Project description:Mcl-1, an anti-apoptotic member of Bcl-2 family maintains cell viability during clonal expansion of CD8 T cells, but the cell intrinsic role of Mcl-1 in contraction of effectors or the number of memory CD8 T cells is unknown. Mcl-1 levels decline during the contraction phase but rebound to high levels in memory CD8 T cells. Therefore, by overexpressing Mcl-1 in CD8 T cells we asked whether limiting levels of Mcl-1 promote contraction of effectors and constrain CD8 T-cell memory. Mcl-1 overexpression failed to affect CD8 T-cell expansion, contraction or the magnitude of CD8 T-cell memory. Strikingly, high Mcl-1 levels enhanced mTOR phosphorylation and augmented the differentiation of terminal effector cells and effector memory CD8 T cells to the detriment of poly-cytokine-producing central memory CD8 T cells. Taken together, these findings provided unexpected insights into the role of Mcl-1 in the differentiation of effector and memory CD8 T cells.

Project description:The PD-1 pathway regulates dysfunctional T cells in chronic infection and cancer, but the role of this pathway during acute infection remains less clear. Here, we demonstrate that PD-1 signals are needed for optimal memory. Mice deficient in the PD-1 pathway exhibit impaired CD8+ T cell memory following acute influenza infection, including reduced virus-specific CD8+ T cell numbers and compromised recall responses. PD-1 blockade during priming leads to similar differences early post-infection but without the defect in memory formation, suggesting that timing and/or duration of PD-1 blockade could be tailored to modulate host responses. Our studies reveal a role for PD-1 as an integrator of CD8+ T cell signals that promotes CD8+ T cell memory formation and suggest PD-1 continues to fine-tune CD8+ T cells after they migrate into non-lymphoid tissues. These findings have important implications for PD-1-based immunotherapy, in which PD-1 inhibition may influence memory responses in patients.

Project description:?2 (CD18) integrins with ?-chains CD11a, -b, -c, and -d are important adhesion molecules necessary for leukocyte migration and cellular interactions. CD18 deficiency leads to recurrent bacterial infections and poor wound healing due to reduced migration of leukocytes to inflammatory sites. CD8 T cells also upregulate CD11a, CD11b, and CD11c upon activation. However, the role these molecules play for CD8 T cells in vivo is not known. To determine the function of individual ?2 integrins, we examined CD8 T cell responses to Listeria monocytogenes infection in CD11a-, CD11b-, and CD11c-deficient mice. The absence of CD11b or CD11c had no effect on the generation of antigen-specific CD8 T cells. In contrast, the magnitude of the primary CD8 T cell response in CD11a-deficient mice was significantly reduced. Moreover, the response in CD11a(-/-) mice exhibited reduced differentiation of short-lived effector cells (KLRG1(hi) CD127(lo)), although cytokine and granzyme B production levels were unaffected. Notably, CD11a deficiency resulted in greatly enhanced generation of CD62L(+) central memory cells. Surprisingly, CD8 T cells lacking CD11a mounted a robust secondary response to infection. Taken together, these findings demonstrated that CD11a expression contributes to expansion and differentiation of primary CD8 T cells but may be dispensable for secondary responses to infection.

Project description:This SuperSeries is composed of the SubSeries listed below.

Project description:Mounting effective T cell responses is critical for eliciting long-lasting immunity following viral infection and vaccination. A multitude of inhibitory and stimulatory factors are induced following infection, and it is the compilation of these signals that quantitatively and qualitatively program the ensuing effector and memory T cell response. In response to lymphocytic choriomeningitis virus (LCMV) infection, the immunosuppressive cytokine IL-10 is rapidly up-regulated; however, how IL-10 is regulating what is often considered an "optimal" immune response is unclear. We demonstrate that IL-10 directly inhibits effector and memory CD4 T cell responses following an acutely resolved viral infection. Blockade of IL-10 enhanced the magnitude and the functional capacity of effector CD4 T cells that translated into increased and more effective memory responses. On the other hand, lack of IL-10 signaling did not impact memory CD8 T cell development. We propose that blockade of IL-10 may be an effective adjuvant to specifically enhance CD4 T cell immunity and protection following vaccination.

Project description:T cells provide protective immunity against infections by differentiating into effector cells that contribute to rapid pathogen control and by forming memory populations that survive over time and confer long-term protection. Thus, understanding the factors that regulate the development of effective T cell responses is beneficial for the design of vaccines and immune-based therapies against infectious diseases. Cytokines play important roles in shaping T cell responses, and IL-10 has been shown to modulate the differentiation of CD4 and CD8 T cells. In this study, we report that IL-10 functions in a cell-extrinsic manner early following acute lymphocytic choriomeningitis virus infection to suppress the magnitude of effector Th1 responses as well as the generation of memory CD4 and CD8 T cells. We further demonstrate that the blockade of IL-10 signaling during the priming phase refines the functional quality of memory CD4 and CD8 T cells. This inhibition strategy resulted in a lower frequency of virus-specific follicular Th (Tfh) cells and increased the Th1 to Tfh ratio. Nevertheless, neither germinal center B cells nor lymphocytic choriomeningitis virus-specific Ab levels were influenced by the blockade. Thus, our studies show that IL-10 influences the balance between Th1 and Tfh cell differentiation and negatively regulates the development of functionally mature memory T cells.

