Project description:Cassiopea sp. PORT0000214

Project description:Cassiopea sp. overview

Project description:The preferential localization of some neoplasms, such as serrated polyps, in specific areas of the intestine suggests that non-genetic factors may be important for their development. To test this hypothesis, we took advantage of transgenic mice that expressed HB-EGF throughout the intestine, but develop serrated polyps only in the cecum. Here we show that a host-specific microbiome was associated with serrated polyps, and that alterations of the microbiota induced by antibiotic treatment or by embryo-transfer rederivation markedly inhibited the formation of serrated polyps in the cecum. Mechanistically, development of serrated polyps was associated with a local decrease in epithelial barrier-function, bacterial invasion, production of antimicrobials, and increased expression of several inflammatory factors such as IL-17, Cxcl2, Tnf-α, and IL-1. Increased number of neutrophils were found within the serrated polyps, and their depletion significantly reduced polyp growth. Together these results indicate that non-genetic factors contribute to the development of serrated polyps and suggest that the development of these intestinal neoplasms in the cecum is driven by the interplay between genetic changes in the host, an inflammatory response, and a host-specific microbiota. SUMMARY: Serrated polyps (SP) are a heterogeneous group of neoplasms found in particular areas of the gut. To define the factors contributing to their specific localization, we analyzed a strain of transgenic mice that carry a genetic alteration throughout the intestinal epithelium, but only develop SP in the cecum. Transcriptome and immunostaining analyses showed increased expression of antimicrobial genes, inflammatory factors, and the presence of bacteria within SP. Alteration of the cecal microbiota by antibiotic treatment or by embryo-transfer rederivation dramatically reduced SP incidence. Microbiome analysis implicated a limited set of bacteria in the development of SP. Together, these results point to a crucial role for the microbiota in the localized development of SP in a genetically susceptible host. We obtained serrated polyp (SP) and surrounding normal (NM) tissue from the ceca of three affected mice (paired design) and assessed expression differences by RNA-Seq.

Project description:Cassiosomes are cell clusters that contain symbiotic dinoflagellates and nematocysts and released in a suspension of mucus by the up-side down jellyfish Cassiopea xamachana into the water column. Divers passing Cassiopea colonies experience skin irritation without directly disturbing the jellyfish. Cassiosomes and the structures that release them (vesicular appendages) were examined via shotgun mass spectrometry to determine whether these structures contain toxins that could be responsible for skin irritation.

Project description:Cassiopea sp. PORT0000214 genome assembly, jsCasSpea1

Project description:Leaves are colonised by a complex mix of microbes, termed the leaf microbiota. Even though the leaf microbiota is increasingly recognised as an integral part of plant life and health, our understanding of its interactions with the plant host is still limited. Here, mature, axenically grown Arabidopsis thaliana plants were spray-inoculated with different densities of the non-pathogenic bacterium Williamsia sp. Leaf354. High bacterial titers caused disease phenotypes and led to severe transcriptional reprogramming with a strong focus on plant defence.

Project description:Cassiopea sp. PORT0000214, genomic and transcriptomic data

Project description:Mucus layer microbiota of Cassiopea xamachana Targeted loci environmental

Project description:Cassiopea xamachana

Project description:Cassiopea sp. PORT0000214 genome assembly, jsCasSpea1, alternate haplotype