Abstract
BackgroundThe interaction of eukaryotic host and prokaryotic pathogen cells is linked to specific changes in the cellular proteome, and consequently to infection-related gene expression patterns of the involved cells. To simultaneously assess the transcriptomes of both organisms during their interaction we developed dual 3’Seq, a tag-based sequencing protocol that allows for exact quantification of differentially expressed transcripts in interacting pro- and eukaryotic cells without prior fixation or physical disruption of the interaction.ResultsHuman epithelial cells were infected with Salmonella enterica Typhimurium as a model system for invasion of the intestinal epithelium, and the transcriptional response of the infected host cells together with the differential expression of invading and intracellular pathogen cells was determined by dual 3’Seq coupled with the next-generation sequencing-based transcriptome profiling technique deepSuperSAGE (deep Serial Analysis of Gene Expression). Annotation to reference transcriptomes comprising the operon structure of the employed S. enterica Typhimurium strain allowed for in silico separation of the interacting cells including quantification of polycistronic RNAs. Eighty-nine percent of the known loci are found to be transcribed in prokaryotic cells prior or subsequent to infection of the host, while 75% of all protein-coding loci are represented in the polyadenylated transcriptomes of human host cells.ConclusionsDual 3’Seq was alternatively coupled to MACE (Massive Analysis of cDNA ends) to assess the advantages and drawbacks of a library preparation procedure that allows for sequencing of longer fragments. Additionally, the identified expression patterns of both organisms were validated by qRT-PCR using three independent biological replicates, which confirmed that RELB along with NFKB1 and NFKB2 are involved in the initial immune response of epithelial cells after infection with S. enterica Typhimurium.Electronic supplementary materialThe online version of this article (doi:10.1186/s12864-015-1489-1) contains supplementary material, which is available to authorized users.
Highlights
The interaction of eukaryotic host and prokaryotic pathogen cells is linked to specific changes in the cellular proteome, and to infection-related gene expression patterns of the involved cells
The low abundance of polyadenylated intermediates from the prokaryote is corroborated by the low ratios of SL1344derived transcripts in all interaction stages (
Discarding ambiguously annotated poly(A)− reads that aligned to more than one gene, 4,555 or 89% of the 5,137 known loci in SL1344 are transcribed in cultivated or interacting cells, while 14,343 or 75% of 19,233 protein-coding loci are represented in the polyadenylated transcriptomes of human host cells
Summary
The interaction of eukaryotic host and prokaryotic pathogen cells is linked to specific changes in the cellular proteome, and to infection-related gene expression patterns of the involved cells. Interactions between eu- and prokaryotic cells are frequent, multifaceted events ranging from symbiotic synergy such as symbiotic nitrogen fixation in legumes or fermentation by gastrointestinal bacteria to pathogenic interference, for instance, in the course of salmonellosis This interplay of organisms requires mutual signaling mechanisms and a continuous adaptation of the metabolism of the involved cells to varying environmental conditions. Simultaneous transcription profiling without prior disruption of the interaction remains technically challenging, and characterization of disease-related expression patterns in interacting eu- and prokaryotic cells is inevitably linked to comprehensive sequencing efforts [9]
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