Expanded CD8+ T cells of murine and human CLL are driven into a senescent KLRG1+ effector memory phenotype

2013 ◽  
Vol 62 (11) ◽  
pp. 1697-1709 ◽  
Author(s):  
Joachim Rudolf Göthert ◽  
Lewin Eisele ◽  
Ludger Klein-Hitpass ◽  
Stefanie Weber ◽  
Marie-Louise Zesewitz ◽  
...  
Keyword(s):  
T Cells ◽  
Cd8 T Cells ◽  
Effector Memory ◽  
Memory Phenotype

scholarly journals Evaluation of the Immunogenicity of Mycobacterium bovis BCG Delivered by Aerosol to the Lungs of Macaques

2015 ◽  
Vol 22 (9) ◽  
pp. 992-1003 ◽  
Author(s):  
A. D. White ◽  
C. Sarfas ◽  
K. West ◽  
L. S. Sibley ◽  
A. S. Wareham ◽  
...  
Keyword(s):  
Immune Response ◽  
T Cells ◽  
Mycobacterium Bovis ◽  
Cd8 T Cells ◽  
Bcg Vaccine ◽  
Effector Memory ◽  
Dependent Manner ◽  
Aerosol Delivery ◽  
Memory Phenotype ◽  
Bcg Vaccination

ABSTRACTNine million cases of tuberculosis (TB) were reported in 2013, with a further 1.5 million deaths attributed to the disease. When delivered as an intradermal (i.d.) injection, theMycobacterium bovisBCG vaccine provides limited protection, whereas aerosol delivery has been shown to enhance efficacy in experimental models. In this study, we used the rhesus macaque model to characterize the mucosal and systemic immune response induced by aerosol-delivered BCG vaccine. Aerosol delivery of BCG induced both Th1 and Th17 cytokine responses. Polyfunctional CD4 T cells were detected in bronchoalveolar lavage (BAL) fluid and peripheral blood mononuclear cells (PBMCs) 8 weeks following vaccination in a dose-dependent manner. A similar trend was seen in peripheral gamma interferon (IFN-γ) spot-forming units measured by enzyme-linked immunosorbent spot (ELISpot) assay and serum anti-purified protein derivative (PPD) IgG levels. CD8 T cells predominantly expressed cytokines individually, with pronounced tumor necrosis factor alpha (TNF-α) production by BAL fluid cells. T-cell memory phenotype analysis revealed that CD4 and CD8 populations isolated from BAL fluid samples were polarized toward an effector memory phenotype, whereas the frequencies of peripheral central memory T cells increased significantly and remained elevated following aerosol vaccination. Expression patterns of the α4β1 integrin lung homing markers remained consistently high on CD4 and CD8 T cells isolated from BAL fluid and varied on peripheral T cells. This characterization of aerosol BCG vaccination highlights features of the resulting mycobacterium-specific immune response that may contribute to the enhanced protection previously reported in aerosol BCG vaccination studies and will inform future studies involving vaccines delivered to the mucosal surfaces of the lung.

CD8 T Cell Expansion Early Post-Autologous HSCT Following Vaccination with Lymphoma Cells Secreting gp96-Ig and Augmentation by IL-2 Antibody Cytokine Complex

Blood ◽  
2010 ◽  
Vol 116 (21) ◽  
pp. 4286-4286
Author(s):  
Robert G. Newman ◽  
Eckhard R. Podack ◽  
Robert B. Levy
Keyword(s):  
T Cells ◽  
T Cell ◽  
Heat Shock ◽  
Fusion Protein ◽  
Immune Complex ◽  
Cd8 T Cells ◽  
Effector Memory ◽  
Lymphoma Cells ◽  
Hematopoietic Stem ◽  
Memory Phenotype

