Developmental epigenetic programming by Tet1/3 determines peripheral CD8 T cell fate.

In response to infections, naive CD8 T cells give rise to effector and memory T cells. However, eliciting long-lived memory CD8 T cells remains a challenge for many infections. DNA demethylation of cytosines within CpG dinucleotides by Tet enzymes is a key epigenetic mechanism that regulates short- and long-term transcriptional programs in cells.

Accurate enumeration of pathogen-specific and virtual memory CD8 T cells after infection.

Establishing the magnitude and kinetics of polyclonal Ag-specific CD8 T-cell responses, in addition to their functional fitness, is critical for evaluating a host's ability to respond to different kinds of infections and/or immunizations. To track CD8 T-cell responses during infection, a surrogate-activation-marker approach (CD8αloCD11ahi) is used to distinguish naïve and Ag-experienced effector/memory CD8 T cells in vivo. However, semidifferentiated virtual memory (Tvm) CD8 T cells have recently been identified in uninfected/unmanipulated mice that display a phenotype similar to Ag-experienced cells.

TRAF3 is critical for initial T follicular helper cell specification via coordination of the IL-6R/IL-2R-BCL6 signaling nexus.

CD4 T follicular helper (T) cells are essential for orchestrating robust humoral immunity, yet the signals that initiate T cell differentiation are not fully understood. We identified that the adapter protein TRAF3 was required for T cell differentiation and function during systemic inflammatory infections. Loss of CD4 T cell-intrinsic TRAF3 impaired chromatin remodeling and transcriptional programming essential for T cell initiation and instead augmented T1 development and function.

The Impact of Cell-Intrinsic STAT6 Protein on Donor T Cell-Mediated Graft-Versus-Tumor Effect.

Bone marrow transplantation (BMT) is mainly performed to restore an anti-tumor immune response, called the graft-versus-tumor (GVT) effect, against leukemia, myeloma and lymphoma. This GVT reactivity is driven by donor T cells, and it can also cause lethal graft-versus-host disease (GVHD). We previously demonstrated that the colonization of mice with helminths preserves the GVT response while suppressing GVHD.

Tragedy of the commons: the resource struggle during Plasmodium infection.

Plasmodium spp. have an ancient history with humans, having been described in ancient texts dating back 3500 years ago, which has led to an evolutionary arms race between Plasmodium and humans with Plasmodium successfully subverting durable, sterilizing host immunity. Mechanisms of immune evasion include polymorphism and antigenic variation, as well as dysregulated immune responses, each facilitating transmission and Plasmodium parasite persistence.

Itaconate as a potential target for antimalarial therapy.

In a recent publication, Ramalho et al. investigated monocyte-derived dendritic cell (MODC) mobilization in response to Plasmodium infection. The authors showed that elevated levels of itaconate in MODCs results in reduced CD8 T cell activation and that the absence of itaconate is associated with enhanced parasite control.

CD4 T Cell-Derived IL-21 Is Critical for Sustaining Plasmodium Infection-Induced Germinal Center Responses and Promoting the Selection of Memory B Cells with Recall Potential.

Development of Plasmodium-specific humoral immunity is critically dependent on CD4 Th cell responses and germinal center (GC) reactions during blood-stage Plasmodium infection. IL-21, a cytokine primarily produced by CD4 T cells, is an essential regulator of affinity maturation, isotype class-switching, B cell differentiation, and maintenance of GC reactions in response to many infection and immunization models. In models of experimental malaria, mice deficient in IL-21 or its receptor IL-21R fail to develop memory B cell populations and are not protected against secondary infection.

CD40 Signaling in Mice Elicits a Broad Antiviral Response Early during Acute Infection with RNA Viruses.

Macrophages are critical in the pathogenesis of a diverse group of viral pathogens, both as targets of infection and for eliciting primary defense mechanisms. Our prior in vitro work identified that CD40 signaling in murine peritoneal macrophages protects against several RNA viruses by eliciting IL-12, which stimulates the production of interferon gamma (IFN-γ). Here, we examine the role of CD40 signaling in vivo.

