scholarly journals Uncoupling of Proliferative Potential and Gain of Effector Function by CD8+ T Cells Responding to Self-Antigens

2002 ◽  
Vol 196 (3) ◽  
pp. 323-333 ◽  
Author(s):  
Javier Hernández ◽  
Sandra Aung ◽  
Kristi Marquardt ◽  
Linda A. Sherman
Keyword(s):  
T Cells ◽  
Cd8 T Cells ◽  
Effector Function ◽  
Proliferative Potential ◽  
Peripheral Tissues ◽  
Cd8 Cells ◽  
Cd4 Help ◽  
Antigen Presenting ◽  
Secondary Lymphoid Organs ◽  
Self Antigens

Professional antigen-presenting cells (APCs) are capable of transporting self-antigens from peripheral tissues to secondary lymphoid organs where they are presented to potentially autoreactive CD8+ T cells. In the absence of an inflammatory response, this results in immune tolerance. The presence of activated, antigen-specific CD4+ T cells converts this tolerogenic encounter into an immunogenic one by promoting extensive proliferation of CD8+ T cells and their development into effectors. Surprisingly, activation of APCs with an agonistic antibody specific for CD40 could not substitute for CD4+ help in this task. Anti-CD40 induced recruitment of dendritic cells expressing high levels of B7 costimulatory molecules into the lymph nodes, which in turn, greatly enhanced activation and expansion of CD8+ T cells. However, these activated CD8+ cells did not demonstrate effector function. We conclude that proliferative potential and gain of effector function are separable events in the differentiation program of CD8+ T cells.

scholarly journals Direct CD4 Help Provision following Interaction of Memory CD4 and CD8 T Cells with Distinct Antigen-Presenting Dendritic Cells

2010 ◽  
Vol 185 (2) ◽  
pp. 1028-1036 ◽  
Author(s):  
Marie-Ghislaine de Goër de Herve ◽  
Bamory Dembele ◽  
Mélissa Vallée ◽  
Florence Herr ◽  
Anne Cariou ◽  
...  
Keyword(s):  
T Cells ◽  
Dendritic Cells ◽  
Cd8 T Cells ◽  
Cd4 Help ◽  
Antigen Presenting

Gene Expression Profiling Identifies Similar CD4+ and CD8+ T Cell Defects in TCL1 Transgenic Mice after Development of CLL to Those Observed in Patients with CLL.

Blood ◽  
2004 ◽  
Vol 104 (11) ◽  
pp. 180-180
Author(s):  
Vassiliki Rizouli ◽  
David Zahrieh ◽  
Gullu Gorgun ◽  
Tobias A.W. Holderried ◽  
Carlo Croce ◽  
...  
Keyword(s):  
Gene Expression ◽  
T Cells ◽  
Cell Differentiation ◽  
T Cell ◽  
Transgenic Mice ◽  
Cd8 T Cells ◽  
Effector Function ◽  
Cd4 Cells ◽  
Cd8 Cells ◽  
The Impact