Abstract Abstract 4286 In patients with hematologic cancers, such as lymphoma, aggressive radiation and chemotherapy followed by autologous hematopoietic stem cell transplantation (auto-HSCT) can achieve a minimal residual disease state. Nonetheless, relapse remains the major cause of morbidity and mortality in such patients, and there remains a critical need for more effective anti-tumor therapy. Vaccination with tumor cells secreting the heat shock fusion protein gp96-Ig can induce robust CTL expansion in non-transplanted mice, however its efficacy in HSCT recipients where the opportunity to manipulate the immune response during hematolymphoid reconstitution has not been studied. We examined strategies to expand antigen specific CD8 T cells using lymphoma cells secreting gp96-Ig heat shock fusion protein in the early post auto-HSCT setting. B6 mice (CD45.2+) received ablative conditioning (9.5 Gy TBI) followed by the infusion of 5×106 congenic (CD45.1+) T cell depleted BMC. To investigate vaccine timing, E.G7-OVA lymphoma cells secreting gp96-Ig (E.G7-gp96-Ig: 107/120 Gy) were introduced either 2 or 7 days following auto-HSCT. Two days prior to vaccination, recipients received 106 CD8 OT-I T cells. Following single intraperitoneal E.G7-gp96-Ig vaccination, OT-I expansion occurred at the site of vaccination, reaching maximal levels 5 days post-vaccination. Expansion was clearly superior following vaccination on day 7. Multiple vaccinations (day 7 and 13) improved this response including enhancement of OT-I accumulation in the spleen and LN. Greater than 80% of the OT-I CD8 T cells displayed an antigen-experienced effector memory phenotype (CD44hiCD62Llo) after vaccination with E.G7-gp96-Ig. Notably, little OT-I expansion occurred following vaccination with parental E.G7-OVA (Fig 1), and the OT-I present displayed a central memory phenotype (CD44hiCD62Lhi). Since gp96 chaperoned peptides are cross-presented by APC, we determined the source of B7.1/2 costimulation with regard to donor and recipient APC. Interestingly, following day 7 vaccination CD8 OT-I expansion was markedly diminished when donor BMC were transplanted from B7.1/2 KO mice into WT or B7.1/2 KO recipients (Fig 1). In contrast, following day 2 vaccination, recipient B7.1/2+ APC clearly contributed to OT-I expansion. These observations are consistent with the transition to predominant donor APC presence early following auto-HSCT. To attempt to enhance vaccine induced CD8 expansion, immune complexes comprised of IL-2 and anti-IL-2 mAb clone S4B6 (IL-2/S4B6) were administered following day 7 vaccination. This specific IL-2 immune complex has been shown to interact with CD8 T cells expressing the intermediate affinity IL-2 receptor (IL-2Rβγ), which is expressed on memory CD8 T (concomitantly expressing CD44) and NK cells. Combination treatment with E.G7-gp96-Ig and IL-2/S4B6 immune complex resulted in 4x greater expansion of OT-I T cell numbers at the site of vaccination and in the spleen versus E.G7-gp96-Ig vaccination alone. Thus, 1 week following vaccination, >6×106 OT-I were identified in the compartments analyzed. Interestingly, residual host CD8 T cells were also expanded following complex administration. In summary, we hypothesize that gp96-Ig vaccination post-HSCT results in cross presentation of tumor peptides to CD8 T cells by mature or newly derived B7.1/2 expressing APC of donor origin. Addition of IL-2 via specific mAb/cytokine immune complex provides a strategy to augment gp96-Ig induced CD8 expansion. Studies are underway to address the efficacy of this approach in pre-clinical lymphoma models involving T cell replete auto-HSCT. Disclosures: Podack: Heat Biologics, Inc.: Consultancy, Equity Ownership.

Allogeneic Memory T Cells Derived from Host DC-Activated CD44loCD8+ T Precursors Sustain Host Tissue Injury of Ongoing Graft-versus-Host Disease.

Blood ◽  
2004 ◽  
Vol 104 (11) ◽  
pp. 3040-3040
Author(s):  
Yi Zhang ◽  
Gerard Joe ◽  
Elizabeth Hexner ◽  
Jiang Zhu ◽  
Stephen G. Emerson
Keyword(s):  
T Cells ◽  
T Cell ◽  
Cd8 T Cells ◽  
Memory T Cells ◽  
Effector Memory ◽  
Memory Phenotype ◽  
Memory T Cell ◽  
Cell Responses ◽  
With Memory

