Project description:Mouse infection with the tapeworm Hymenolepis diminuta leads to a less severe DNBS-colitis. Increased Th2 and regulatory cytokine production in the spleen is a hallmark of Hymenolepis diminuta infection, therefore we hypothesized that given this microenvironment, splenic adaptive cells acquire an anti-inflammatory phenotype. We tested the ability of putative splenic regulatory B cells generated by Hymenolepis diminuta infection to down-regulate intestinal inflammation. We found that unlike splenic B cells from uninfected mice, splenic B cells from Hymenolepis diminuta -infected animals ameliorated chemically-induced colitis.

Project description:Hymenolepis diminuta Transcriptome or Gene expression

Project description:Mouse infection with the tapeworm Hymenolepis diminuta leads to a less severe DNBS-colitis. Increased Th2 and regulatory cytokine production in the spleen is a hallmark of Hymenolepis diminuta infection, therefore we hypothesized that given this microenvironment, splenic adaptive cells acquire an anti-inflammatory phenotype. We tested the ability of putative splenic regulatory B cells generated by Hymenolepis diminuta infection to down-regulate intestinal inflammation. We found that unlike splenic B cells from uninfected mice, splenic B cells from Hymenolepis diminuta -infected animals ameliorated chemically-induced colitis. Splenic B cells were magnetically isolated and also purified by cell sorting from 7 days-infected animals and B cells from uninfected animals were used as control.

Project description:Hybrid sequencing of Hymenolepis diminuta genome

Project description:Hymenolepis microstoma overview

Project description:Brevundimonas diminuta overview

Project description:Genomic assembly of cestode Hymenolepis diminuta, as part of the 50 Helminth Genomes Initiative sequencing of the parasitic worms that have the greatest impact on human, agricultural and veterinary disease and cause significant global health issues particularly in the developing world, or those used as model organisms.

Project description:Hymenolepis spp. (H. diminuta, H. nana and H. microstoma) are rodent-hosted tapeworms (Platyhelminthes: Cestoda) that have been used as laboratory and teaching models since the 1950s, and consequently much of our understanding of the basic physiology, biochemistry and anatomy of tapeworms in general stems from research using these species. As representatives of the order Cyclophyllidea, they are closely related to species with significant medical and economic importance such as Taenia and Echinococcus spp., but unlike these may be maintained in vivo using only laboratory mice and flour beetles (n.b. Echinoccous spp. are hosted by foxes and Taenia spp. are hosted by pigs or cows). This effort brings a classical laboratory model into the genomic age, allowing researchers in silico access to its genome and expressed gene transcripts and thereby greatly expediting research directed at understanding the genetic basis of tapeworm biology.

Project description:We tested the ability of rat worm Hymenolepis diminuta parasite crude antigens (HdAg) to induce a regulatory-associated program in bone-marrow derived macrophages (BMMs). Also, we compared gene expression profile of BMMs exposed to HdAg with those exposed to IL-4 which elicits a well-known alternative program.

Project description:Reference genome for Hymenolepis microstoma