Project description:It is unclear where within tissues subsets of effector and memory CD8 T cells persist during viral infection and whether their localization affects function and long-term survival. Following lymphocytic choriomeningitis virus infection, we found most killer cell lectin-like receptor G1 (KLRG1)(lo)IL-7R(hi) effector and memory cells, which are long-lived and high proliferative capacity, in the T cell zone of the spleen. In contrast, KLRG1(hi)IL-7R(lo) cells, which appear terminally differentiated and have shorter life spans, were exclusively localized to the red pulp. KLRG1(lo)IL-7R(hi) T cells homed to the T cell zone using pertussis toxin-sensitive chemokine receptors and appeared to contact gp38(+) stromal cells, which produce the chemokines CCL19 and CCL21 and the T cell survival cytokine IL-7. The transcription factors T-bet and B lymphocyte-induced maturation protein-1 controlled effector CD8 T cell splenic migration. Effector CD8 T cells overexpressing T-bet homed to the red pulp, whereas those lacking B lymphocyte-induced maturation protein-1 homed to the T cell zone. Upon memory formation, CD62L(+) memory T cells were predominantly found in the T cell zone, whereas CD62L(-) cells were found in the red pulp. Thus, effector and memory CD8 T cell subset localization within tissues is linked to their differentiation states, and this may identify anatomical niches that regulate their longevity and homeostasis.

Project description:The PD-1:PD-L co-inhibitory pathway regulates dysfunctional T cells in chronic viral infection and cancer, but the role of this pathway in effector and memory responses following acute infection or vaccination remains less clear. Here we demonstrated that in the absence of signals from the PD-1 pathway, cell intrinsic alterations during initial CD8+ T cell priming resulted in excessive early CD8+ T cell expansion, but increased CD8+ T cell contraction and aberrant effector to memory CD8+ T cell transition. Overall, our studies revealed a critical and previously unappreciated role for PD-1 as an integrator of early CD8+ T cell activation signals that promoted optimal CD8+ T cell memory formation and durability. This novel PD-1 function has therapeutic implications for the generation of T cell memory during PD-1 cancer immunotherapy and modulation of the PD-1 pathway to enhance immune memory following acute infection or prophylactic vaccination. Microarrays were performed on influenza-specific CD8+ T cells isolated from the lungs of wildtype and PD-L1/L2 double knockout mice that were infected intranasally with X31-GP33. Influenza-specific CD8+ T cells were harvested at day 8 in order to determine the global program of gene expression at during the effector phase of the response to influenza to begin to dissect the role of PD-1 signaling early during effector and memory differentiation.

Project description:Central memory CD8+ T cells (TCM) can protect from secondary pathogen infection, from chronic infection and cancer as a result of their stem cell-like properties. However, the developmental origin of central memory cells and consequently the basis of their stemness have not been resolved. By monitoring the expression of the transcription factor Tcf1 (Tcf7), which is essential for central memory formation, we identified a small subset of CD8+ T cells present during the acute response to primary infection. These cells lacked cytotoxic effector function, resembled TCM both transcriptionally and epigenetically, had stem cell-like properties, and quantitatively yielded TCM. Stemness effector phase Tcf7+ CD8+ T cells depended on Tcf1 protein expression and on a set of Tcf1-dependent genes associated with adult stem cells. Stemness was thus not acquired subsequent to antigen clearance but was maintained in rare CD8+ T cells responding to acute infection and these cells quantitatively yielded TCM.

Project description:Central memory CD8+ T cells (TCM) can protect from secondary pathogen infection, from chronic infection and cancer as a result of their stem cell-like properties. However, the developmental origin of central memory cells and consequently the basis of their stemness have not been resolved. By monitoring the expression of the transcription factor Tcf1 (Tcf7), which is essential for central memory formation, we identified a small subset of CD8+ T cells present during the acute response to primary infection. These cells lacked cytotoxic effector function, resembled TCM both transcriptionally and epigenetically, had stem cell-like properties, and quantitatively yielded TCM. Stemness effector phase Tcf7+ CD8+ T cells depended on Tcf1 protein expression and on a set of Tcf1-dependent genes associated with adult stem cells. Stemness was thus not acquired subsequent to antigen clearance but was maintained in rare CD8+ T cells responding to acute infection and these cells quantitatively yielded TCM.