Project description:We report a comparison of purified mouse NK cells from mice treated in vivo with either IL-2 cytokine complexes or IL-15 cytokine complexes. We isolated RNA and performed HiSeq 2500 analysis on paired end reads of 125 base pairs in triplicate. We find relatively few significant gene expression changes between the groups, but discovered that IL-10 was induced with IL-15 cytokine complex treatment. We show that NK produced IL-10 rescues mice from lethal cerebral malaria.
Project description:Gene expression patterns were investigated in well-defined genetically cerebral malaria-resistant (CM-R) and cerebral malaria-susceptible (CM-S) mouse strains. cDNA microarrays were used to search for differentially expressed genes in mouse brain. Four mouse strains, known to differ in susceptibility to cerebral malaria upon Plasmodium berghei ANKA infection, were compared: BALB/c and DBA/2 mice are CM-R, while C57BL/6 and CBA/J mice are CM-S.
Project description:Cerebral malaria (CM) is one of the most severe complications of malaria infection. There is evidence that repeated parasite exposure promotes resistance against CM, as indicated by the low incidence of CM in adults in malaria-endemic regions. However, the immunological basis of this infection-induced resistance remains poorly understood. Here, a microarray study done utilising the tractable Plasmodium berghei ANKA model of experimental cerebral malaria (ECM), we show that three rounds of infection and drug-cure protects against the development of ECM during a subsequent fourth infection.
Project description:We hypothesized that differential gene expression contributes to phenotypic variation of parasites which results in specific interaction of Plasmodium falciparum with its human host. In this study we used microarray hybridization to analyse the transcriptomes of P.falciparum isolated from asymptomatic carriers and from cerebral and uncomplicated malaria patients. We also investigated the transcriptomes of the 3D7 clone and the selected 3D7-Lib line.
Project description:Natural Killer (NK) cells likely play an important role in immunity to malaria, but whether repeated malaria modifies the NK cell response remains unclear. Here, we comprehensively profiled the NK cell response in a cohort of 264 Ugandan children. Repeated malaria exposure was associated with expansion of an atypical, CD56neg population of NK cells that differed transcriptionally, epigenetically, and phenotypically from CD56dim NK cells, including decreased expression of PLZF and the Fc receptor g chain, increased histone methylation, and increased protein expression of LAG-3, KIR and LILRB1. CD56neg NK cells were highly functional, displaying greater antibody dependent cellular cytotoxicity than CD56dim NK cells, and higher frequencies of these cells were associated with protection against symptomatic malaria and high parasite densities. Importantly, following marked reductions in malaria transmission, frequencies of these cells rapidly declined, suggesting that continuous exposure to malaria is required to maintain this modified, adaptive-like NK cell subset.
Project description:PBMCs were obtain from mild malaria and cerebral malaria patient at the onset of P. falciparum infection. Patient recruitment took place in two hospital centers in Senegal Total RNAs from PBMCs of mild and cerebral malaria patients were profiled after hybridization with Agilent SurePrint G3 Human GE 8x60K Microarray to identify blood biomarkers for cerebral malaria phenotype Plasmodium falciparum malaria remains a major health problem in Africa. The mechanisms of pathogenesis leading to the severe form of the disease are not fully understood. Blood transcriptional profiles were investigated in patient with cerebral malaria, noncerebral malaria , and mild malaria by using the microarray technology. We identified a set of 447 genes that was differentially expressed between the three patient groups after a false discovery rate of 10%. Since the cerebral patients displayed a particular transcriptional pattern, we focused our analysis on the differences between cerebral malaria patients and mild malaria patients. We further found 849 genes differentially expressed after a false discovery rate of 10%. We validated our results by using the qPCR method for 5 genes. The enrichment analysis of their functional annotation indicates that genes involved in A, B, C pathways play a role in the occurrence of cerebral malaria. These results provide new insight into the potential effect of the dysregulation of gene expression and specific pathways. Host genetic variation may partly explain such alteration of gene expression. Further studies are required to investigate this in African populations.
Project description:Cerebral malaria is a pathology involving inflammation in the brain. There are many immune cell types activated during this process, but there is little information on the contribution of microglia, the brain resident macrophages, to this severe complication. We have examined the responses of microglia in a model of experimental cerebral malaria (ECM), in which C57BL/6 mice are infected with Plasmodium berghei ANKA. Genome wide transcriptomic analysis of these cells revealed that thousands of transcripts were differentially expressed at two different time points during the infection. The analysis indicated that proliferation of microglia was a dominant feature before the onset of ECM, and supporting this, we observed an increase in numbers of these cells in the brain. When cerebral malaria symptoms were manifest, genes involved in immune responses and chemokine production were upregulated, which were possibly driven by Type I Interferon. Together, our data offer a unique insight into the responses of microglia in the brain during ECM.
Project description:Cerebral malaria (CM) is a leading cause of death in the world. Better understanding of the pathogenesis of this disease is critical for the development of novel therapies. In this work, we investigated temporal gene expression profiles in the brains of CM-susceptible and CM-resistant mice during infection with P. Berghia ANKA (PbA). In this model of CM, susceptible mice develop neurological signs by day 6 post infection while resistant mice do not develop neurological manifestations during malarial infection. Keywords: Time course
Project description:We performed transcriptome sequencing on Neo-2/15 stimulated CAR NK cells,to shed light on the function and phenotype changes of CAR-NK cells stimulated by IL-2 and Neo-2/15.
Project description:We used microarrays to characterize the whole blood global gene expression profiles in 98 children with P. falciparum cerebral malaria We associated retinopathy status with host genes and pathways to explore mechanisms of infected red sequestration to the microvasculature in CM