Project description:Naturally-acquired immunity to blood-stage malaria is associated with several effector CD4 + T subsets including germinal centre (GC) Tfh, Th1 and Tr1 cells. Here, we mapped the locations of effector CD4+ T cell subsets during post-Plasmodium convalescence using Slide-seqV2.
Project description:Using genome-wide expression profiles from persons either experimentally challenged with malaria-infected mosquitoes or naturally-infected with Plasmodium falciparum malaria, we present details of the transcriptional changes that occur with infection and that are either commonly shared between subjects with pre-symptomatic and clinically apparent malaria or that distinguish these two groups. Our findings confirm and extend aspects of the earliest responses to malaria infection at the molecular level and which may be informative in elucidating how innate and adaptive immune responses may be modulated in different stages of infection. Experiment Overall Design: Compared samples from patients with naturally acquired malaria infection to those from volunteers in a challenge model vaccine trial.
Project description:Sterile immunity to Plasmodium falciparum infection can be induced experimentally in humans after few exposures. An example is the induction of immunity using whole parasites by exposure of malaria-naive volunteers to infectious mosquito bites while using chloroquine prophylaxis (CPS immunization). Chloroquine kills blood-stage parasites but leaves liver-stage parasites unaffected, thereby exposing the liver-stage and early blood-stage antigens to the immune system. Upon subsequent challenge, volunteers are completely protected from infection, but protective efficacy decreases when fewer infectious mosquito bites are used for CPS immunization. Efforts to understand the mechanisms of this immunity, and how it differs from naturally-acquired immunity, may provide critical insights that could aid malaria vaccine development. In this pilot study, transcriptomic features are derived from blood samples collected before and after challenge with infectious mosquito bites. 12 samples; paired pre- and post-challenge for 5 individuals, plus two controls
Project description:Naturally-acquired immunity to blood-stage malaria is associated with several effector CD4 + T subsets including germinal centre (GC) Tfh, Th1 and Tr1 cells. Children in malaria-endemic regions can experience repeated Plasmodium infections over short periods of time; yet the effect of reinfection on multiple co-existing effector and memory subsets remains unclear. Here, we tracked antigen-experienced polyclonal CD4+ T cells during Plasmodium re-infection in mice using scRNA-seq/TCR-seq.
Project description:Naturally-acquired immunity to blood-stage malaria is associated with several effector CD4 + T subsets including germinal centre (GC) Tfh, Th1 and Tr1 cells. Children in malaria-endemic regions can experience repeated Plasmodium infections over short periods of time; yet the effect of reinfection on multiple co-existing effector and memory subsets remains unclear. Here, we tracked antigen-experienced TCR-transgenic CD4+ T cells during Plasmodium re-infection in mice using scRNA-seq.
Project description:Sterile immunity to Plasmodium falciparum infection can be induced experimentally in humans after few exposures. An example is the induction of immunity using whole parasites by exposure of malaria-naive volunteers to infectious mosquito bites while using chloroquine prophylaxis (CPS immunization). Chloroquine kills blood-stage parasites but leaves liver-stage parasites unaffected, thereby exposing the liver-stage and early blood-stage antigens to the immune system. Upon subsequent challenge, volunteers are completely protected from infection, but protective efficacy decreases when fewer infectious mosquito bites are used for CPS immunization. Efforts to understand the mechanisms of this immunity, and how it differs from naturally-acquired immunity, may provide critical insights that could aid malaria vaccine development. In this pilot study, transcriptomic features are derived from blood samples collected before and after challenge with infectious mosquito bites.
