Project description:Investigation of genome-wide gene expression changes in Plasmodium falciparum overexpressing PfMYST compared to the wild-type strain 3D7. After introducing a single copy of the full-length PfMYST expression cassette into the parasite genome, parasites showed higher levels of H4-K5, -K8, and -K12 acetylation, a faster progression of intraerythrocytic developmental cycle (IDC), and shorter schizont development time (duration), which led to significantly fewer merozoites developed in mature schizonts than the control. The parasites with PfMYST overexpression substantially increased the resistance to DNA-damaging agents. These findings were published in Miao, Fan et al Mol Microbiol 2010 (PMID: 20807207). To understand the underlying mechanisms, we studied changes in the transcriptomes during the IDC by expression microarray.

Project description:Control of malaria is threatened by emerging parasite resistance to artemisinin drug (ART) therapies. The molecular details of how Plasmodium malaria parasites response to ART and how this relates to resistance is not clear. To determine how parasites respond to ART by altering gene expression, we performed a transcriptomic study of dihydroartemisinin (DHA) response in P. falciparum K1 strain and in P. berghei ANKA strain. Microarray data from DHA-treated P. falciparum trophozoite stage parasites were compared with data from other ART treatments. Genes with consistent changes in expression were identified, which includes notably down-regulation of cytosolic ribosomal protein genes. RNA-seq data revealed a similar pattern of transcriptomic change, although the pattern was much clearer in that more than one-third of P. falciparum trophozoite genes are differentially expressed with greater statistical support for down-regulation of ribosomal protein genes. The poor overlap of differentially-expressed genes between microarray and RNA-seq and less-well defined patterns for the former suggests that the accuracy of microarray is limited by technological bias. The trophozoite response to DHA is overall “ring-like” and less “trophozoite-like”, which is consistent with previous findings that Plasmodium can enter a quiescent ring-like state to resist ART. RNA-seq data from DHA-treated P. falciparum rings reveal a more muted response, although there is considerable overlap of differentially expressed genes with DHA-treated trophozoites. In contrast, P. falciparum schizonts are unresponsive to DHA, suggesting that the protective response acts mainly to arrest parasite development through the G2/M checkpoint. The transcriptional response of P. berghei to DHA treatment in vivo in infected mice is strikingly similar to the P. falciparum in vitro ring and trophozoite responses, in which ribosomal protein genes are notably down-regulated. These results suggest Plasmodium species respond to DHA in the same way. This knowledge could be applied to outwit the parasite to deliver more effective artemisinin therapies, and maybe hinder the development of drug resistance.

Project description:Expression data from Plasmodium falciparum

Project description:Epigenome profiling has led to the paradigm that promoters of active genes are decorated with H3K4me3 and H3K9ac marks. These data on synchronized parasites reveals significant developmental stage specificity of the epigenome. In rings, H3K4me3 and H3K9ac are homogenous across the genes marking active and inactive genes equally, whilst in schizonts they are enriched at the 5’end of active genes. Chip-chip (and cDNA) from Plasmodium falciparum strain NF54 Rings and Schizonts with H3, H3K4me3 and H3K9ac.

Project description:Transcriptomic Analysis of Cultured Sporozoites of P. falciparum RNA-seq reads from each of three developmental stages (2 replicates per sample) were mapped to the reference Plasmodium falciparum genome, and gene expression levels were calculated for each sample.

Project description:Plasmodium falciparum merozoite surface protein MSPDBL2 is a highly polymorphic target of naturally acquired immune responses encoded by a single copy gene under strong balancing selection in natural populations. The MSPDBL2 protein is expressed in only a minority of mature schizonts of any cultured parasite line, and mspdbl2 gene expression in culture is increased in response to overexpression of the gametocyte development inducer GDV1 in an engineered parasite clone, so there is a need to characterise its natural expression variation. In this study, MSPDBL2 in mature schizonts was analyzed in the first ex vivo culture cycle of 102 clinical isolates from four endemic populations in different West African countries, by immunofluorescence microscopy with antibodies against a conserved region of the protein. In most isolates, less than 1% of mature schizonts were positive for MSPDBL2 (median of 0.6% overall), but the frequency distribution was highly skewed as eleven isolates had more than 3% schizonts positive and one had 73% positive. The expression frequencies were similar across the four endemic populations, and there was no significant difference between the clinical isolates overall and frequencies of positive schizonts previously seen in cultured P. falciparum laboratory lines. To explore whether expression of other gene loci correlated with MSPDBL2 expression, whole transcriptome sequencing was performed on schizont-enriched material from 17 of the clinical isolates with a wide range of proportions of schizonts positive. Transcripts of particular parasite genes were highly significantly positively correlated with MSPDBP2 positivity in schizonts as well as with mspdbl2 gene transcript levels, with overrepresentation of many genes previously implicated as likely to be involved in gametocytogenesis, but not including other genes including the gametocytogenesis master regulator ap2g. Although MSPDBL2 expression occurs in a highly variable proportion of schizonts in clinical isolates, and correlation with expression of some gametocytogenesis-related genes is consistent with regulation by GDV1, it is not apparently a direct marker of sexual commitment and its function in the parasite remains to be determined.

Project description:Expression data of gene knockout Plasmodium falciparum clones

Project description:This SuperSeries is composed of the following subset Series: GSE33795: P. falciparum (lab strain 3d7) schizonts untreated control vs P. falciparum (lab strain 3d7) reference RNA pool GSE33796: P. falciparum (lab strain 3d7) schizonts treated with ionomycin vs P. falciparum (lab strain 3d7) reference RNA pool GSE33797: P. falciparum (lab strain 3d7) schizonts treated with A23187 vs P. falciparum (lab strain 3d7) reference RNA pool Refer to individual Series

Project description:Plasmodium falciparum Epigenomics

Project description:Plasmodium falciparum Transcriptome or Gene expression