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Series GSE161854 Query DataSets for GSE161854
Status Public on Nov 17, 2021
Title Typhoidal Salmonella Dendritic Cell Survival Mechanism Revealed by Dual RNA sequencing
Organisms Homo sapiens; Salmonella enterica; Salmonella enterica subsp. enterica serovar Typhimurium str. LT2; Salmonella enterica subsp. enterica serovar Typhi str. Ty2; Salmonella enterica subsp. enterica serovar Typhimurium str. D23580
Experiment type Expression profiling by high throughput sequencing
Summary Salmonella enterica represent a major disease burden worldwide. While non-typhoidal Salmonella (NTS) serovars trigger self-limiting diarrhoea, leading to occasional secondary bacteraemia, S. enterica serovar Typhi is responsible for potentially life-threatening Typhoid fever. Dendritic cells (DCs) are key professional antigen presenting cells of the human immune system. The ability of pathogenic bacteria to subvert DC functions and prevent T cell recognition contributes to their survival and dissemination within the host. Here, we adapted Dual RNA-sequencing to define how different Salmonella pathovariants remodel their gene expression in tandem with that of infected DCs. We find DCs harness iron handling pathways to defend against invading Salmonellas, which, the human pathogen S. Typhi is able to circumvent. We show that S. Typhi mounts a robust response to host oxidative stress to avoid host iron-mediated defence mechanisms. In parallel, we provide evidence that invasive non-typhoidal Salmonella employs several strategies to impair DC functions and undertake alternative nutrient scavenging strategies to survive in the hostile intracellular environment.
 
Overall design Dual RNA-seq of mini-bulks (20'000 cells) of human monocyte derived dendritic cells infected with S. Typhimurium strain LT2 or D23580 or S. Typhi strain Ty2 or left uninfected
 
Contributor(s) Aulicino A, Antanaviciute A, Frost J, Sousa-Geros A, Mellado E, Atttar M, Jagielowicz M, Sinz J, Preciado-Llanes L, Napolitani G, Bowden R, Koohy H, Drakesmith H, Simmons A
Citation(s) 35121793
Submission date Nov 19, 2020
Last update date Feb 16, 2022
Contact name Alison Simmons
E-mail(s) alison.simmons@ndm.ox.ac.uk
Organization name University of Oxford
Department The MRC Weatherall Institute of Molecular Medicine
Street address John Radcliffe Hospital/Headley Way
City Oxford
ZIP/Postal code OX3 9DS
Country United Kingdom
 
Platforms (7)
GPL20301 Illumina HiSeq 4000 (Homo sapiens)
GPL24676 Illumina NovaSeq 6000 (Homo sapiens)
GPL29429 Illumina HiSeq 4000 (Homo sapiens; Salmonella enterica)
Samples (93)
GSM4916000 D1_Uninfected Unenriched
GSM4916001 D1_LT2_infected Unenriched
GSM4916002 D1_D23580_infected Unenriched
Relations
BioProject PRJNA679623
SRA SRP293303

Download family Format
SOFT formatted family file(s) SOFTHelp
MINiML formatted family file(s) MINiMLHelp
Series Matrix File(s) TXTHelp

Supplementary file Size Download File type/resource
GSE161854_Enriched_D23580.txt.gz 277.9 Kb (ftp)(http) TXT
GSE161854_Enriched_LT2.txt.gz 257.2 Kb (ftp)(http) TXT
GSE161854_Enriched_TY2.txt.gz 275.7 Kb (ftp)(http) TXT
GSE161854_Unenriched_D23580.txt.gz 176.8 Kb (ftp)(http) TXT
GSE161854_Unenriched_LT2.txt.gz 165.2 Kb (ftp)(http) TXT
GSE161854_Unenriched_TY2.txt.gz 174.5 Kb (ftp)(http) TXT
GSE161854_intracellular_enriched_D23580.txt.gz 159.5 Kb (ftp)(http) TXT
GSE161854_intracellular_enriched_LT2.txt.gz 156.4 Kb (ftp)(http) TXT
GSE161854_intracellular_enriched_TY2.txt.gz 152.3 Kb (ftp)(http) TXT
GSE161854_intracellular_unenriched_D23580.txt.gz 159.2 Kb (ftp)(http) TXT
GSE161854_intracellular_unenriched_LT2.txt.gz 167.4 Kb (ftp)(http) TXT
GSE161854_intracellular_unenriched_TY2.txt.gz 152.4 Kb (ftp)(http) TXT
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Processed data are available on Series record
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