Abstract Graft-versus-host disease (GVHD) directed against minor histocompatibility antigen (miHAs) evolves over weeks to months, suggesting a requirement for persistent alloreactive donor T cells. In patients with allogeneic bone marrow transplantation (allo-BMT), persistency of GVHD is accompanied with elevated allogeneic CD4+ T cells with memory phenotype in peripheral blood. In contrast, several other studies have recently shown that T cells with memory phenotype (CD44hiCD62Lhi/lo) from normal donor mice do not induce acute GVHD. While these T cells with memory phenotype may be induced by environmental antigenic stimulation or may represent cells undergoing homeostasis in vivo, we found that early activated donor CD44hiCD8+ T cells with effector/memory phenotype upon ex vivo host DC stimulation are also functional defective in GVHD induction in vivo. However, whether alloreactive memory T cells might develop in vivo in recipient with ongoing GVHD, and if this is the case, whether these in vivo generated alloreactive memory T cells may be responsbile for persistency of GVHD, remain unknown. Using the C3H.SW anti-C57BL/6 (B6) and B6 anti-BALB.B mouse models of human GVHD directed against miHAs, we found that alloreactive CD8+ T cells secreting high levels of IFN-γ in recipient mice receiving C3H.SW CD44loCD8+ T cells + T−BM peaked by day 14, declined by day 28, and increased again after 35 days of transplantation, corresponding to the kinetics of primary and memory T cell responses. Indeed, while donor C3H.SW CD8+ T cells recovered from these B6 mice receiving C3H.SW CD44loCD8+ T cells + T−BM 10 days after allo-BMT, at the peak time of primary allogeneic immune response, upregulated the expression of effector marker CD25, donor CD8+ T cells recovered 42 days after allo-BMT from B6 mice with ongoing GVHD, at the time of memory T cell development, expressed high levels of CD44 and CD122 but down-regulated CD25. However, both d10-CD8+ and d42-CD8+ T cells expressed identical levels of cytotoxic molecules including granzyme B, perforin and FasL and were able to kill B6 mouse-derived EL-4 leukemic cells. Compared to naïve CD44loCD8+ T cells that were lost after cultured in the presence of IL-2+IL-15 for 5 days, d42-donor CD8+ T cells recovered from B6 mice with ongoing GVHD survived over 5 days in the presence of IL-2+IL-15 alone and these surviving d42-CD8+ T cells were able to rapidly proliferate in responding to B6 DCs+IL-2+IL-15 in secondary culture. Flow cytometry analysis showed that d42-CD8+ T cells contained at least two distinct subsets: CD44hiCD62Llo (80% to 85%) and CD44hiCD62LhiCD8+(3% to 6%) T cells, resembling to the phenotype of effector memory and central memory CD8+ T cells, respectively. Administration of irradiated secondary B6 mice with either d42-CD44hiCD62Lhi or d42-CD44hiCD62Llo CD8+ T cell subset recovered at day 42 from primary B6 mice receiving C3H.SW CD44loCD8+ T cells + T−BM caused virulent GVHD. These results indicate that alloreactive memory T cells develop in vivo in recipient mice with acute GVHD where host mHAs persist and may be responsible for the persistence of GVHD. Accordingly, we suggest that in vivo blockade of both alloreactive effector and memory T cell responses will be necessary for GVHD prevention and treatment.

Expanded CLL CD8+ T-Cells Are Driven Into a Senescent KLRG1+ Effector Memory Phenotype

Blood ◽  
2010 ◽  
Vol 116 (21) ◽  
pp. 913-913
Author(s):  
Joachim Rudolf Göthert ◽  
Lewin Eisele ◽  
Ludger Klein-Hitpass ◽  
Stefanie Weber ◽  
Anja Führer ◽  
...  
Keyword(s):  
T Cells ◽  
T Cell ◽  
Transgenic Mice ◽  
Peritoneal Cavity ◽  
Cd8 T Cells ◽  
Cd8 T Cell ◽  
Effector Memory ◽  
Cell Compartment ◽  
Memory Cd8 T Cells ◽  
Memory Phenotype