Abstract The TCL1 gene at 14q32.1 is involved in chromosomal translocations and inversions in T cell leukemias, but targeted expression of the TCL1 gene in mice results in the development of a CLL like disorder in older mice resembling human B-CLL, so that deregulation of the TCL1 pathway proved to play a crucial role in CLL pathogenesis in mice. Development and progression of B-CLL is associated with immune dysregulation and in particular T cell defects. Although patients with CLL often have normal or even increased T cell numbers, there is an abnormal CD4/CD8 ratio, impaired mitogen responses and defective effector function in response to antigenic stimulation. We have previously categorized defects in the gene expression profile of CD4 and CD8 T cells in patients with CLL. We therefore sought to determine if the onset of CLL in the TCL1-transgenic mice also resulted in defects similar to those observed in patients with CLL. The aim was to determine if this murine model would mimic the impact of CLL on the normal immune system, so that we could use this model to examine in vivo the impact of steps taken to repair T cell defects. To examine this, we highly purified CD4 and CD8 T cells by positive selection from non-transgenic mice and TCL1 transgenic mice of different ages and at different stages in disease development. Total RNA was extracted, cRNA synthesized, labeled and hybridized to the Mouse 430_2 Affymetrix chip. We used DNA-Chip Analyzer (dChip) to perform an unsupervised analysis, which consisted of gene filtering, excluding genes that lacked sufficient variability across groups, and hierarchical clustering of genes and samples. This type of analysis demonstrated that CD4 and CD8 T cells of young mice without CLL clustered with non-transgenic mice of different ages, but separately from CD4 and CD8 cells from mice with developing and established CLL. Supervised analysis using Permax of the gene expression profiles of T cells in non-transgenic mice and non-tumor bearing TCL1 mice compared to CLL bearing mice identified significant differences in expression for 348 in CD4 cells and 127 genes for CD8 cells. In CD4 cells from CLL mice 202 genes were upregulated and 146 were downregulated and in CD8 cells 32 genes were upregulated and 95 genes downregulated. Analysis of the genes observed to be altered in the CLL bearing mice revealed that the majority were involved in genes regulating cytoskeleton formation, intracellular transportation, vesicle formation and transport, cell cycle control and cell differentiation. Comparison of the pathways perturbed in the mice compared to that observed in our previous study in patients with CLL demonstrated alteration in many similar pathways. The findings in human and murine CLL are in keeping with the hypothesis that interaction of the CLL cells with the normal immune function induces changes that result in decrease in T cell differentiation and effector function. It is intriguing to postulate that this effect would diminish autologous anti-tumor responses. We conclude that development of CLL in these transgenic mice induces T cell defects that mimic the defects that occur in CLL patients and that the TCL1 transgenic mouse model will serve as an ideal model to study steps to repair T cell function and their impact on CLL.

Higher Homeostatic Set-Point for Transplanted Naive vs. Memory CD8 T Cells during Immune Reconstitution Following Ablative Conditioning and HCT.

Blood ◽  
2005 ◽  
Vol 106 (11) ◽  
pp. 1264-1264
Author(s):  
Melinda Roskos ◽  
Robert B. Levy
Keyword(s):  
T Cells ◽  
Immune Function ◽  
Cd8 T Cells ◽  
Effector Function ◽  
Memory Cd8 T Cells ◽  
Set Point ◽  
Cd8 Cells ◽  
Post Transplant ◽  
Effector Activity ◽  
Homeostatic Expansion

Abstract Aggressive conditioning prior to hematopoietic cell transplants (HCT) reduces tumor burden, inhibits immune mediated resistance and provides space for the engraftment of hematopoietic stem cells. However, intense myeloablative conditioning also results in severe immune deficiency post-HCT. In addition to thymic reconstitution, T cells introduced at the time of transplant or early following HCT can undergo homeostatic expansion in the lymphopenic HCT recipient. Antigen (ag) -specific CD8 cells introduced early post-HCT can be beneficial, providing immediate immune function against viral infection or residual tumor. Memory CD8 cells (TM) are particularly attractive for restoring immune function because of their capacity to respond rapidly and generate effector activity in response to low ag. concentration. Recent reports, describing the phenotypic and functional conversion of transferred TN in lymphopenic recipients in the absence of foreign ag, led us to hypothesize that if ag-specific TN co-infused during HCT convert to memory-like cells in lymphopenic HCT recipients, these cells could subsequently provide important - and potentially equivalent - immune function to that by TM in reconstituting recipients. A syngeneic murine HCT model was utilized to investigate the homeostatic expansion, phenotype, and effector function of ag-specific naVve vs. memory CD8 populations following transplant. The TM population was generated in vitro from OT-I-Rag1−/ − spleen cells cultured with rmIL-2 and OVA peptide for 3 days followed by 2 days in rmIL-15. Resultant OT-I TM (CD44hi/Ly6C+/CD62Lhi/CD25lo) exhibited a central memory phenotype. The OT-I TN population (CD44lo/Ly6Clo/CD62Lhi/CD25lo) was positively selected from OT-I spleen and LNC using Miltenyi CD8 beads. Either 1.5x106 TM or TN, with 2x106 T cell-depleted B6 BM, were transplanted into 9.0-Gy conditioned syngeneic recipients. Homeostatic proliferation was assessed by OT.I cell numbers (CD8+/Vβ 5+/Vα 2+ ) in recipient spleens post-HCT. Both TN and TM expanded almost immediately post-transplant. However, by day 7 post-HCT, TN exhibited greater expansion resulting in 2x numbers of splenic OT.I cells compared to recipients of TM. TM underwent homeostatic expansion for the first 14 days following HCT, whereas TN continued to expand for another 1–2 wks. Notably, TN ultimately achieved higher overall numbers as a consequence of homeostatic expansion. Cell surface analysis of TM demonstrated these cells retained their memory phenotype >7 months post-HCT. In contrast, the initially naVve phenotype of transplanted TN began to convert towards a memory-like phenotype as early as 14 days post-HCT and by 42 days had fully converted. Paralleling the phenotypic conversion, effector activity of transplanted TN became memory-like by day 42 post-HCT. IFNγ production and lytic activity by transplanted TN was indistinguishable vs. TM. These findings demonstrate that the conditions for homeostatic expansion of both naVve and memory donor CD8 T cells are present in recipients immediately following ablative conditioning and transplant. Moreover, the higher homeostatic ‘set-point’ numbers of naVve vs. memory CD8 T cells suggest that conditions may favor the former early post-transplant. In total, the results suggest that homeostatic expansion and conversion of transplanted TN to memory-like cells demonstrate effector function indistinguishable from TM which may provide more effective immune function in reconstituting, ablatively conditioned HCT recipients than previously considered.

