Project description:Reconstitution of cytomegalovirus (CMV)-specific immunity following transplant remains a primary clinical objective to prevent CMV disease, and adoptive immunotherapy of CMV-specific T cells can be an effective therapeutic approach. Due to the persistence of CMV, most CMV-specific CD8+ T cells become terminally differentiated effector cells (TEFF). However, a minor subset retains a memory phenotype (TM). Interestingly, recent studies suggest that CMV-specific CD8+ T cells with different phenotypes may have different abilities to reconstitute sustained immunity following transfer. The immunology of human CMV (HCMV) infections is reflected in the mouse model of MCMV infection. We found that HCMV- and MCMV-specific T cells displayed shared genetic programs, validating the MCMV model for studies of CMV-specific T cells in vivo. After transfer, the proliferative capacity of MCMV-specific TM cells was vastly superior to TEFF cells. Strikingly, TM cells expanded and established sustained and diverse T cell populations even after multiple challenges. Although both T­EFF and T­M cells could protect Rag-/- mice, only T­M cells could consistently survive after transfer into immune replete, latently infected recipients and respond if recipient immunity was lost. These data show that CMV-specific TM cells retain memory function during persistent infection and can re-establish CMV immunity when necessary. C57BL/6 mice were infected intraperitoneally (i.p.) with MCMV strain MW97.01 between 6-16 weeks of age. Splenocytes were isolated from chronically-infected mice and co-stained with three PE-conjugated tetramers loaded with the antigenic peptides from M38, m139 and IE3, all of which promote memory inflation. Cells were then stained with fluorescently conjugated antibodies and sorted on a MoFlo cell sorter. Naïve CD8+ cells were identified as CD44lo. MCMV-specific T cells were identified as CD8+, CD44hi and tetramer binding and then further segregated into memory and effector cells subsets by their expression of KLRG1 and CD127.

Project description:Reactivation of latent HCMV is a significant infectious complication of organ transplantation, and current therapies target viral replication once reactivation of transcriptionally silent, latent virus has already occurred. The specific molecular pathways that activate viral gene expression are not well understood. Our studies aim to identify these factors, with the goal of developing novel therapies that prevent transcriptional reactivation in transplant recipients. MCMV is a valuable model for studying latency and reactivation of CMV induced by organ transplantation. We previously demonstrated that transplantation of MCMV-latently infected kidneys into allogeneic recipients induces transcriptional reactivation of immediate early (IE) gene expression within 48 hr. We used microarrays to profile global mouse kidney gene expression associated with transcriptional reactivation of MCMV immediate early gene expression at 48 hr after transplant of MCMV latently infected kidneys into allogeneic recipients. We identified differentially expressed genes and pathways associated with both early acute rejection and reactivation of MCMV. control vs. allograft

Project description:Comparison of the transcriptome of naive (CD45RA+ CD27+) and differentiated (CD27-CD28-) CD4+ lymphocytes from newborns with congenital human cytomegalovirus infection (cord blood samples) and pregnant women diagnosed with primary CMV infection. Naive cells from HCMV uninfected newborns were used as a control.

Project description:The avidity of the T-cell receptor (TCR) for antigenic peptides presented by the MHC (pMHC) on cells is an essential parameter for efficient T cell-mediated immunity. Yet, whether the TCR-ligand avidity can drive the clonal evolution of virus antigen-specific CD8 T cells, and how this process is determined in latent Cytomegalovirus (CMV)- against Epstein-Barr virus (EBV)-mediated infection remains largely unknown. Here, we quantified monomeric TCR-pMHC dissociation rates on CMV- and EBV-specific individual TCR-alpha-beta clonotypes and polyclonal CD8 T cell populations in healthy donors over a follow-up time of 15-18 years. Within CMV/pp65-specific T cell repertoires, a progressive contraction of clonotypes with high TCR-pMHC avidity and low CD8 binding dependency was observed, leading to an overall avidity decline during long-term antigen exposure. We identified a unique transcriptional signature preferentially expressed by high-avidity CMV/pp65-specific T cell clonotypes, including the inhibitory receptor LILRB1. Interestingly, T cell clonotypes of high-avidity showed higher LILRB1 expression than the low-avidity ones and LILRB1 blockade moderately increased T cell proliferation. Similar findings were made for CD8 T cell repertoires specific for the CMV/IE-1 epitope. There was a gradual in vivo loss of high-avidity T cells with time for both CMV specificities, corresponding to virus-specific CD8 T cells expressing enhanced LILRB1 levels. In sharp contrast, the EBV/BMFL1-specific T cell clonal composition and distribution, once established, displayed an exceptional stability, unrelated to TCR-pMHC binding avidity or LILRB1 expression. Together, these findings reveal an overall long-term avidity decline of CMV- but not EBV-specific T cell clonal repertoires, highlighting the differing role played by TCR-ligand avidity over the course of these two latent herpesvirus infections. Our data suggest that the inhibitor receptor LILRB1 potentially restricts the clonal expansion of high-avidity CMV-specific T cell clonotypes during latent infection. We propose that the mechanisms regulating the long-term outcome of CMV- and EBV-specific memory CD8 T cell clonotypes in humans are distinct.

Project description:Interventions: Patients with the detection of either cytomegalic cells or IHC-CMV cells were diagnosed with CMV colitis.,Patients older than 18 years with clinical suspicion of CMV colitis but negative biopsy for CMV.,Asymptomatic patients underwent colonoscopy for screening.;Diagnostic,Diagnostic,Diagnostic;CMV colitis,Non-CMV colitis ,Healthy volunteers Primary outcome(s): Diagnostic performance After colonoscopy Sensitivity, Specificity

Project description:Reactivation of latent HCMV is a significant infectious complication of organ transplantation, and current therapies target viral replication once reactivation of transcriptionally silent, latent virus has already occurred. The specific molecular pathways that activate viral gene expression are not well understood. Our studies aim to identify these factors, with the goal of developing novel therapies that prevent transcriptional reactivation in transplant recipients. MCMV is a valuable model for studying latency and reactivation of CMV induced by organ transplantation. We previously demonstrated that transplantation of MCMV-latently infected kidneys into allogeneic recipients induces transcriptional reactivation of immediate early (IE) gene expression within 48 hr. We used microarrays to profile global mouse kidney gene expression associated with transcriptional reactivation of MCMV immediate early gene expression at 48 hr after transplant of MCMV latently infected kidneys into allogeneic recipients. We identified differentially expressed genes and pathways associated with both early acute rejection and reactivation of MCMV.

Project description:Human CMV-specific vs IAV-specific CD8 TCM cells

Project description:Human CMV-specific vs IAV-specific CD8 T cells

Project description:We compared CD8 TCM cells specific for a CMV epitope (pp65495-503) and an influenza A virus (IAV) epitope (M158-66) of the same healthy adults and identified genes whose expression are altered in CMV-specific compared to IAV-specific TCM cells.

Project description:We compared CD8 T cells specific for a CMV epitope (pp65495-503) and an influenza A virus (IAV) epitope (M158-66) of the same healthy adults and identified genes whose expression are altered in CMV-specific compared to IAV-specific TCM cells