dendritic cells (DCs) in a 2:1:1 ratio. An analysis of 70 surface and cytoplasmic antigens revealed several differences in antigen expression between the 3 subsets. Notably, the Birbeck granule–associated Langerin antigen, as well as CD103 (the mouse homologue of the rat DC marker OX62), were specifically expressed by the CD8α+ DC subset. All DC types were apparent in the T-cell areas as well as in the splenic marginal zones and showed similar migratory capacity in collagen lattices. The 3 DC subtypes stimulated allogeneic CD4+ T cells comparably. However, CD8α+ DCs were very weak stimulators of resting or activated allogeneic CD8+ T cells, even at high stimulator-to-responder ratios, although this defect could be overcome under optimal DC/T cell ratios and peptide concentrations using CD8+ F5 T-cell receptor (TCR)–transgenic T cells. CD8α− or CD8α+DCs presented alloantigens with the same efficiency for lysis by cytotoxic T lymphocytes (CTLs), and their turnover rate of class I–peptide complexes was similar, thus neither an inability to present, nor rapid loss of antigenic complexes from CD8α DCs was responsible for the low allostimulatory capacity of CD8α+ DCs in vitro. Surprisingly, both CD8α+ DCs and CD4−/CD8− DCs efficiently primed minor histocompatibility (H-Y male antigen) cytotoxicity following intravenous injection, whereas CD4+ DCs were weak inducers of CTLs. Thus, the inability of CD8α+ DCs to stimulate CD8+ T cells is limited to certain in vitro assays that must lack certain enhancing signals present during in vivo interaction between CD8α+ DCs and CD8+ T cells.

scholarly journals Human memory CD8 T cell effector potential is epigenetically preserved during in vivo homeostasis

2017 ◽  
Vol 214 (6) ◽  
pp. 1593-1606 ◽  
Author(s):  
Hossam A. Abdelsamed ◽  
Ardiana Moustaki ◽  
Yiping Fan ◽  
Pranay Dogra ◽  
Hazem E. Ghoneim ◽  
...  
Keyword(s):  
T Cells ◽  
T Cell ◽  
Cd8 T Cells ◽  
Cd8 T Cell ◽  
Human Memory ◽  
Memory Cd8 T Cells ◽  
Memory Cd8 T Cell ◽  
Cell Effector

Antigen-independent homeostasis of memory CD8 T cells is vital for sustaining long-lived T cell–mediated immunity. In this study, we report that maintenance of human memory CD8 T cell effector potential during in vitro and in vivo homeostatic proliferation is coupled to preservation of acquired DNA methylation programs. Whole-genome bisulfite sequencing of primary human naive, short-lived effector memory (TEM), and longer-lived central memory (TCM) and stem cell memory (TSCM) CD8 T cells identified effector molecules with demethylated promoters and poised for expression. Effector-loci demethylation was heritably preserved during IL-7– and IL-15–mediated in vitro cell proliferation. Conversely, cytokine-driven proliferation of TCM and TSCM memory cells resulted in phenotypic conversion into TEM cells and was coupled to increased methylation of the CCR7 and Tcf7 loci. Furthermore, haploidentical donor memory CD8 T cells undergoing in vivo proliferation in lymphodepleted recipients also maintained their effector-associated demethylated status but acquired TEM-associated programs. These data demonstrate that effector-associated epigenetic programs are preserved during cytokine-driven subset interconversion of human memory CD8 T cells.

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