CD4 Cells Engineered to Express an MHC Class I Restricted TCR Can Rescue CD8 Cells Tolerized to Tumour-Associated Antigens

Blood ◽  
2012 ◽  
Vol 120 (21) ◽  
pp. 952-952
Author(s):  
Sara Ghorashian ◽  
Ben Carpenter ◽  
Angelika Holler ◽  
Emma Nicholson ◽  
Maryam Ahmadi ◽  
...  
Keyword(s):  
T Cells ◽  
T Cell ◽  
Mhc Class I ◽  
Cd8 T Cells ◽  
Class I ◽  
Target Cells ◽  
Cd4 Cells ◽  
Cd8 Cells ◽  
Cognate Antigen ◽  
Cd4 Help

Abstract Abstract 952 Background: The efficacy of T cell therapies for cancer may be limited when targeting tumour-associated antigens (TAA) which are also self-antigens. Ongoing exposure to TAA on normal cells may lead to tolerance via anergy or exhaustion of antigen-specific T cells. Methods: We have designed a model of tolerance to TAA in which T cell receptor (TCR)-transduced CD8 T cells recognise pMDM2, a TAA that is also a ubiquitous self-antigen. CD8+ T cells were transduced with pMDM2-specific TCR (MDM-CD8) and transferred to sub-lethally irradiated B6 mice that express pMDM2 in the context of MHC Class I (H2-Kb). MDM-CD8 cells are detectable 4 weeks after transfer but show defective in vivo killing of target cells pulsed with MDM2 peptide. We have used this model to determine the mechanism of tolerance and to evaluate whether tolerant CD8+ T cells can be rescued by CD4 help. Results: To determine whether tolerance of MDM-CD8 cells was dependent upon recognition of cognate antigen, we transferred MDM-CD8 cells into mice of a different MHC background (BALB/c) which lack H2-Kb required for presentation of the TCR-recognised MDM2 peptide. When BALB/c MDM-CD8 cells were transferred to BALBc hosts their functions were preserved and they retained efficient antigen-specific cytolysis. To determine whether tolerance could be modified by provision of CD4+ T cell help, we co-transferred MDM-CD8 with transgenic OT-II CD4+ cells. OT-II cells were primed with dendritic cells (DCs) loaded with cognate pOVA323-339 or irrelevant peptide. When activated through their TCR, OT-II cells increased both the frequency of MDM2-specific CD8 cells and their cytotoxic functions, indicating that CD4 help can overcome CD8 tolerance to TAA. Ineffective antigen presentation to CD4 cells and lack of known MHC class II-restricted TAA are major limitations to providing CD4 help in T cell therapy for cancer. We therefore tested whether transfer of the MHC Class I-restricted MDM2 TCR into CD4 cells could provide help upon transfer to antigen-expressing hosts. Co-transfer of MDM2-TCR-transduced CD4 cells with CD8 cells improved antigen-specific killing of target cells when compared to single transfer of either TCR-transduced CD8 or CD4 cells. Conclusion: CD4 cells rendered capable of responding to an MHC class I restricted TAA by TCR transfer can rescue tolerance developing in a CD8 population with the same specificity. This is potentially a novel way to circumvent defective immune responses arising in adoptively transferred effector cells due to prolonged exposure to cognate antigen on normal host cells. Disclosures: Stauss: Cell Medica: Scientific Advisor Other.