Targeting plasmodium α-tubulin-1 to block malaria transmission to mosquitoes.

ookinetes use an invasive apparatus to invade mosquito midguts, and tubulins are the major structural proteins of this apical complex. We examined the role of tubulins in malaria transmission to mosquitoes. Our results demonstrate that the rabbit polyclonal antibodies (pAb) against human α-tubulin significantly reduced the number of oocysts in midguts, while rabbit pAb against human β-tubulin did not.

Progressive differentiation toward the long-lived plasma cell compartment in the bone marrow.

The longevity of plasma cells is dependent on their ability to access and reside in so-called niches that are predominantly located in the bone marrow. Here, by employing a traceable method to label recently generated plasma cells, we showed that homeostatic plasma cells in the bone marrow and spleen were continuously replenished by newly generated B220hiMHC-IIhi populations that progressively differentiated into B220loMHC-IIlo long-lived plasma cell (LLPC) populations. We also found that, in the bone marrow, germinal center (GC)-independent and GC-dependent plasma cells decayed similarly upon NP-CGG engagement, and both entered the B220loMHC-IIlo LLPC pool.

Antibody feedback contributes to facilitating the development of Omicron-reactive memory B cells in SARS-CoV-2 mRNA vaccinees.

In contrast to a second dose of the SARS-CoV-2 mRNA vaccine, a third dose elicits potent neutralizing activity against the Omicron variant. To address the underlying mechanism for this differential antibody response, we examined spike receptor-binding domain (RBD)-specific memory B cells in vaccinated individuals. Frequency of Omicron-reactive memory B cells increased ∼9 mo after the second vaccine dose.

Temporally Evolving and Context-Dependent Functions of Cytokines That Regulate Murine Anti- Humoral Immunity.

Protective immunity against blood-stage infection and the disease malaria depends on antibodies secreted from high-affinity B cells selected during the germinal center (GC) response. The induction and stability of the GC response require the activation and direct cell-cell communication between parasite-specific CD4 helper T cells and B cells. However, cytokines secreted by helper T cells, B cells, and multiple other innate and adaptive immune cells also contribute to regulating the magnitude and protective functions of GC-dependent humoral immune responses.

Expeditious recruitment of circulating memory CD8 T cells to the liver facilitates control of malaria.

Circulating memory CD8 T cell trafficking and protective capacity during liver-stage malaria infection remains undefined. We find that effector memory CD8 T cells (Tem) infiltrate the liver within 6 hours after malarial or bacterial infections and mediate pathogen clearance. Tem recruitment coincides with rapid transcriptional upregulation of inflammatory genes in Plasmodium-infected livers.

Hemozoin-mediated inflammasome activation limits long-lived anti-malarial immunity.

During acute malaria, most individuals mount robust inflammatory responses that limit parasite burden. However, long-lived sterilizing anti-malarial memory responses are not efficiently induced, even following repeated Plasmodium exposures. Using multiple Plasmodium species, genetically modified parasites, and combinations of host genetic and pharmacologic approaches, we find that the deposition of the malarial pigment hemozoin directly limits the abundance and capacity of conventional type 1 dendritic cells to prime helper T cell responses.

Protective function and durability of mouse lymph node-resident memory CD8 T cells.

Protective lung tissue-resident memory CD8T cells (Trm) form after influenza A virus (IAV) infection. We show that IAV infection of mice generates CD69CD103and other memory CD8T cell populations in lung-draining mediastinal lymph nodes (mLNs) from circulating naive or memory CD8T cells. Repeated antigen exposure, mimicking seasonal IAV infections, generates quaternary memory (4M) CD8T cells that protect mLN from viral infection better than 1M CD8T cells.

Hemolysis-associated phosphatidylserine exposure promotes polyclonal plasmablast differentiation.

Antimalarial antibody responses are essential for mediating the clearance of Plasmodium parasite-infected RBCs from infected hosts. However, the rapid appearance of large numbers of plasmablasts in Plasmodium-infected hosts can suppress the development and function of durable humoral immunity. Here, we identify that the formation of plasmablast populations in Plasmodium-infected mice is mechanistically linked to both hemolysis-induced exposure of phosphatidylserine on damaged RBCs and inflammatory cues.

Anti-malarial humoral immunity: the long and short of it.

Humoral immunity is critical for limiting Plasmodium parasite infections and the severity of malaria. Naturally acquired immunity against malaria occurs inefficiently and protection is relatively short-lived. Here we review recent advances and explore emerging hypotheses regarding the molecular and cellular pathways that regulate Plasmodium parasite-specific B cell responses and durable anti-malarial humoral immunity.