Abstract Abstract 913 Altered numbers and functions of T-cells have previously been demonstrated in chronic lymphocytic leukemia (CLL) patients. However, dynamics and specific T-cell subset alterations have not been studied in great detail. Therefore, we determined numbers of blood lymphocyte subsets of CLL patients in a longitudinal manner. We found that dynamic expansions of the peripheral blood CD4+ and CD8+ T-cell numbers were consistently associated with a progressively increasing CLL leukemic compartment. Additionally, we performed gene expression profiling (GEP) of blood CD3+ T-cells of CLL patients and normal donors. We identified a list of 135 genes that had significantly increased expression and 11 genes that had significantly decreased expression in CLL T-cells. The up-regulated genes included killer cell lectin-like receptor familiy members KLRA1, KLRC2, KLRD1 (CD94), KLRK1 and KLRF1 as well as CD244 (NK-cell receptor 2B4), CD160 (NK cell receptor BY55), PRF1 (perforin 1) and CRTAM (class-I MHC-restricted T-cell associated molecule). These up-regulated genes are known to be preferentially expressed by CD8+ T-cells with an effector memory phenotype. We used Gene Set Enrichment Analysis (GSEA) to investigate whether CLL T-cell genes correlate with a previously published gene expression signature of effector memory CD8+ T-cells (Willinger et al., Journal of Immunolgy 175[9], 2005). This analysis revealed a highly significant enrichment of CLL T-cell genes within the effector memory CD8+ T-cell signature (p<0.0001, FDR q<0.001). Next, we studied the CLL CD8+ T-cell compartment using flow cytometry. As already implied by GEP and GSEA, the flow cytometric analysis revealed a relative shift of subsets within the CD8+ T-cell compartment. Compared to normal donors we observed a decreased proportion of naïve CD8+ T-cells (CD45RA+CCR7+) and an increased proportion of CD8+ effector memory cells (CD45RA-CCR7-) in the CLL cohort as compared to normal donor controls. When absolute cell numbers were calculated on the basis of these results it became evident that the elevation in the absolute number of overall CD8+ T-cells in CLL was primarily attributable to the expansion of the effector memory subset of CD8+ T-cells. Subsequently, we compared the killer cell lectin-like receptor G1 (KLRG1) surface expression of CLL and normal donor CD8+ effector memory T-cells. KLRG1 marks cells, which have undergone extensive proliferation and lack replicative potential. We observed that the absolute increments of effector memory CD8+ T-cells in human CLL patients were mainly due to the expansion of the senescent KLRG1 expressing subset of cells. In order to test whether the CD8+ effector memory expansion is a general biologic CLL phenomenon we studied the CD8+ T-cell compartment of a murine transgenic CLL model (7-month-old TCL1 transgenic mice). It was previously described that TCL1 CD5+CD19+ B-cell hyperplasia first emerges in the peritoneal cavity of TCL1 transgenic mice. Therefore, we specifically studied how CD8+ T-cell subsets respond to arising CLL in the peritoneal cavity of TCL1 transgenic mice. Strikingly, we found that our observation of effector memory shifted CD8+ T-cells in human CLL was phenocopied in the peritoneal cavity of TCL1 transgenic mice. The proportion of peritoneal naïve CD8+ T-cells (CD62L+CD44-) was significantly decreased while the proportion of CD8+ effector memory T-cells (CD62L-CD44+) was significantly increased. Moreover, we observed a more than two-fold increase of KLRG1+ effector memory CD8+ T-cells in the peripheral blood and spleens of TCL1 transgenic mice compared to wild-type controls. In summary, we were able to show that human as well as mouse CLL CD8+ T-cells are driven into a senescent effector memory phenotype. This might significantly contribute to CLL immune dysfunction and might additionally represent an important component of the CLL microenvironment. Disclosures: No relevant conflicts of interest to declare.

scholarly journals CD4+ and CD8+ Circulating Memory T Cells Are Crucial in the Protection Induced by Vaccination with Salmonella Typhi Porins

2021 ◽  
Vol 9 (4) ◽  
pp. 770
Author(s):  
Luis Ontiveros-Padilla ◽  
Alberto García-Lozano ◽  
Araceli Tepale-Segura ◽  
Tania Rivera-Hernández ◽  
Rodolfo Pastelin-Palacios ◽  
...  
Keyword(s):  
T Cells ◽  
T Cell ◽  
Cd8 T Cells ◽  
T Cell Responses ◽  
Salmonella Typhi ◽  
Effector Memory ◽  
Functional Responses ◽  
Memory Phenotype ◽  
Memory T Cell ◽  
Cell Responses

Salmonella enterica serovar Typhi (S. Typhi) porins, OmpC and OmpF, are potent inducers of the immune response against S. Typhi in mice and humans. Vaccination with porins induces the protection against 500 LD50 of S. Typhi, life-lasting bactericidal antibodies and effector T cell responses in mice; however, the nature of the memory T cell compartment and its contribution to protection remains unknown. In this work, we firstly observed that vaccination with porins induces in situ (skin) CD4+ and CD8+ T cell responses. Analysis of the porin-specific functional responses of skin CD4+ and CD8+ T cells showed IFN-gamma- and IL-17-producing cells in both T cell populations. The memory phenotype of porin-specific T cells indicated the presence of resident and effector memory phenotypes in the skin, and a central memory phenotype in the skin-draining lymph node. In addition, we demonstrated that vaccination with porins via skin reduces the bacterial burden following challenge. Finally, evaluating the role of the circulating T cell memory population in protection, we showed that circulating memory CD4+ and CD8+ T cells are crucial in porin-mediated protection against S. Typhi. Overall, this study highlights the importance of inducing circulating memory T cell responses in order to achieve the optimal protection provided by porins, showing a mechanism that could be sought in the rational development of vaccines.

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