scholarly journals Long-Lived Poxvirus Immunity, Robust CD4 Help, and Better Persistence of CD4 than CD8 T Cells

2004 ◽  
Vol 78 (8) ◽  
pp. 3811-3816 ◽  
Author(s):  
Rama Rao Amara ◽  
Pragati Nigam ◽  
Sunita Sharma ◽  
Jinyan Liu ◽  
Vanda Bostik
Keyword(s):  
T Cells ◽  
Cd8 T Cells ◽  
Intracellular Cytokine Staining ◽  
Significant Proportion ◽  
Smallpox Vaccine ◽  
Booster Immunization ◽  
Cd8 Cells ◽  
B Cell Memory ◽  
Highly Sensitive ◽  
Cd4 Help

ABSTRACT The currently used smallpox vaccine is associated with a high incidence of adverse events, and there is a serious need for a safe and effective alternative vaccine. Here, we carried out a longitudinal evaluation of vaccinia virus-specific CD4 and CD8 T cells in smallpox-vaccinated individuals by using a highly sensitive intracellular cytokine staining assay. Our results demonstrate that, in addition to the CD8 response, the smallpox vaccinations raised a robust CD4 response with a Th1-dominant cytokine profile. These CD4 T cells were stable and exhibited only a twofold contraction between peak effector and memory phases compared with an approximate sevenfold contraction for CD8 cells. A significant proportion of vaccinated individuals lost detectable CD8 memory while maintaining CD4 memory. After a booster immunization, these individuals generated a robust CD8 response, which some of them rapidly lost. Thus, the current smallpox vaccine provides long-lasting CD4 help that may be critical for long-lived B-cell memory. We suggest that the provision of adequate CD4 help for CD8 and humoral effector functions will be critical to the success of the next generation of smallpox vaccines.

scholarly journals LAG3 Promotes Acute Myeloid Leukemia-Induced Immune Suppression

Blood ◽  
2018 ◽  
Vol 132 (Supplement 1) ◽  
pp. 2414-2414
Author(s):  
Haitham Abdelhakim ◽  
Neil Dunavin ◽  
Meizhang Li ◽  
Mitchell Braun ◽  
Ahmed Elkhanany ◽  
...  
Keyword(s):  
T Cells ◽  
Antigen Presentation ◽  
Cd8 T Cells ◽  
Myeloid Leukemia ◽  
Transcript Levels ◽  
Cd8 Cells ◽  
Significant Difference ◽  
Genes Encoding ◽  
Antigen Presenting ◽  
Acute Myeloid