Extrafollicular CD4 T cell-derived IL-10 functions rapidly and transiently to support anti-Plasmodium humoral immunity.

Immunity against malaria depends on germinal center (GC)-derived antibody responses that are orchestrated by T follicular helper (TFH) cells. Emerging data show that the regulatory cytokine IL-10 plays an essential role in promoting GC B cell responses during both experimental malaria and virus infections. Here we investigated the cellular source and temporal role of IL-10, and whether IL-10 additionally signals to CD4 T-cells to support anti-Plasmodium humoral immunity.

NK Cell-Derived IL-10 Supports Host Survival during Sepsis.

The dysregulated sepsis-induced cytokine storm evoked during systemic infection consists of biphasic and interconnected pro- and anti-inflammatory responses. The contrasting inflammatory cytokine responses determine the severity of the septic event, lymphopenia, host survival, and the ensuing long-lasting immunoparalysis state. NK cells, because of their capacity to elaborate pro- (i.

Frontline Science: CD40 signaling restricts RNA virus replication in Mϕs, leading to rapid innate immune control of acute virus infection.

Many acute viral infections target tissue Mϕs, yet the mechanisms of Mϕ-mediated control of viruses are poorly understood. Here, we report that CD40 expressed by peritoneal Mϕs restricts early infection of a broad range of RNA viruses. Loss of CD40 expression enhanced virus replication as early as 12-24 h of infection and, conversely, stimulation of CD40 signaling with an agonistic Ab blocked infection.

Infection-induced plasmablasts are a nutrient sink that impairs humoral immunity to malaria.

Plasmodium parasite-specific antibodies are critical for protection against malaria, yet the development of long-lived and effective humoral immunity against Plasmodium takes many years and multiple rounds of infection and cure. Here, we report that the rapid development of short-lived plasmablasts during experimental malaria unexpectedly hindered parasite control by impeding germinal center responses. Metabolic hyperactivity of plasmablasts resulted in nutrient deprivation of the germinal center reaction, limiting the generation of memory B cell and long-lived plasma cell responses.

Acute Plasmodium Infection Promotes Interferon-Gamma-Dependent Resistance to Ebola Virus Infection.

During the 2013-2016 Ebola virus (EBOV) epidemic, a significant number of patients admitted to Ebola treatment units were co-infected with Plasmodium falciparum, a predominant agent of malaria. However, there is no consensus on how malaria impacts EBOV infection. The effect of acute Plasmodium infection on EBOV challenge was investigated using mouse-adapted EBOV and a biosafety level 2 (BSL-2) model virus.

TIM-1 serves as a receptor for Ebola virus in vivo, enhancing viremia and pathogenesis.

Background: T cell immunoglobulin mucin domain-1 (TIM-1) is a phosphatidylserine (PS) receptor, mediating filovirus entry into cells through interactions with PS on virions. TIM-1 expression has been implicated in Ebola virus (EBOV) pathogenesis; however, it remains unclear whether this is due to TIM-1 serving as a filovirus receptor in vivo or, as others have suggested, TIM-1 induces a cytokine storm elicited by T cell/virion interactions. Here, we use a BSL2 model virus that expresses EBOV glycoprotein to demonstrate the importance of TIM-1 as a virus receptor late during in vivo infection.

T cell-mediated immunity to malaria.

Immunity to malaria has been linked to the availability and function of helper CD4 T cells, cytotoxic CD8 T cells and γδ T cells that can respond to both the asymptomatic liver stage and the symptomatic blood stage of Plasmodium sp. infection. These T cell responses are also thought to be modulated by regulatory T cells.

Th1-like Plasmodium-Specific Memory CD4 T Cells Support Humoral Immunity.

Effector T-cells exhibiting features of either T helper 1 (Th1) or T follicular helper (Tfh) populations are essential to control experimental infection and are believed to be critical for resistance to clinical malaria. To determine whether -specific Th1- and Tfh-like effector cells generate memory populations that contribute to protection, we developed transgenic parasites that enable high-resolution study of anti-malarial memory CD4 T-cells in experimental models. We found that populations of both Th1- and Tfh-like -specific memory CD4 T-cells persist.