Project description:In this study, we performed single cell RNA sequencing of isolated hematopoietic tissue (HPT) cells and hemocytes from the crayfish Pacifastacus leniusculus. Thereby, we could identify hitherto undescribed hemocyte types in the circulation, and show that the circulating cells are more diversified than previously recognized. In addition, we discovered cell populations in the HPT with clear precursor characteristics, but also cells involved in iron homeostasis, a previously undiscovered cell type and a finding that may have an impact to understand hematopoietic stem cell regulation in these and other animals. A limitation of the study is that it is done on the transcript-level, as Pacifastacus leniusculus is currently lacking a genomic reference. The sequencing depth is thus divided between a large number of features, compared to what would have been the case at the genome-level. There are, however, efforts currently underway to sequence and annotate the genome, which could potentially be used to re-analyze this data in the future and explore it further. In publications based on this data, the authors must acknowledge SciLifeLab and NGI with the following sentences: “Sequencing was performed by the SNP&SEQ Technology Platform in Uppsala. The facility is part of the National Genomics Infrastructure (NGI) Sweden and Science for Life Laboratory. The SNP&SEQ Platform is also supported by the Swedish Research Council and the Knut and Alice Wallenberg Foundation.”

Project description:Anopheline mosquitoes transmit Plasmodium parasites to humans, and are responsible for an estimated 219 million cases of malaria, leading to over 400,000 deaths annually. The mosquito’s immune system limits Plasmodium infection in several ways, and hemocytes, the insect white blood cells, are key players in these defense responses. However, the full functional diversity of mosquito hemocytes and their developmental trajectories have not been established. We use bulk RNA sequencing (scRNA-seq) to analyze the transcriptional profiles of hemocytes, of guts, and of carcasses of mosquito hemocytes in response to blood feeding or infection with Plasmodium. Data from three independent biological replicates for each condition and time-point (day 0, 1, 2, 3, and 7 after sugar-feeding, blood-feeding or P. berghei infection).

Project description:We aimed at characterizing the diverse hemocyte populations present in the hemolymph of the Drosophila larvae. The hemocytes were collected from wandering larvae infested by wasp (WI) or not infested (NI). The hemocytes were then sequenced using 10x genomics technology.

Project description:Insect hemocytes mediate important cellular immune responses including phagocytosis and encapsulation, and also secrete immune factors such as opsonins, melanization factors, and antimicrobial peptides. In Anopheles, they contribute to the defense against malaria parasite invasion during the early sporogonic cycle. We used microarrays to identify if and to what degree circulating hemocytes have altered global expression profiles after infection with the rodent malaria parasite, Plasmodium berghei Hemocytes were isolated 24-28h after infection using the infectious EGFP-CON P. berghei strain (experiment) or an invasion-deficient, Circumsporozoite- and TRAP-related protein (CTRP) knockout strain with the same genetic background as GFP-CON (CTRPko/GFP, control).

Project description:Toll pathway is a key mediator of antiplasmodial immunity and its mechanism of action is dependent on hemocytes (mosquito white blood cells). Anopheles gambiae were injected with dsRNA for Cactus, an inhibitor of the Toll pathway. Cactus silencing over activates the Toll pathway. The goal of this experiment is to evaluate hemocyte transcriptional changes between control mosquitoes injected with a non-related dsRNA (dsLacZ and dsCactus injected mosquitoes. We also divide hemocytes from control and experimental conditions into 2 groups: bound (hemocytes that attach to glass - granulocyte populations) and unbound (hemocytes that remain in suspension - prohemocytes and oenocytoids). Files from Unbound fractions are labelled: UB and from bound fractions are labelled B. Some of the samples were run twice and have 2 gz files.

Project description:We performed an inter-species comparison of murine spermatogenesis using the inbred strains C57B6J, CAST/EiJ and CAROLI/EiJ to investigate the cell type-specific evolution of gene expression levels among closely related species. We also used F1 crosses of C57B6J and CAST/EiJ to investigate context-specific regulatory effects on gene expression in cis and trans by measuring allele-specific expression (Goncalves et al. 2012; Wittkopp et al. 2021). To this end, single-cell RNA-Sequencing data was generated from dissociated testicular tissue in each mouse strain using the 10x Genomics scRNA-Seq platform.

Project description:In this study, we investigated somatic mutations in T cells in patients with various hematological disorders. To analyze immune cell phenotypes with somatic mutations, we performed scRNA+TCRab sequencing from 9 patients with chronic GVHD and clonal expansions of CD4+ or CD8+ T cells based on T cell receptor sequencing. CD45+ PBMCs (lymphocytes and monocytes) were sorted with BD Influx cell sorter and subjected to sequencing with Chromium VDJ and Gene Expression platform (v1.1, 10X Genomics). Sequencing was performed with Novaseq 6000 (Illumina). The immune cell phenotypes were compared to healthy controls processed in the same laboratory (accession number E-MTAB-11170). Due to data privacy concerns, the raw sequencing data is in the European Genome-Phenome Archive (EGA) under accession code [xxxx] and can be requested through the EGA Data Access Committee.

Project description:Background: Mosquito midgut is an important target for the host parasite interaction studies as this major immune organ plays a role in parasite growth, maturation and vector competence. Most important rural malaria vector of India is Proteomic approaches coupled with bioinformatics analysis have been used to study expression of functional proteins/enzymes of An. culicifacies susceptible and refractory species midgut in order to understand the mechanism of refractoriness that may help in contributing to unravel the host pathogen interactions Methodology/Principle findings: Basic shot gun proteomics approaches along with iTRAQ based differential studies followed by LC/MS/MS were employed to study the proteome of sugar fed An. culicifacies midgut. Further bioinformatics analysis was carried out using Gene ontology, SMART analysis, CELLO algorithm etc. Here proteins identified with iTRAQ Ratio more than 1.5 was considered up regulated and less than 0.67 were considered down regulated. Ratio from 1.5 – 0.67 were considered as moderate to no change. Using these criteria we observed total 80 proteins in An. culicifacies midgut and when compared susceptible species against refractory species, total 30 proteins were found to be downregulated. 3 proteins were found to be upregulated in refractory species Conclusion/Significance: Based on the present data a significant increase in number of proteins in midgut of refractory An. culicifacies species B were found that may conclude that these proteins may be responsible for the inhibiting parasite growth and linked to the melanization of oocysts or parasite lysis mechanisms in natural populations of refractory mosquito. Hence the progress of our studies at protein level suggests that these identified annotated putative proteins/enzymes may help to explore natural vector-parasite systems and reveal valuable insights into the mechanism of refractoriness which in turn further useful for bringing of novel strategies for control of malaria.

Project description:Expression profile for hemocytes from hml-Gal4, UAS-2xEGFP larvae were compared to hemocytes from hml-Gal4, UAS-2xEGFP; UAS-Idh-R195H larvae We sought to determine which genes and pathways were upregulated or downregulated in hemocytes expressing Idh-R195H, the Drosophila homolog of the human cancer-associated IDH1-R132H mutant, in vivo. We sought to obtain homogeneous populations of hemocytes from each genotype. We compared larvae expressing Idh-R195H from the hml-Gal4 driver to larvae with the hml-Gal4 driver alone.

Project description:Small RNA deep seq responses of Anopheles gambiae 3 days post arbovirus infection by artificial blood feeding.