Abstract Background: The curative potential of allogeneic hematopoietic stem cell transplant (SCT) for acute myeloid leukemia (AML) depends in part on the graft-versus-leukemia (GVL) cellular immune response. Mechanisms of resistance to GVL and methods to overcome post-SCT relapse are a critical focus of research. AML blasts can inhibit activation and proliferation of immune cells in culture. We hypothesized that irradiating AML blasts would diminish their immune suppressive capacity while maintaining antigen presentation, leading to higher activation of CD8+ T cells among peripheral blood mononuclear cells (PBMC) in co-culture. Furthermore, we investigated the capacity of live and irradiated AML blasts to induce expression of immune checkpoints on CD8+ T cells in co-culture, focusing on Lymphocyte-activation gene 3 (LAG3) which interacts with class II MHC. Methods: PBMC were isolated from healthy donors in compliance with an IRB-approved protocol. PBMC were co-cultured with live human AML K-1 cells (CRL-2724) and irradiated K-1 cells (40 Gy) at the following ratios: 1:1, 1:2, 1:4 and 1:8. Cells were cultured in RPMI complete media supplemented with 10% FBS and IL-2 20 IU/ml. On day 3 of co-culture, immunophenotypic characterization of T cells was performed on an Attune NxT flow cytometer using the following antibody markers: CD3, CD4, CD8, CD25, CD137, CD154, PD-1, TIM3, TIGIT, and LAG3. PBMC were fixed and permeabilized prior to intracellular staining of IFNg and FOXP3. Regulatory T cells (Tregs) were identified as CD4+ CD25+ FOXP3+. To correlate the expression of the genes encoding for IFNg, LAG3, PD1, and antigen presentation molecules in the tumor microenvironment, we analyzed RNA sequencing data from The Cancer Genome Atlas (NCI TCGA) AML database. Associations were determined by Spearman's correlation and K-means clustering. Results: PBMC co-cultured with irradiated AML K-1 showed significant higher IFNg expression (11.8% ± 3.1 v. 7% ± 3.3; n=7, P=0.012) and higher CD137 (4-1BB) expression (9.3% ± 1.21 v. 5.7% ± 3.4; n=7, P<0.001) on CD8+ T cells when compared to live AML K-1-PBMC co-cultures. PBMC co-cultured with irradiated AML K-1 showed significant higher CD154 expression on CD4+ cells (44.7% ± 20.3 v. 26.3% ± 14.2; n=5, P=0.002) when compared to the live AML K-1-PBMC co-cultures. There were fewer Tregs in the PBMC co-cultured with irradiated K-1 cells compared to the live AML K-1-PBMC co-cultures (1.96% ± 0.37 v. 3.39% ± 0.58; n=4, P=0.03). There was no significant difference of PD-1, TIM3 or TIGIT expression between the live and irradiated K-1-PBMC co-culture. However, there were fewer LAG3+ CD8+ T cells in the irradiated K-1-PBMC co-cultures compared to the live K-1-PBMC co-cultures (11.8% ± 2.4 v. 17.5% ± 2.5; n=4, P=0.002). Adding anti-LAG3 antibody (3DS223H; 0.1 ng/μl) to PBMC co-cultured with live AML cells resulted in higher IFNg (Figure 1A) and CD137 (Figure 1B) on CD8+ cells and fewer Tregs (Figure 1C) compared to PBMC co-cultured with live K-1 alone. Adding anti-PD1 antibody (EH12.2HZ) did not affect IFNg expression. We used the NCI TCGA AML database (n=173) to analyze the expression of the genes encoding for IFNg, LAG3, PD1, and several antigen presentation molecules. There was a positive correlation between IFNG and LAG3 expression levels (r2 =0.56, P<0.001). There was one log increase in mean LAG3 transcript levels with increased expression of antigen presenting genes (PSMB10, HLA-DQA1, HLA-DRB1, CMKLR1; P=0.008). Moreover, there was a significant difference in the mean log expression of LAG3 between favorable (3.84), intermediate (4.69), and high risk (5.98) cytogenetic category (P=0.03). Interestingly, there was no correlation between PDCD1 and INFG transcript levels (r2 =0.12, P=0.5). There was also no correlation between PDCD1 transcription levels and antigen presenting genes (P=0.46) or the cytogenetic risk category (P=0.74). Conclusion: In our in vitro model, LAG3 upregulation correlates with decreased activation of CD8+ cells and higher Tregs when healthy donor PBMC are co-cultured with AML K-1 cells. Antibody-mediated blocking of LAG3 may potentially reverse the suppression of CD8+ T cells by AML K-1 cells and produce fewer Tregs. Bioinformatic analysis of TCGA database confirmed a positive correlation between LAG3 transcript levels and expression of both immune activation and antigen presentation genes. LAG3 transcript levels are higher in unfavorable-risk AML. Figure. Figure. Disclosures Lin: Jazz Pharmaceuticals: Honoraria.

Mechanisms of Cross-Presentation in Graft-Vs-Host Disease.

Blood ◽  
2009 ◽  
Vol 114 (22) ◽  
pp. 687-687
Author(s):  
Xiaojian Wang ◽  
Derry Roopenian ◽  
Catherine Martone ◽  
Ning Li ◽  
Hongmei Li ◽  
...  
Keyword(s):  
T Cells ◽  
T Cell ◽  
Cd8 T Cells ◽  
Cell Expansion ◽  
Type I ◽  
Cd8 Cells ◽  
Cross Presentation ◽  
Ifn Γ ◽  
Cd4 Help

Abstract Abstract 687 Graft-versus-host disease (GVHD) remains a major cause of morbidity and mortality in allogeneic stem cell transplantation. We previously showed that recipient antigen-presenting cells (APCs) are required for CD8-dependent GVHD, while donor APCs promote GVHD in a MHC matched (C3H.SW (right arrow) B6; both H-2b) model (Shlomchik et al, Science 1999; Matte et al., Nat Med 2004). However, how donor APCs promote maximal GVHD was not addressed. The LTFNYRNL peptide from H60 is a dominant minor histocompatibility antigen (miHA) presented by H-2Kb. To study cross-presentation of H60, we crossed B6 mice congenic for H60 (CH60; hematopoietically restricted) or transgenic for H60 driven by an actin promoter (actH60; H60 is ubiquitously expressed) with B6 Kb-/- mice. These mice express H60 but cannot directly present it to donor CD8 cells as they do not express Kb. CH60C*Kb-/-and actH60*Kb-/- were irradiated and reconstituted with C3H.SW (H60-) bone marrow,106(6 superscript) CD8 T cells and 2*105( 5 superscript) CD4 (to promote the CD8 response to H60). Using H60-MHC tetramers, we detected H60-specific CD8 T cell expansion as early as day 8, with a peak at day14, demonstrating cross-priming by donor C3H.SW APCs. Intracellular IFN-γ staining and an in vivo CTL assay showed that these cross-primed CD8 T cells had effector functions. Surprisingly, accumulation of H60-tetramer+ cells was greater when it was exclusively cross-presented. SIINFEKL, a peptide derived from ovalbumin (OVA), is also presented by Kb. Therefore to confirm our findings we used B6 mice transgenic for ovalbumin crossed to Kb-/- mice (ova*Kb-/-) as recipients in the same model. SIINFEKL-tetramer+ T cells expansion was also observed in ova*Kb-/- recipients, demonstrating cross-priming. The source of miHA did not affect the cross-priming as similar SIINFEKL-reactive T cell expansion occurred in retransplanted (right arrow)ova*Kb-/-, ova*Kb-/-(right arrow) Kb-/- bone marrowγKb-/- chimeras. Cross-priming of SIINFEKL-reactive CD8 cells even occurred when BALB/c mice transgenic for OVA (BALB/c-ova; (H-2d)) were transplanted with B6 BM and a mix of B6 CD4 and CD8 cells. SIINFEKL-reactive cells produced IFN-γ and killed SIINFEKL-pulsed B6 cells in vivo. Because of the availability of knockout/transgenic mice backcrossed to B6, we used this system to explore mechanisms of cross-presentation. Donor CD11c+ dendritic cells (DCs) were required as cross-priming was abrogated when BALB/c-OVA mice were transplanted with BM from mice constitutively lacking CD11c+ DCs (Birnberg et al, Immunity 2008). CD4 help has been reported to be important for cross-priming. Surprisingly, however, cross-priming by donor APCs was unaffected when BALB/c-OVA mice were transplanted with B6 MHCII-/- BM but was greatly reduced in recipients of B6 CD40-/- BM. Thus, while CD40L activation of cross-priming DCs is important, CD4 cells which are likely the source of the CD40L need not actually make T cell receptor:MHC contacts with the cross-presenting DC. CD40L-conditioning of donor APCs is not required to cross-prime memory cells, as sort-purified memory CD8 cells from SIINFEKL-vaccinated mice expanded robustly in actOVA*Kb-/- but not Kb-/- mice. Cross-priming also occurred in recipients of IFNAR1-/- BM, indicating that Type I IFN activation of donor APCs is not required as has been reported in nontransplant settings. Taken together, our data demonstrate that cross-presentation by donor DCs occurs in MHC-matched and -mismatched transplants, and this cross-presentation likely explains the reduced GVHD we observed in recipients of MHCI- donor bone marrow. That T cells can be cross-primed to nonhematopoietic antigens provides a basis for persistent GVHD and for the generation of CD8 responses against antigens not initially targeted. We also found transplantation to be a permissive environment for cross-priming in that CD4 help could be delivered in trans, type I IFN APC activation was not required and memory cells could be activated without CD4 help. These data provide further rationale for targeting donor DCs and pathways required for cross-presentation to prevent and treat GVHD. Disclosures: No relevant conflicts of interest to declare.

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